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[DCTN4] as a modifier of [chronic Pseudomonas aeruginosa infection] in [cystic fibrosis] [Pseudomonas aeruginosa (Pa) infection] in [cystic fibrosis] ([CF]) patients is associated with worse long-term [pulmonary disease] and shorter survival, and [chronic Pa infection] ([CPA]) is associated with reduced lung function, [faster rate of lung decline], increased rates of [exacerbations] and shorter survival. By using [exome sequencing] and extreme phenotype design, it was recently shown that [isoforms] of [dynactin 4] ([DCTN4]) may influence [Pa infection] in [CF], leading to worse [respiratory disease]. The purpose of this [study] was to investigate the role of [DCTN4] missense [variants] on [Pa infection] incidence, age at first [Pa infection] and [chronic Pa infection] incidence in a [cohort] of adult [CF] patients from a single [centre]. [Polymerase chain reaction] and [direct sequencing] were used to screen [DNA samples] for [DCTN4] [variants]. A total of 121 adult [CF] patients from the [Cochin Hospital CF centre] have been included, all of them carrying two [CFTR] defects: 103 developed at least 1 [pulmonary infection] with [Pa], and 68 patients of them had [CPA]. [DCTN4] [variants] were identified in 24% (29/121) [CF] patients with [Pa infection] and in only 17% (3/18) [CF] patients with no [Pa infection]. Of the patients with [CPA], 29% (20/68) had [DCTN4] missense [variants] vs 23% (8/35) in patients without [CPA]. Interestingly, [p.Tyr263Cys] tend to be more frequently observed in [CF] patients with [CPA] than in patients without [CPA] (4/68 vs 0/35), and [DCTN4] missense [variants] tend to be more frequent in male [CF] patients with [CPA] bearing two [class II mutations] than in male [CF] patients without [CPA] bearing two [class II mutations] (P = 0.06). Our observations reinforce that [DCTN4] missense [variants], especially [p.Tyr263Cys], may be involved in the [pathogenesis] of [CPA] in male [CF].	[DCTN4]{Chemicals & Drugs} is DCTN4 protein, human [Pseudomonas aeruginosa (Pa) infection]{Disorders} is Infection Pseudomonas aeruginosa [chronic Pseudomonas aeruginosa infection]{Disorders} is Infection Pseudomonas aeruginosa [cystic fibrosis]{Disorders} is Cystic Fibrosis [CF]{Disorders} is Cystic Fibrosis [cystic fibrosis]{Disorders} is Cystic Fibrosis [pulmonary disease]{Disorders} is Pulmonary disease [chronic Pa infection]{Disorders} is Infection Pseudomonas aeruginosa [CPA]{Disorders} is Infection Pseudomonas aeruginosa [faster rate of lung decline]{Disorders} is LUNG FUNCTION, ACCELERATED RATE OF DECLINE IN, SMOKING-RELATED [exacerbations]{Disorders} is Exacerbation [exome sequencing]{Procedures} is Exome Sequencing [isoforms]{Chemicals & Drugs} is Isoforms [dynactin 4]{Chemicals & Drugs} is DCTN4 protein, human [DCTN4]{Chemicals & Drugs} is DCTN4 protein, human [Pa infection]{Disorders} is Infection Pseudomonas aeruginosa [CF]{Disorders} is Cystic Fibrosis [respiratory disease]{Disorders} is Respiratory disease [study]{Procedures} is Study [DCTN4]{Chemicals & Drugs} is DCTN4 protein, human [variants]{Chemicals & Drugs} is Isoforms [Pa infection]{Disorders} is Infection Pseudomonas aeruginosa [Pa infection]{Disorders} is Infection Pseudomonas aeruginosa [chronic Pa infection]{Disorders} is Infection Pseudomonas aeruginosa [cohort]{Living Beings} is Cohort [CF]{Disorders} is Cystic Fibrosis [centre]{Organizations} is Health centre [Polymerase chain reaction]{Procedures} is Polymerase Chain Reaction [direct sequencing]{Procedures} is Direct Sequencing [DNA samples]{Anatomy} is DNA - Deoxyribonucleic acid sample [DCTN4]{Chemicals & Drugs} is DCTN4 protein, human [variants]{Chemicals & Drugs} is Isoforms [CF]{Disorders} is Cystic Fibrosis [Cochin Hospital CF centre]{Organizations} is Hospital [CFTR]{Genes & Molecular Sequences} is CFTR [pulmonary infection]{Disorders} is Pulmonary infection [Pa]{Living Beings} is Pyo [CPA]{Disorders} is Infection Pseudomonas aeruginosa [DCTN4]{Chemicals & Drugs} is DCTN4 protein, human [variants]{Chemicals & Drugs} is Isoforms [CF]{Disorders} is Cystic Fibrosis [Pa infection]{Disorders} is Infection Pseudomonas aeruginosa [CF]{Disorders} is Cystic Fibrosis [Pa infection]{Disorders} is Infection Pseudomonas aeruginosa [CPA]{Disorders} is Infection Pseudomonas aeruginosa [DCTN4]{Chemicals & Drugs} is DCTN4 protein, human [variants]{Chemicals & Drugs} is Isoforms [CPA]{Disorders} is Infection Pseudomonas aeruginosa [p.Tyr263Cys]{Chemicals & Drugs} is Isoforms [CF]{Disorders} is Cystic Fibrosis [CPA]{Disorders} is Infection Pseudomonas aeruginosa [CPA]{Disorders} is Infection Pseudomonas aeruginosa [DCTN4]{Chemicals & Drugs} is DCTN4 protein, human [variants]{Chemicals & Drugs} is Isoforms [CF]{Disorders} is Cystic Fibrosis [CPA]{Disorders} is Infection Pseudomonas aeruginosa [class II mutations]{Physiology} is Mutations [CF]{Disorders} is Cystic Fibrosis [CPA]{Disorders} is Infection Pseudomonas aeruginosa [class II mutations]{Physiology} is Mutations [DCTN4]{Chemicals & Drugs} is DCTN4 protein, human [variants]{Chemicals & Drugs} is Isoforms [p.Tyr263Cys]{Chemicals & Drugs} is Isoforms [pathogenesis]{Disorders} is Pathogenesis [CPA]{Disorders} is Infection Pseudomonas aeruginosa [CF]{Disorders} is Cystic Fibrosis
Prevascularized [silicon] membranes for the enhancement of transport to [implanted medical devices] Recent advances in [drug delivery] and sensing devices for [in situ] [applications] are limited by the diffusion -limiting [foreign body response] of fibrous encapsulation. In this study, we fabricated prevascularized synthetic device ports to help mitigate this limitation. Membranes with rectilinear arrays of [square] pores with widths ranging from 40 to 200 μm were created using materials (50 μm thick double-sided [polished silicon]) and processes (photolithography and directed reactive ion etching) common in the manufacturing of microfabricated sensors. [Vascular endothelial cells] responded to membrane geometry by either forming [vascular tubes] that [extended] through the pore or completely filling membrane pores after 4 days in culture. Although tube formation began to predominate [overgrowth] around 75 μm and continued to increase at even larger pore sizes, tubes formed at these large pore sizes were not completely [round] and had relatively thin [walls]. Thus, the optimum range of pore size for prevascularization of these membranes was estimated to be 75-100 μm. This [study] lays the foundation for creating a prevascularized port that can be used to reduce fibrous encapsulation and thus enhance diffusion to [implanted medical devices] and sensors. © 2015 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 104B: 1602-1609, 2016.	[silicon]{Chemicals & Drugs} is Silicones [drug delivery]{Devices} is Drug Delivery [in situ]{Concepts & Ideas} is In situ [applications]{Procedures} is Application [implanted medical devices]{Disorders} is Implanted Medical Device [foreign body response]{Disorders} is Host Tissue Response To Foreign Body [square]{Concepts & Ideas} is Square [polished silicon]{Chemicals & Drugs} is Silicones [Vascular endothelial cells]{Anatomy} is Vascular Endothelial Cells [vascular tubes]{Anatomy} is Vascular structure [extended]{Concepts & Ideas} is Extended [overgrowth]{Disorders} is Overgrowth [round]{Concepts & Ideas} is Round [walls]{Concepts & Ideas} is Wall structure [study]{Procedures} is Study [implanted medical devices]{Disorders} is Implanted Medical Device
[Seated] maximum [flexion]: An alternative to [standing] maximum [flexion] for determining presence of [flexion] - relaxation? The [flexion] - relaxation phenomenon (FRP) in [standing] is a specific and sensitive [diagnostic tool] for [low back pain]. [Seated flexion] as an alternative could be beneficial for certain [populations], yet the behavior of the [trunk extensors] during [seated] maximum [flexion] compared to [standing] [flexion] remains unclear. Compare FRP occurrences and [spine] [angles] between [seated] and [standing] [flexion] postures in three levels of the [erector spinae muscles]. Thirty-one [participants] free of [back pain] performed [seated] and [standing] maximum [trunk] [flexion]. Electromyographical signals were recorded from the [bilateral lumbar (L3)], [lower-thoracic (T9)], and [upper-thoracic (T4)] [erector spinae] and assessed for the occurrence of FRP. [Spine angles] corresponding to FRP onset and cessation were determined, and FRP occurrences and [angles] were compared between posture and [muscle]. FRP occurrence was similar in [standing] and [seated] maximum [flexion] across all [muscles], with the [lumbar muscles] showing the greatest consistency. [Standing] FRP onset and cessation angles were consistently greater than the corresponding [seated] FRP angles. Considering the similar number of FRP occurrences, [seated] maximum [flexion] may constitute an objective criterion for [low back pain] [diagnosis]. Future work should seek to confirm the utility of this test in [individuals] with [low back pain].	[Seated]{Disorders} is Seated [flexion]{Physiology} is Flexion [flexion]{Physiology} is Flexion [standing]{Concepts & Ideas} is Standing [standing]{Concepts & Ideas} is Standing [flexion]{Physiology} is Flexion [diagnostic tool]{Procedures} is Diagnostic Method [flexion]{Physiology} is Flexion [low back pain]{Disorders} is Low back pain [Seated flexion]{Physiology} is Flexion [populations]{Living Beings} is Population [trunk extensors]{Anatomy} is Muscle tissue (body structure) [seated]{Disorders} is Seated [flexion]{Physiology} is Flexion [standing]{Concepts & Ideas} is Standing [flexion]{Physiology} is Flexion [spine]{Anatomy} is Dorsal spine [angles]{Concepts & Ideas} is Angle [seated]{Disorders} is Seated [standing]{Concepts & Ideas} is Standing [flexion]{Physiology} is Flexion [erector spinae muscles]{Anatomy} is Erector spinae muscle [participants]{Living Beings} is Participant [back pain]{Disorders} is Pain back [seated]{Disorders} is Seated [standing]{Concepts & Ideas} is Standing [trunk]{Anatomy} is TRUNK [flexion]{Physiology} is Flexion [bilateral lumbar (L3)]{Anatomy} is Third lumbar vertebra [lower-thoracic (T9)]{Anatomy} is Ninth thoracic vertebra [upper-thoracic (T4)]{Anatomy} is T4 part of thoracic duct [erector spinae]{Anatomy} is Erector spinae muscle [Spine angles]{Concepts & Ideas} is Angle [angles]{Concepts & Ideas} is Angle [muscle]{Anatomy} is Muscle tissue (body structure) [standing]{Concepts & Ideas} is Standing [seated]{Disorders} is Seated [flexion]{Physiology} is Flexion [muscles]{Anatomy} is Muscle tissue (body structure) [lumbar muscles]{Anatomy} is Muscle tissue (body structure) [Standing]{Concepts & Ideas} is Standing [seated]{Disorders} is Seated [seated]{Disorders} is Seated [flexion]{Physiology} is Flexion [low back pain]{Disorders} is Low back pain [diagnosis]{Disorders} is Diagnosis [individuals]{Living Beings} is Persons [low back pain]{Disorders} is Low back pain
The Relationship Between Distance and [Post-operative] Visit Attendance Following Medical [Male Circumcision] in [Nyanza Province], [Kenya] To date, there is no [research] on voluntary medical [male circumcision] ([VMMC]) [catchment areas] or the relationship between distance to a [VMMC] [facility] and attendance at a [post-operative] [follow-up visit]. We [analyzed] data from a randomly selected [subset] of [males] [self-seeking circumcision] at one of 16 participating [facilities] in [Nyanza Province], [Kenya] between 2008 and 2010. Among 1437 [participants], 46.7 % attended [follow-up]. The [median] distance from [residence] to utilized [facility] was 2.98 km (IQR 1.31-5.38). Nearly all [participants] (98.8 %) lived within 5 km from a [facility], however, 26.3 % visited a [facility] more than 5 km away. Stratified results demonstrated that among those utilizing fixed [facilities], greater distance was associated with higher odds of [follow-up] non-attendance (OR 5.01-10km vs. 0-1km = 1.71, 95 % CI 1.08, 2.70, p = 0.02; OR >10km vs. 0-1 km = 2.80, 95 % CI 1.26, 6.21, p = 0.01), adjusting for age and district of [residence]. We found 5 km marked the threshold distance beyond which [follow-up] attendance significantly dropped. These results demonstrate distance is an important predictor of attending [follow-up], and this relationship appears to be modified by [facility] type.	[research]{Procedures} is Research [Post-operative]{Disorders} is Post operative (finding) [male circumcision]{Procedures} is Male Circumcision [VMMC]{Procedures} is Male Circumcision [catchment areas]{Geographic Areas} is Catchment Area [Male Circumcision]{Procedures} is Male Circumcision [Nyanza Province]{Geographic Areas} is Province [Kenya]{Geographic Areas} is Kenya [VMMC]{Procedures} is Male Circumcision [facility]{Organizations} is Health Facility [post-operative]{Disorders} is Post operative (finding) [follow-up visit]{Procedures} is Follow-up visit [analyzed]{Procedures} is Analyzed [subset]{Concepts & Ideas} is Subset [males]{Living Beings} is Human, Male [self-seeking circumcision]{Procedures} is Male Circumcision [facilities]{Organizations} is Health Facility [Nyanza Province]{Geographic Areas} is Province [Kenya]{Geographic Areas} is Kenya [participants]{Living Beings} is Participant [follow-up]{Procedures} is Follow-up [median]{Concepts & Ideas} is Median [residence]{Concepts & Ideas} is Residence [facility]{Organizations} is Health Facility [participants]{Living Beings} is Participant [facility]{Organizations} is Health Facility [facility]{Organizations} is Health Facility [facilities]{Organizations} is Health Facility [follow-up]{Procedures} is Follow-up [residence]{Concepts & Ideas} is Residence [follow-up]{Procedures} is Follow-up [follow-up]{Procedures} is Follow-up [facility]{Organizations} is Health Facility
Promoting lifestyle behaviour change and [well-being] in hospital patients: a [pilot study] of an evidence-based psychological [intervention] Lifestyle risk behaviours show an inverse social gradient, clustering in [vulnerable groups]. We designed and piloted an [intervention] to address barriers to lifestyle behaviour change among hospital patients. We designed our [intervention] using effective components of behaviour change [interventions] informed by [psychological theory]. Delivered by a [health psychologist] based at the Royal Free London NHS Foundation Trust, the 4-week [intervention] included detailed [baseline assessment], personalized [goal setting], psychological skills development, [motivation support] and [referral to] [community services]. Primary outcomes were feasibility and patient acceptability. We also evaluated changes to health and [well-being]. From 1 July 2013 to 31 September 2014, 686 patients were referred, 338 (49.3%) attended a first appointment and 172 (25.1%) completed [follow-up]. Furthermore, 72.1% of attenders were female with the median age 55 years and poor self-reported baseline health. After 4 weeks, [self-efficacy], health and well-being scores [significantly improved]: 63% of lifestyle goals and 89% of health management [goals] were fully [achieved]; 58% of [referrals to] [community] lifestyle behaviour change services and 79% of referrals to other [services] (e.g. [Citizen's Advice Bureau]) were accepted; 99% were [satisfied] / very satisfied with the [service]. Our [hospital-based intervention] was feasible, acceptable and showed [preliminary health and well-being gains].	[well-being]{Disorders} is Mental well-being [vulnerable groups]{Living Beings} is Population Groups [pilot study]{Procedures} is Pilot study [intervention]{Procedures} is Interventional [intervention]{Procedures} is Interventional [intervention]{Procedures} is Interventional [interventions]{Procedures} is Interventional [psychological theory]{Concepts & Ideas} is Psychological Theory [health psychologist]{Living Beings} is Health psychologist [intervention]{Procedures} is Interventional [baseline assessment]{Procedures} is Baseline behavioral assessment [goal setting]{Procedures} is Goal setting [motivation support]{Procedures} is Emotional support [referral to]{Procedures} is Referral to [community services]{Organizations} is Community Services [well-being]{Disorders} is Mental well-being [follow-up]{Procedures} is Follow-up [self-efficacy]{Physiology} is Self-Efficacy [significantly improved]{Disorders} is Improved [goals]{Concepts & Ideas} is Goals [achieved]{Disorders} is Goal achieved [referrals to]{Procedures} is Referral to [community]{Organizations} is Community Services [services]{Procedures} is Health Services [Citizen's Advice Bureau]{Living Beings} is Organizational [satisfied]{Concepts & Ideas} is Satisfied [service]{Procedures} is Health Services [hospital-based intervention]{Procedures} is Interventional [preliminary health and well-being gains]{Disorders} is Finding (finding)
Combining electrostatic powder with an [insecticide]: effect on stored - product [beetles] and on the [commodity] The opportunity to reduce the amount of [pirimiphos-methyl] applied to [grain] by formulating it in an electrostatic powder was investigated. The [insecticidal] efficacy of [pirimiphos-methyl] in [EC formulation] or formulated using electrostatic powder (EP) as an inert carrier was investigated against [Sitophilus oryzae] (L.), [Oryzaephilus surinamensis] (L.), [Rhyzopertha dominica] (F.) and [Tribolium confusum Jacquelin du Val]. Furthermore, the adhesive properties of EP to [rice], [corn] and [wheat], together with the effect on bulk density and [bread] - and [pasta] - making properties, were investigated. The results showed that [pirimiphos-methyl] formulated with EP provided better efficacy against [adults] when compared with [EC formulation] for [O. surinamensis] and [T. confusum], but there was no difference for [R. dominica]. Progeny production was consistently lower in [grain] [treated with] the EP formulation than in [grain] [treated with] the [EC]. Tests showed that EP adhered to the [kernels] for longer on hard [wheat] than on [maize] or [rice]. In most [commodities], EP did not alter the bulk density. Finally, the addition of EP did not affect [flour] - and [bread] - making properties, nor the [pasta] -making properties. The results of the present study suggest that an EP could be used to reduce the amount of [pirimiphos-methyl] applied to [grain] for effective pest control, with no detrimental effects on [grain] quality. © 2016 Society of Chemical Industry.	[insecticide]{Chemicals & Drugs} is Insecticide [pirimiphos-methyl]{Chemicals & Drugs} is Pirimiphos methyl [grain]{Objects} is Cereal Grain [beetles]{Living Beings} is Beetles [commodity]{Objects} is Uncooked Foods [insecticidal]{Chemicals & Drugs} is Insecticide [pirimiphos-methyl]{Chemicals & Drugs} is Pirimiphos methyl [EC formulation]{Chemicals & Drugs} is Insecticide [Sitophilus oryzae]{Living Beings} is Sitophilus oryzae [Oryzaephilus surinamensis]{Living Beings} is Oryzaephilus surinamensis [Rhyzopertha dominica]{Living Beings} is Rhyzopertha dominica [Tribolium confusum Jacquelin du Val]{Living Beings} is Tribolium confusum [rice]{Objects} is Rice [corn]{Objects} is Corn [wheat]{Objects} is Wheat [bread]{Objects} is Bread [pasta]{Objects} is Pasta [pirimiphos-methyl]{Chemicals & Drugs} is Pirimiphos methyl [adults]{Living Beings} is Adult insect [EC formulation]{Chemicals & Drugs} is Insecticide [O. surinamensis]{Living Beings} is Oryzaephilus surinamensis [T. confusum]{Living Beings} is Tribolium confusum [R. dominica]{Living Beings} is Rhyzopertha dominica [grain]{Objects} is Cereal Grain [treated with]{Procedures} is Treated with [grain]{Objects} is Cereal Grain [treated with]{Procedures} is Treated with [EC]{Chemicals & Drugs} is Insecticide [kernels]{Objects} is Food Product [wheat]{Objects} is Wheat [maize]{Objects} is Corn [rice]{Objects} is Rice [commodities]{Objects} is Uncooked Foods [flour]{Objects} is Flour [bread]{Objects} is Bread [pasta]{Objects} is Pasta [pirimiphos-methyl]{Chemicals & Drugs} is Pirimiphos methyl [grain]{Objects} is Cereal Grain [grain]{Objects} is Cereal Grain
[Radiofrequency ablation] of [posteroseptal accessory pathways] associated with [coronary sinus diverticula] [Posteroseptal accessory pathways] may be associated with a [coronary sinus (CS) diverticulum]. Our purpose was to describe the clinical characteristics, mapping and [ablation of these pathways]. This was a [retrospective study] of all patients who underwent [ablation] of [posteroseptal accessory pathways] in a [single centre]. Patients with a [diverticulum of the CS] or one of its tributaries were included in group I, while the other patients formed group II. Clinical presentation, [ablation procedure] and outcome were compared between the two groups. A total of 51 patients were included, 16 in group I and 35 in group II. There were no significant differences in age or sex distribution. [Atrial fibrillation] ([AF]) and previous unsuccessful [ablation] were more common in group I. A [negative] [delta wave] in lead II was the [ECG] [finding] with best sensitivity and specificity for the presence of a [diverticulum]. A [pathway] potential was common at the successful [site] in group I, and the interval between local ventricular electrogram and [delta wave] onset was shorter (19.5 ± 8 vs 33.1 ± 7.6 ms, p < 0.001). There was a trend toward lower procedural success rate and higher recurrence rate in group I, although this was not significant. [CS diverticula] should be suspected in patients with manifest [posteroseptal accessory pathways] who have a previous failed [ablation], documented [AF] or typical [electrocardiographic signs]. A discrete potential is frequently seen at the successful site, but the local ventricular electrogram is not as early as in other [accessory pathways].	[Radiofrequency ablation]{Procedures} is Radiofrequency Ablation [Posteroseptal accessory pathways]{Anatomy} is Posteroseptal accessory pathway [posteroseptal accessory pathways]{Anatomy} is Posteroseptal accessory pathway [coronary sinus (CS) diverticulum]{Disorders} is Coronary sinus diverticulum [coronary sinus diverticula]{Disorders} is Coronary sinus diverticulum [ablation of these pathways]{Procedures} is ABLATION, ACCESSORY PATHWAYS [retrospective study]{Procedures} is Retrospective Study [ablation]{Procedures} is Ablation [posteroseptal accessory pathways]{Anatomy} is Posteroseptal accessory pathway [single centre]{Concepts & Ideas} is Centre [diverticulum of the CS]{Disorders} is Coronary sinus diverticulum [ablation procedure]{Procedures} is Ablation [Atrial fibrillation]{Disorders} is Fibrillation atrial [AF]{Disorders} is Fibrillation atrial [ablation]{Procedures} is Ablation [negative]{Disorders} is Negative for [delta wave]{Disorders} is Delta Wave [ECG]{Procedures} is Electrocardiography NOS (regime/therapy) [finding]{Disorders} is Finding (finding) [diverticulum]{Disorders} is Diverticulum [pathway]{Anatomy} is Posteroseptal accessory pathway [site]{Concepts & Ideas} is Sites [delta wave]{Disorders} is Delta Wave [CS diverticula]{Disorders} is Coronary sinus diverticulum [posteroseptal accessory pathways]{Anatomy} is Posteroseptal accessory pathway [ablation]{Procedures} is Ablation [AF]{Disorders} is Fibrillation atrial [electrocardiographic signs]{Disorders} is Electrocardiographic Finding [accessory pathways]{Anatomy} is Accessory pathway
Association of [RBP4] levels with increased [arterial stiffness] in adolescents with [family history of type 2 diabetes] The aim of this [study] was to explore the impact of [family history of type 2 diabetes] ([FH2D]) on [arterial stiffness] in young [people] and its relationship to [adipocytokines]. This [case-control study] included 52 adolescents (male / female 28/24) with [FH2D] ([FH2D+]) and 40 adolescents (male / female 21/19) without [FH2D] ([FH2D-]). Anthropometric measurements, including height, weight, [waist circumference] ([WC]), and [blood pressure], were obtained. [Blood samples] were collected, [fasting plasma glucose] ([FPG]), [serum lipids], [Retinol Binding Protein 4] ([RBP4]), [C reactive protein] ([CRP]), [adiponectin] and [visfatin] were examined. Brachial-ankle pulse wave velocity (baPWV) was used to evaluate [arterial stiffness]. Visceral fat area (VFA) was measured by [computerized tomography]. Compared with [FH2D-] [group], [FH2D+] [group] had a significantly higher oral glucose tolerance test (OGTT) 2-hour insulin, [RBP4] and baPWV levels, a lower [adiponectin] and glucose infusing rate (GIR) (P<0.05). BaPWV was positively correlated with age, [systolic blood pressure] ([SBP]), [diastolic blood pressure] ([DBP]), 2-hour (OGTT) insulin, [RBP4], and VFA, and negatively correlated with GIR in [FH2D+] [group]. After multivariate analysis, age, [SBP], [RBP4] and VFA maintained an independent association with baPWV in [FH2D+] [group] (P<0.05), while only age, [SBP], and VFA were independent predictors of baPWV in [FH2D-] [group] (P<0.05). These [findings] led to the conclusion that [RBP4] level was associated with increased [arterial stiffness] in young [subjects] with [family history of type 2 diabetes].	[RBP4]{Chemicals & Drugs} is RBP4 protein, human [study]{Procedures} is Study [arterial stiffness]{Physiology} is Arterial Stiffness [family history of type 2 diabetes]{Disorders} is Family history of diabetes mellitus type 2 [family history of type 2 diabetes]{Disorders} is Family history of diabetes mellitus type 2 [FH2D]{Disorders} is Family history of diabetes mellitus type 2 [arterial stiffness]{Physiology} is Arterial Stiffness [people]{Living Beings} is People [adipocytokines]{Chemicals & Drugs} is Adipocytokine [case-control study]{Procedures} is Case-Control Study [FH2D]{Disorders} is Family history of diabetes mellitus type 2 [FH2D+]{Disorders} is Family history of diabetes mellitus type 2 [FH2D]{Disorders} is Family history of diabetes mellitus type 2 [FH2D-]{Disorders} is NEGATIVE [waist circumference]{Physiology} is Waist circumference [WC]{Physiology} is Waist circumference [blood pressure]{Physiology} is Blood pressure [Blood samples]{Anatomy} is Blood Sample [fasting plasma glucose]{Procedures} is Plasma fasting glucose level [FPG]{Procedures} is Plasma fasting glucose level [serum lipids]{Procedures} is Serum lipids [Retinol Binding Protein 4]{Chemicals & Drugs} is RBP4 protein, human [RBP4]{Chemicals & Drugs} is RBP4 protein, human [C reactive protein]{Procedures} is C Reactive Protein [CRP]{Procedures} is C Reactive Protein [adiponectin]{Procedures} is Adiponectin [visfatin]{Chemicals & Drugs} is NAMPT Protein [arterial stiffness]{Physiology} is Arterial Stiffness [computerized tomography]{Procedures} is Computerized tomography [FH2D-]{Disorders} is NEGATIVE [group]{Living Beings} is Population Group [FH2D+]{Disorders} is Family history of diabetes mellitus type 2 [group]{Living Beings} is Population Group [RBP4]{Chemicals & Drugs} is RBP4 protein, human [adiponectin]{Procedures} is Adiponectin [systolic blood pressure]{Physiology} is Systolic blood pressure [SBP]{Physiology} is Systolic blood pressure [diastolic blood pressure]{Physiology} is Diastolic blood pressure [DBP]{Physiology} is Diastolic blood pressure [RBP4]{Chemicals & Drugs} is RBP4 protein, human [FH2D+]{Disorders} is Family history of diabetes mellitus type 2 [group]{Living Beings} is Population Group [SBP]{Physiology} is Systolic blood pressure [RBP4]{Chemicals & Drugs} is RBP4 protein, human [FH2D+]{Disorders} is Family history of diabetes mellitus type 2 [group]{Living Beings} is Population Group [SBP]{Physiology} is Systolic blood pressure [FH2D-]{Disorders} is NEGATIVE [group]{Living Beings} is Population Group [findings]{Disorders} is Finding (finding) [RBP4]{Chemicals & Drugs} is RBP4 protein, human [arterial stiffness]{Physiology} is Arterial Stiffness [subjects]{Living Beings} is Research Subjects [family history of type 2 diabetes]{Disorders} is Family history of diabetes mellitus type 2
The effect of [total hip arthroplasty] on [sagittal] [spinal] - [pelvic-leg] alignment and [low back pain] in patients with severe [hip osteoarthritis] [Sagittal] [spinopelvic] [malalignment] has been reported in [spinal disorders] such as [low back pain] ([LBP]), and restoration of normal alignment is targeted when [treating] these [disorders]. [Abnormal] [sagittal] [spinal] - [pelvic-leg] alignment has been reported in patients with severe [hip osteoarthritis] ([OA]), who have a high prevalence of associated [LBP]. This [prospective longitudinal study] aimed to investigate changes in [sagittal] [spinal] - [pelvic-leg] alignment after [total hip arthroplasty] ([THA]) in patients with severe [hip OA], and whether these changes contribute to [LBP] [relief]. Patients undergoing primary [THA] due to severe unilateral [hip OA] were recruited. [Physical examination] and [X-ray films] were taken to rule out any [spinal disorder]. [Sagittal] alignment of [pelvis], [hip], and [spine] was analyzed on lateral radiographs taken before (baseline) and 1 year after ([follow-up]) [THA]. [Functional instruments] were completed by patients including: [visual analog scale] ([VAS]) for [LBP], [Roland-Morris Disability Questionnaire] ([RMDQ]), and [Harris Hip Score] ([HHS]). Comparisons were carried out at baseline and [follow-up], and between patients with and without [LBP]. The recruited 69 patients showed significantly reduced hip flexion and improved [global spinal balance] at [follow-up] compared with baseline. [LBP] was reported by 39 patients (56.5 %) before surgery; at [follow-up], 17 reported complete resolution, while 22 reported significant [relief]. Significant decreases in [VAS] and [RMDQ] scores in [lumbar spine] and increase in [hip] [HHS] were observed. [THA] in patients with severe [hip OA] could help correct abnormal [sagittal] [spinal] - [pelvic-leg] alignment and relieve [comorbid] [LBP]. Improvements in hip flexion and global [spinal] [balance] might be involved in the mechanism of [LBP] [relief].	[Sagittal]{Anatomy} is Sagittal [spinopelvic]{Anatomy} is Body Parts [total hip arthroplasty]{Procedures} is Prosthetic total arthroplasty of the hip [malalignment]{Disorders} is Bone Malalignment [sagittal]{Anatomy} is Sagittal [spinal]{Concepts & Ideas} is Spinal [spinal disorders]{Disorders} is Spinal Cord Disorders [pelvic-leg]{Anatomy} is Body Parts [low back pain]{Disorders} is Low back pain [low back pain]{Disorders} is Low back pain [LBP]{Disorders} is Low back pain [hip osteoarthritis]{Disorders} is Hip Osteoarthritis [treating]{Procedures} is TREAT [disorders]{Disorders} is Spinal Cord Disorders [Abnormal]{Disorders} is Abnormal [sagittal]{Anatomy} is Sagittal [spinal]{Concepts & Ideas} is Spinal [pelvic-leg]{Anatomy} is Body Parts [hip osteoarthritis]{Disorders} is Hip Osteoarthritis [OA]{Disorders} is Hip Osteoarthritis [LBP]{Disorders} is Low back pain [prospective longitudinal study]{Procedures} is Study, Prospective [sagittal]{Anatomy} is Sagittal [spinal]{Concepts & Ideas} is Spinal [pelvic-leg]{Anatomy} is Body Parts [total hip arthroplasty]{Procedures} is Prosthetic total arthroplasty of the hip [THA]{Procedures} is Prosthetic total arthroplasty of the hip [hip OA]{Disorders} is Hip Osteoarthritis [LBP]{Disorders} is Low back pain [relief]{Disorders} is Relief [THA]{Procedures} is Prosthetic total arthroplasty of the hip [hip OA]{Disorders} is Hip Osteoarthritis [Physical examination]{Procedures} is Physical Examination [X-ray films]{Devices} is X-Ray Films [spinal disorder]{Disorders} is Spinal Cord Disorders [Sagittal]{Anatomy} is Sagittal [pelvis]{Anatomy} is PELVIS [hip]{Anatomy} is HIP [spine]{Anatomy} is Dorsal spine [follow-up]{Procedures} is Follow-up [THA]{Procedures} is Prosthetic total arthroplasty of the hip [Functional instruments]{Devices} is Instruments [visual analog scale]{Procedures} is Visual Analog Scale [VAS]{Procedures} is Visual Analog Scale [LBP]{Disorders} is Low back pain [Roland-Morris Disability Questionnaire]{Concepts & Ideas} is Roland Morris Disability Questionnaire [RMDQ]{Concepts & Ideas} is Roland Morris Disability Questionnaire [Harris Hip Score]{Disorders} is Harris hip score [HHS]{Disorders} is Harris hip score [follow-up]{Procedures} is Follow-up [LBP]{Disorders} is Low back pain [global spinal balance]{Disorders} is Investigation Finding [follow-up]{Procedures} is Follow-up [LBP]{Disorders} is Low back pain [follow-up]{Procedures} is Follow-up [relief]{Disorders} is Relief [VAS]{Physiology} is Visual analogue scale score [RMDQ]{Concepts & Ideas} is Roland Morris Disability Questionnaire [lumbar spine]{Anatomy} is Lumbar Spine [hip]{Anatomy} is HIP [HHS]{Disorders} is Harris hip score [THA]{Procedures} is Prosthetic total arthroplasty of the hip [hip OA]{Disorders} is Hip Osteoarthritis [sagittal]{Anatomy} is Sagittal [spinal]{Concepts & Ideas} is Spinal [pelvic-leg]{Anatomy} is Body Parts [comorbid]{Disorders} is Comorbid conditions [LBP]{Disorders} is Low back pain [spinal]{Concepts & Ideas} is Spinal [balance]{Physiology} is Balance [LBP]{Disorders} is Low back pain [relief]{Disorders} is Relief
Impact of totally [laparoscopic] combined management of [colorectal cancer] with synchronous [hepatic metastases] on severity of complications: a propensity-score -based analysis Thanks to widespread diffusion of [minimally invasive approach] in the setting of both [colorectal] and [hepatic surgeries], the interest in combined resections for [colorectal cancer] and synchronous [liver metastases] ([SCLM]) by [totally laparoscopic approach] ([TLA]) has increased. Aim of this study was to compare outcome of combined resections for [SCLM] performed by [TLA] or by open approach, in a propensity-score-based study. All 25 patients undergoing combined [TLA] for [SCLM] at [San Raffaele Hospital] in Milano were compared in a [case-matched analysis] with 25 out of 91 patients undergoing [totally open approach] ([TOA group]). [Groups] were matched with 1:2 ratio using propensity scores based on covariates representing disease severity. Main endpoints were postoperative morbidity and long-term outcome. The [Modified Accordion Severity Grading System] was used to quantify complications. The groups resulted comparable in terms of patients and disease characteristics. The [TLA group], as compared to the [TOA group], had lower [blood loss] (350 vs 600 mL), shorter postoperative stay (9 vs 12 days), lower [postoperative morbidity index] (0.14 vs 0.20) and severity score for complicated patients (0.60 vs 0.85). [Colonic anastomosis] [leakage] had the highest fractional complication burden in both [groups]. In spite of comparable long-term overall survival, the [[TLA] group] had better [recurrence-free survival]. [TLA] for combined resections is feasible, and its indications can be widened to encompass a larger population of patients, provided its benefits in terms of reduced overall risk and severity of complications, rapid [functional recovery] and favorable long-term outcomes.	[laparoscopic]{Procedures} is Laparoscopic [minimally invasive approach]{Procedures} is Minimally Invasive Surgery [colorectal cancer]{Disorders} is COLORECTAL CANCER [colorectal]{Procedures} is Colorectal surgery [hepatic metastases]{Disorders} is Hepatic metastases [hepatic surgeries]{Procedures} is Hepatic operation [colorectal cancer]{Disorders} is COLORECTAL CANCER [liver metastases]{Disorders} is Hepatic metastases [SCLM]{Disorders} is Hepatic metastases [totally laparoscopic approach]{Procedures} is Laparoscopic [TLA]{Procedures} is Laparoscopic [SCLM]{Disorders} is Hepatic metastases [TLA]{Procedures} is Laparoscopic [TLA]{Procedures} is Laparoscopic [SCLM]{Disorders} is Hepatic metastases [San Raffaele Hospital]{Organizations} is Hospital [case-matched analysis]{Procedures} is Matched Case-Control Study [totally open approach]{Procedures} is Open Surgery [TOA group]{Living Beings} is Population Group [Groups]{Living Beings} is Population Group [Modified Accordion Severity Grading System]{Procedures} is Grading system used [TLA group]{Living Beings} is Population Group [TOA group]{Living Beings} is Population Group [blood loss]{Disorders} is BLOOD LOSS SURG [postoperative morbidity index]{Concepts & Ideas} is Morbidity index [Colonic anastomosis]{Procedures} is Colonic anastomosis [leakage]{Disorders} is Extravasation (morphologic abnormality) [groups]{Living Beings} is Population Group [TLA]{Procedures} is Laparoscopic [TLA group]{Living Beings} is Population Group [recurrence-free survival]{Disorders} is Recurrence free survival [TLA]{Procedures} is Laparoscopic [functional recovery]{Disorders} is Function Recovery
Application of an Analytical Solution as a [Screening] [Tool] for Sea Water Intrusion Sea water intrusion into aquifers is [problematic] in many [coastal areas]. The physics and chemistry of this issue are complex, and sea water intrusion remains challenging to quantify. Simple [assessment tools] like [analytical models] offer advantages of rapid application, but their applicability to field situations is unclear. This [study] examines the reliability of a popular sharp-interface analytical approach for estimating the extent of sea water in a homogeneous [coastal] aquifer subjected to pumping and regional flow effects and under steady-state conditions. The [analytical model] is tested against observations from [Canada], the [United States], and [Australia] to assess its utility as an initial [approximation] of sea water extent for the purposes of rapid [groundwater] management [decision making]. The occurrence of sea water intrusion resulting in increased [salinity] at pumping wells was correctly predicted in approximately 60% of cases. Application of a correction to account for [dispersion] did not markedly [improve] the results. Failure of the [analytical model] to provide correct predictions can be attributed to mismatches between its simplifying assumptions and more complex field settings. The best results occurred where the toe of the [salt water] [wedge] is expected to be the closest to the [coast] under predevelopment conditions. Predictions were the poorest for aquifers where the [salt water] [wedge] was expected to extend further [inland] under predevelopment conditions and was therefore more dispersive prior to pumping. Sharp-interface solutions remain useful [tools] to [screen] for the vulnerability of [coastal] aquifers to sea water intrusion, although the significant sources of uncertainty identified in this [study] require careful consideration to avoid misinterpreting sharp-interface results.	[problematic]{Disorders} is Problem [Screening]{Procedures} is Screenings [Tool]{Concepts & Ideas} is Methods [coastal areas]{Concepts & Ideas} is Coastal environment [assessment tools]{Concepts & Ideas} is Intellectual Product [analytical models]{Concepts & Ideas} is Theoretical Models [study]{Procedures} is Study [coastal]{Concepts & Ideas} is Coastal environment [analytical model]{Concepts & Ideas} is Theoretical Models [Canada]{Geographic Areas} is Canada [United States]{Geographic Areas} is United States [Australia]{Geographic Areas} is Australia [approximation]{Procedures} is Approximation - action [groundwater]{Concepts & Ideas} is Groundwater [decision making]{Physiology} is Decision making [salinity]{Phenomena} is Salinity [dispersion]{Concepts & Ideas} is Dispersion [improve]{Disorders} is Improved [analytical model]{Concepts & Ideas} is Theoretical Models [salt water]{Chemicals & Drugs} is Salt water [wedge]{Concepts & Ideas} is Wedge [coast]{Geographic Areas} is Geographic Region [salt water]{Chemicals & Drugs} is Salt water [wedge]{Concepts & Ideas} is Wedge [inland]{Geographic Areas} is Inland water [tools]{Concepts & Ideas} is Methods [screen]{Procedures} is Screenings [coastal]{Concepts & Ideas} is Coastal environment [study]{Procedures} is Study
The Role of [TRAF4] and [B3GAT1] [Gene Expression] in the [Food Hypersensitivity] and [Insect Venom Allergy] in [Mastocytosis] [Mastocytosis] is an uncommon [disease] classified as a [myeloproliferative neoplasm], however, its [symptoms] are broad and place patients at crossroads between [dermatology], [hematology] and allergology. Patients with [mastocytosis] often suffer from [symptoms] resulting from the activation and release of mediators from the [mast cells], such as generalized [itching], [redness], [headache], [abdominal cramps], [diarrhea], [bone pain] or [arthritis], [hypotension] and [shock]. The possible severe, fatal or near fatal reactions caused by [food hypersensitivity] are reasons for the research focused on [marker] identification. The aim of the [study] was to analyse the [gene expression] differences in [mastocytosis] patients with and without [food] and [drug hypersensitivity] and [insect venom allergy] ([IVA]). A total of 57 [Caucasian] patients with [mastocytosis] were studied (median age 41.8; range 18-77 years; 15 (26.3 %) males and 42 (73.7 %) females). [Quantitative RT-PCRs] of 11 [genes] plus [ribosomal 18S RNA] were run. [Symptoms] of [food hypersensitivity] were found in 12 patients (21 %), including 3 patients (13 %) with [cutaneous mastocytosis] ([CM]), and 9 (28 %) with [indolent systemic mastocytosis] ([ISM]). [IVA] was confirmed in 13 patients (22.8 %) including 6 patients (10.5 %) with [CM], and 7 patients (12.3 %) with [ISM]. [Drug hypersensitivity] was [diagnosed] in 10 patients (17.5 %). Significant differences in the [gene expression] were found for [TRAF4] (p = 0.008) in the comparison of the [mastocytosis] patients with and without concomitant [food hypersensitivity]. Furthermore significant differences were found in [gene expression] for [B3GAT1] (p = 0.003) in patients with [IVA] compared to patients without [insect sting] [anaphylaxis] in the medical history. The [expression] of studied [genes] did not differ according to the presence of [drug hypersensitivity]. The [TRAF4] [expression] was higher in [mastocytosis] patients with [food hypersensitivity] in their [medical history], the [B3GAT1] [expression] was lower in [mastocytosis] patients with [IVA] in history.	[Mastocytosis]{Disorders} is Mastocytosis [TRAF4]{Genes & Molecular Sequences} is TRAF4 [B3GAT1]{Genes & Molecular Sequences} is B3GAT1 [disease]{Disorders} is Disease [Gene Expression]{Physiology} is Gene Expression [Food Hypersensitivity]{Disorders} is Food Hypersensitivity [myeloproliferative neoplasm]{Disorders} is Myeloproliferative neoplasms [Insect Venom Allergy]{Disorders} is Allergy disorder [symptoms]{Disorders} is Symptoms [Mastocytosis]{Disorders} is Mastocytosis [dermatology]{Occupations} is Dermatology [hematology]{Occupations} is Hematology [mastocytosis]{Disorders} is Mastocytosis [symptoms]{Disorders} is Symptoms [mast cells]{Anatomy} is Mast Cells [itching]{Disorders} is Itching [redness]{Disorders} is Skin red [headache]{Disorders} is Headache [abdominal cramps]{Disorders} is Abdominal Cramps [diarrhea]{Disorders} is D - Diarrhea [bone pain]{Disorders} is Bone Pain [arthritis]{Disorders} is Arthritis [hypotension]{Disorders} is Arterial hypotension [shock]{Disorders} is Shock [food hypersensitivity]{Disorders} is Food Hypersensitivity [marker]{Physiology} is Marker [study]{Procedures} is Study [gene expression]{Physiology} is Gene Expression [mastocytosis]{Disorders} is Mastocytosis [food]{Disorders} is Food Hypersensitivity [drug hypersensitivity]{Disorders} is Drug hypersensitivity [insect venom allergy]{Disorders} is Allergy disorder [IVA]{Disorders} is Allergy disorder [Caucasian]{Living Beings} is Caucasian (ethnic group) [mastocytosis]{Disorders} is Mastocytosis [Quantitative RT-PCRs]{Procedures} is Quantitative Real-Time PCRs [genes]{Genes & Molecular Sequences} is Genes [ribosomal 18S RNA]{Chemicals & Drugs} is RIBOSOMAL RNA 18S [Symptoms]{Disorders} is Symptoms [food hypersensitivity]{Disorders} is Food Hypersensitivity [cutaneous mastocytosis]{Disorders} is Cutaneous mastocytosis [CM]{Disorders} is Cutaneous mastocytosis [indolent systemic mastocytosis]{Disorders} is Indolent Systemic Mastocytosis [ISM]{Disorders} is Indolent Systemic Mastocytosis [IVA]{Disorders} is Allergy disorder [CM]{Disorders} is Cutaneous mastocytosis [ISM]{Disorders} is Indolent Systemic Mastocytosis [Drug hypersensitivity]{Disorders} is Drug hypersensitivity [diagnosed]{Disorders} is Diagnosed [gene expression]{Physiology} is Gene Expression [TRAF4]{Genes & Molecular Sequences} is TRAF4 [mastocytosis]{Disorders} is Mastocytosis [food hypersensitivity]{Disorders} is Food Hypersensitivity [gene expression]{Physiology} is Gene Expression [B3GAT1]{Genes & Molecular Sequences} is B3GAT1 [IVA]{Disorders} is Allergy disorder [insect sting]{Disorders} is Insect sting [anaphylaxis]{Disorders} is Obsolete anaphylaxis [expression]{Physiology} is Gene Expression [genes]{Genes & Molecular Sequences} is Genes [drug hypersensitivity]{Disorders} is Drug hypersensitivity [TRAF4]{Genes & Molecular Sequences} is TRAF4 [expression]{Physiology} is Gene Expression [mastocytosis]{Disorders} is Mastocytosis [food hypersensitivity]{Disorders} is Food Hypersensitivity [medical history]{Disorders} is Medical History [B3GAT1]{Genes & Molecular Sequences} is B3GAT1 [expression]{Physiology} is Gene Expression [mastocytosis]{Disorders} is Mastocytosis [IVA]{Disorders} is Allergy disorder
[Generalized Weakness] in a [Transplant] Patient: A [Case Presentation] [Generalized weakness] in [transplant] patients is a major complaint in tertiary [rehabilitation hospitals]. The [diagnosis] and [management] of [generalized weakness] in this [population] pose challenges for [physicians]. We present the case of a [transplant] patient with [generalized weakness] who was eventually [diagnosed] with [calciphylaxis] using a [multidisciplinary diagnostic approach] of [electrodiagnostics], [vascular] [study], and [skin biopsy]. [Calciphylaxis] is a rare [cutaneous disorder] that mimics other [collagen vascular diseases] in its presentation and fulminant course. [Physiatrists] should be cognizant of [calciphylaxis], as it signals a [poor prognosis] if not correctly diagnosed and treated in a timely manner, with high incidence of [sepsis], [wound pain], and [disability]. V.	[Generalized weakness]{Disorders} is Weakness generalized [transplant]{Disorders} is Transplant [Transplant]{Disorders} is Transplant [Case Presentation]{Concepts & Ideas} is CASE ONLY [rehabilitation hospitals]{Organizations} is Rehabilitation hospital [diagnosis]{Disorders} is Diagnosis [management]{Procedures} is Symptom Management [generalized weakness]{Disorders} is Weakness generalized [population]{Living Beings} is Population [physicians]{Living Beings} is Physicians [transplant]{Disorders} is Transplant [generalized weakness]{Disorders} is Weakness generalized [diagnosed]{Disorders} is Diagnosis [calciphylaxis]{Disorders} is Calciphylaxis [multidisciplinary diagnostic approach]{Procedures} is Multidisciplinary assessment [electrodiagnostics]{Procedures} is Electrodiagnoses [vascular]{Anatomy} is Vascular structure [study]{Procedures} is Test, Diagnostic [skin biopsy]{Procedures} is Biopsy skin [Calciphylaxis]{Disorders} is Calciphylaxis [cutaneous disorder]{Disorders} is Cutaneous Disorder [collagen vascular diseases]{Disorders} is Collagen-vascular disease [Physiatrists]{Living Beings} is Physiatrists [calciphylaxis]{Disorders} is Calciphylaxis [poor prognosis]{Disorders} is Poor prognosis [sepsis]{Disorders} is Sepsis (disorder) [wound pain]{Disorders} is Wound pain [disability]{Disorders} is Disability
Use of ecoacoustics to determine biodiversity [patterns] across [ecological] gradients The variety of [local] [animal] sounds characterizes a [landscape]. We used ecoacoustics to noninvasively assess the [species] richness of various [biotopes] typical of an ecofriendly forest plantation with diverse [ecological] gradients and both nonnative and indigenous [vegetation]. The reference [area] was an [adjacent] large [World Heritage Site protected area] ([PA]). All [sites] were in a [global biodiversity hotspot]. Our results showed how taxa segregated into various [biotopes]. We identified 65 singing [species], including [birds], [frogs], [crickets], and [katydids]. Large, natural, protected [grassland sites] in the [PA] had the highest mean acoustic diversity (14.1 [species] / [site]). [Areas] covered in [nonnative timber] or [grass] [species] were devoid of [acoustic species]. [Sites] grazed by native and domestic [megaherbivores] were fairly rich (5.1) in [acoustic species] but none were unique to this [habitat type], where acoustic diversity was greater than in intensively managed [grassland] [sites] (0.04). Natural vegetation patches inside the plantation mosaic supported high mean acoustic diversity (indigenous forests 7.6, [grasslands] 8.0, wetlands 9.1), which increased as [plant] heterogeneity and [patch size] increased. Indigenous forest patches within the plantation mosaic contained a highly characteristic [acoustic species] assemblage, emphasizing their complementary contribution to [local] biodiversity. Overall, acoustic signals determined spatial biodiversity [patterns] and can be a useful tool for guiding conservation.	[local]{Concepts & Ideas} is Local (qualifier value) [animal]{Living Beings} is Animal [patterns]{Concepts & Ideas} is Patterns [landscape]{Concepts & Ideas} is Landscapes [ecological]{Concepts & Ideas} is Ecological environment [species]{Concepts & Ideas} is Species [biotopes]{Geographic Areas} is Geographic Region [ecological]{Concepts & Ideas} is Ecological environment [vegetation]{Living Beings} is Chlorobionta Bremer, 1985 [area]{Geographic Areas} is Geographic Region [adjacent]{Concepts & Ideas} is Adjacent [World Heritage Site protected area]{Geographic Areas} is Geographic Region [PA]{Geographic Areas} is Geographic Region [sites]{Concepts & Ideas} is Sites [global biodiversity hotspot]{Geographic Areas} is Geographic Region [biotopes]{Geographic Areas} is Geographic Region [species]{Concepts & Ideas} is Species [birds]{Living Beings} is Birds [frogs]{Living Beings} is Frogs [crickets]{Living Beings} is Crickets [katydids]{Living Beings} is Eukaryotida [grassland sites]{Concepts & Ideas} is Grassland [PA]{Geographic Areas} is Geographic Region [species]{Concepts & Ideas} is Species [site]{Concepts & Ideas} is Sites [Areas]{Concepts & Ideas} is Area [nonnative timber]{Living Beings} is Chlorobionta Bremer, 1985 [grass]{Living Beings} is Grass [species]{Concepts & Ideas} is Species [acoustic species]{Concepts & Ideas} is Species [Sites]{Concepts & Ideas} is Sites [megaherbivores]{Living Beings} is Herbivores [acoustic species]{Concepts & Ideas} is Species [habitat type]{Concepts & Ideas} is Habitats [grassland]{Concepts & Ideas} is Grassland [sites]{Concepts & Ideas} is Sites [grasslands]{Concepts & Ideas} is Grassland [plant]{Living Beings} is Chlorobionta Bremer, 1985 [patch size]{Concepts & Ideas} is Size of patch [acoustic species]{Concepts & Ideas} is Species [local]{Concepts & Ideas} is Local (qualifier value) [patterns]{Concepts & Ideas} is Patterns
Relationship between [XspI] [Site Polymorphisms] of [LDL-R Gene] and [Serum IL-2] and [IL-10] in Patients with [Hypercholesterolemia] Relationship has been identified in [sporadic reports] between polymorphisms and [hypercholesterolemia]. However, the relationship between inflammatory [cytokines] and polymorphism of [low-density lipoprotein receptor (LDL-R) gene] in [hypercholesterolemia] is unclear. This [study] aimed to explore the relationship and significance between polymorphisms of [LDL-R gene] and [serum Interleukin-2] ([IL-2]), [IL-10] in patients with [hypercholesterolemia]. [PCR-RFLP] and [direct DNA sequencing assay] were [employed] to determine polymorphism of [LDL-R gene] in 900 patients with [hypercholesterolemia] and 400 healthy cases. [ELISA] was applied to assay serum concentration of [IL-2] and [IL-10]. Blood lipid [indexes] were tested in all cases. Compared with the healthy controls, level of [IL-2] increased significantly, while [IL-10] decreased significantly (P < 0.05). [Correlation analysis] showed that [IL-2] was positively correlated with [total cholesterol] ([TC]), [LDL-c], and genotype (r = 0.542, 0.410, 0.598, P < 0.05) and [negatively] correlated with [HDL-c] (r = -0.352, P < 0.05). [Negative] relationship also was found between [TC], [LDL-c], genotype, and [IL-10] (r = -0.452, -0.390, -0.613, P < 0.05), and [positive] correlation between [HDL-c] and [IL-10] (r = 0.398, P < 0.05). Multiple linear regression showed that genotypes and [TC] were independent factors affecting the [levels of [IL-2]] and [IL-10] (P < 0.05). [IL-2] and [IL-10] were related to gene polymorphisms of [LDL-R], which might be involved in the development and progress of [hypercholesterolemia].	[XspI]{Chemicals & Drugs} is Endodeoxyribonuclease XspI [Site Polymorphisms]{Disorders} is Restriction Site Polymorphism [sporadic reports]{Disorders} is Investigation Finding [LDL-R Gene]{Genes & Molecular Sequences} is LDLR gene [Serum IL-2]{Chemicals & Drugs} is IL 002 [IL-10]{Chemicals & Drugs} is IL 010 [hypercholesterolemia]{Disorders} is Hypercholesterolemias [Hypercholesterolemia]{Disorders} is Hypercholesterolemias [cytokines]{Chemicals & Drugs} is Cytokine [low-density lipoprotein receptor (LDL-R) gene]{Genes & Molecular Sequences} is LDLR gene [hypercholesterolemia]{Disorders} is Hypercholesterolemias [study]{Procedures} is Study [LDL-R gene]{Genes & Molecular Sequences} is LDLR gene [serum Interleukin-2]{Chemicals & Drugs} is IL 002 [IL-2]{Chemicals & Drugs} is IL 002 [IL-10]{Chemicals & Drugs} is IL 010 [hypercholesterolemia]{Disorders} is Hypercholesterolemias [PCR-RFLP]{Procedures} is RFLP analysis [direct DNA sequencing assay]{Procedures} is DNA Sequencing [employed]{Disorders} is Employed [LDL-R gene]{Genes & Molecular Sequences} is LDLR gene [hypercholesterolemia]{Disorders} is Hypercholesterolemias [ELISA]{Procedures} is ELISA [IL-2]{Chemicals & Drugs} is IL 002 [IL-10]{Chemicals & Drugs} is IL 010 [indexes]{Concepts & Ideas} is Indexes [IL-2]{Chemicals & Drugs} is IL 002 [IL-10]{Chemicals & Drugs} is IL 010 [Correlation analysis]{Procedures} is Correlation Study [IL-2]{Chemicals & Drugs} is IL 002 [total cholesterol]{Chemicals & Drugs} is Total cholesterol [TC]{Chemicals & Drugs} is Total cholesterol [LDL-c]{Chemicals & Drugs} is LDL Cholesterol [negatively]{Disorders} is Investigation Finding [HDL-c]{Chemicals & Drugs} is HDL cholesterol [Negative]{Disorders} is Negative for [TC]{Chemicals & Drugs} is Total cholesterol [LDL-c]{Chemicals & Drugs} is LDL Cholesterol [IL-10]{Chemicals & Drugs} is IL 010 [positive]{Disorders} is Positive for [HDL-c]{Chemicals & Drugs} is HDL cholesterol [IL-10]{Chemicals & Drugs} is IL 010 [TC]{Chemicals & Drugs} is Total cholesterol [levels of IL-2]{Procedures} is Laboratory procedure (procedure) [IL-2]{Chemicals & Drugs} is IL 002 [IL-10]{Procedures} is Laboratory procedure (procedure) [IL-2]{Chemicals & Drugs} is IL 002 [IL-10]{Chemicals & Drugs} is IL 010 [LDL-R]{Genes & Molecular Sequences} is LDLR gene [hypercholesterolemia]{Disorders} is Hypercholesterolemias
Low [serum] [vitamin D] is associated with higher [cortical] porosity in [elderly] [men] [Bone loss] at [peripheral] [sites] in the [elderly] is mainly [cortical] and involves increased [cortical] porosity. However, an association between [bone loss] at these [sites] and [25-hydroxyvitamin D] has not been reported. To investigate the association between [serum] [levels of 25-hydroxyvitamin D], [bone microstructure] and [areal bone mineral density] ([BMD]) in [elderly] [men]. A [population] -based [cohort] of 444 [elderly] [men] (mean ± SD age 80.2 ± 3.5 years) was investigated. [Bone microstructure] was measured by [high-resolution peripheral quantitative computed tomography], [areal BMD] by [dual-energy X-ray absorptiometry] and [serum] [25-hydroxyvitamin D] and [parathyroid hormone levels] by [immunoassay]. Mean [cortical] porosity at the [distal tibia] was 14.7% higher (12.5 ± 4.3% vs. 10.9 ± 4.1%, P < 0.05) whilst [cortical] [volumetric BMD], [area], [trabecular bone] volume fraction and [femoral neck] [areal BMD] were lower in [men] in the lowest quartile of [vitamin D levels] compared to the highest. In [men] with [vitamin D deficiency] (<25 nmol L(-1)) or insufficiency (25-49 nmol L(-1), in combination with an elevated [serum] [level of parathyroid hormone] (>6.8 pmol L(-1))), [cortical] porosity was 17.2% higher than in [vitamin D] - sufficient [men] (P < 0.01). A linear regression [model] including age, weight, height, daily calcium intake, physical activity, smoking [vitamin D] [supplementation] and [parathyroid hormone] showed that [25-hydroxyvitamin D] independently predicted [cortical] porosity (standardized β = -0.110, R(2) = 1.1%, P = 0.024), [area] (β = 0.123, R(2) = 1.4%, P = 0.007) and [cortical] [volumetric BMD] (β = 0.125, R(2) = 1.4%, P = 0.007) of the [tibia] as well as [areal BMD] of the [femoral neck] (β = 0.102, R(2) = 0.9%, P = 0.04). [Serum] [vitamin D] is associated with [cortical] porosity, [area] and [density], indicating that [bone] [fragility] as a result of low [vitamin D] could be due to changes in [cortical] [bone microstructure] and [geometry].	[Bone loss]{Disorders} is Bone loss [serum]{Anatomy} is Serum [vitamin D]{Chemicals & Drugs} is Vitamin D product [peripheral]{Concepts & Ideas} is Peripheral [sites]{Anatomy} is Site [elderly]{Living Beings} is ELDERLY [cortical]{Anatomy} is Cortex of bone [cortical]{Anatomy} is Cortex of bone [elderly]{Living Beings} is ELDERLY [men]{Living Beings} is Men [cortical]{Anatomy} is Cortex of bone [bone loss]{Disorders} is Bone loss [sites]{Anatomy} is Site [25-hydroxyvitamin D]{Chemicals & Drugs} is 25-hydroxyvitamin D [serum]{Anatomy} is Serum [levels of 25-hydroxyvitamin D]{Procedures} is 25-Hydroxyvitamin D [bone microstructure]{Anatomy} is Bone structure [areal bone mineral density]{Physiology} is Bone Mineral Density [BMD]{Physiology} is Bone Mineral Density [elderly]{Living Beings} is ELDERLY [men]{Living Beings} is Men [population]{Living Beings} is Population [cohort]{Living Beings} is Cohort [elderly]{Living Beings} is ELDERLY [men]{Living Beings} is Men [Bone microstructure]{Anatomy} is Bone structure [high-resolution peripheral quantitative computed tomography]{Procedures} is Computed tomography [areal BMD]{Physiology} is Bone Mineral Density [dual-energy X-ray absorptiometry]{Procedures} is Dual-Energy X-Ray Absorptiometry [serum]{Anatomy} is Serum [25-hydroxyvitamin D]{Procedures} is 25-Hydroxyvitamin D [parathyroid hormone levels]{Procedures} is Parathyroid hormone [immunoassay]{Procedures} is Immunoassay [cortical]{Anatomy} is Cortex of bone [distal tibia]{Anatomy} is Distal tibia [cortical]{Anatomy} is Cortex of bone [volumetric BMD]{Physiology} is Bone Mineral Density [area]{Concepts & Ideas} is Area [trabecular bone]{Anatomy} is Trabecular Bone [femoral neck]{Anatomy} is Femoral Neck [areal BMD]{Physiology} is Bone Mineral Density [men]{Living Beings} is Men [vitamin D levels]{Procedures} is Vitamin D [men]{Living Beings} is Men [vitamin D deficiency]{Disorders} is Vitamin D Deficiency [serum]{Anatomy} is Serum [level of parathyroid hormone]{Procedures} is Parathyroid hormone [cortical]{Anatomy} is Cortex of bone [vitamin D]{Chemicals & Drugs} is Vitamin D product [men]{Living Beings} is Men [model]{Concepts & Ideas} is Model [vitamin D]{Chemicals & Drugs} is Vitamin D product [supplementation]{Chemicals & Drugs} is Vitamin supplementation [parathyroid hormone]{Chemicals & Drugs} is Hormone, Parathyroid [25-hydroxyvitamin D]{Chemicals & Drugs} is 25-hydroxyvitamin D [cortical]{Anatomy} is Cortex of bone [area]{Concepts & Ideas} is Area [cortical]{Anatomy} is Cortex of bone [volumetric BMD]{Physiology} is Bone Mineral Density [tibia]{Anatomy} is TIBIA [areal BMD]{Physiology} is Bone Mineral Density [femoral neck]{Anatomy} is Femoral Neck [Serum]{Anatomy} is Serum [vitamin D]{Chemicals & Drugs} is Vitamin D product [cortical]{Anatomy} is Cortex of bone [area]{Concepts & Ideas} is Area [density]{Physiology} is Bone Mineral Density [bone]{Anatomy} is Bone structure [fragility]{Disorders} is Fragility [vitamin D]{Chemicals & Drugs} is Vitamin D product [cortical]{Anatomy} is Cortex of bone [bone microstructure]{Anatomy} is Bone structure [geometry]{Concepts & Ideas} is Structural
Rapid Fabrication of a [Cell] - [Seeded] [Collagen] [Gel] -Based [Tubular Construct] that Withstands [Arterial Pressure]: Rapid Fabrication of a [Gel] -Based Media Equivalent Based on plastically compressed [cell] - [seeded] [collagen] [gels], we fabricated a small-diameter [tubular construct] that withstands [arterial pressure] without prolonged [culture] in vitro. Specifically, to mimic the [microstructure] of [vascular media], the [cell] - [seeded] [collagen] [gel] was uniaxially stretched prior to plastic compression to align [collagen fibers] and hence [cells] in the [gel]. The resulting [gel] [sheet] was then wrapped around a custom-made multi-layered braided tube to form aligned [tubular constructs] whereas the [gel] [sheet] prepared similarly but without uniaxial stretching formed control [constructs]. With the braided tube, fluid in the [gel] [construct] was further removed by [vacuum suction] aiming to consolidate the concentric layers of the [construct]. The [construct] was finally treated with [transglutaminase]. Both [SEM] and [histology] confirmed the absence of gaps in the wall of the [construct]. Particularly, [cells] in the wall of the aligned [tubular construct] were circumferentially aligned. The [enzyme] -mediated crosslinking increased burst pressure of both the [constructs] significantly; the extent of the increase of burst pressure for the aligned [tubular construct] was greater than that for the control counterpart. Increasing crosslinking left the compliance of the aligned [tubular construct] unchanged but reduced that of the control [construct]. [Cells] remained viable in [transglutaminase] -treated plastically compressed [gels] after 6 days in culture. This [study] demonstrated that by combining stretch-induced [fiber] alignment, plastic compression, and [enzyme] -mediated crosslinking, a [cell] - [seeded] [collagen] [gel] -based [tubular construct] with potential to be used as [vascular media] can be made within 3 days.	[Cell]{Anatomy} is Cell Type [Seeded]{Procedures} is Scaffold Seeding [cell]{Anatomy} is Cell Type [Collagen]{Chemicals & Drugs} is Collagen [seeded]{Procedures} is Scaffold Seeding [Gel]{Chemicals & Drugs} is Drug gel [collagen]{Chemicals & Drugs} is Collagen [gels]{Chemicals & Drugs} is Drug gel [Tubular Construct]{Devices} is Tube, device [Arterial Pressure]{Physiology} is Arterial pulse pressure [tubular construct]{Devices} is Tube, device [arterial pressure]{Physiology} is Arterial pulse pressure [Gel]{Chemicals & Drugs} is Drug gel [culture]{Procedures} is Culture - general [microstructure]{Concepts & Ideas} is Structure [vascular media]{Anatomy} is Vascular Media [cell]{Anatomy} is Cell Type [seeded]{Procedures} is Scaffold Seeding [collagen]{Chemicals & Drugs} is Collagen [gel]{Chemicals & Drugs} is Drug gel [collagen fibers]{Anatomy} is Collagen fiber [cells]{Anatomy} is Cell Type [gel]{Chemicals & Drugs} is Drug gel [gel]{Chemicals & Drugs} is Drug gel [sheet]{Chemicals & Drugs} is Materials, Biocompatible [tubular constructs]{Devices} is Tube, device [gel]{Chemicals & Drugs} is Drug gel [sheet]{Chemicals & Drugs} is Materials, Biocompatible [constructs]{Devices} is Tube, device [gel]{Chemicals & Drugs} is Drug gel [construct]{Devices} is Tube, device [vacuum suction]{Devices} is Suction regulator [construct]{Devices} is Tube, device [construct]{Devices} is Tube, device [transglutaminase]{Chemicals & Drugs} is Transglutaminase [SEM]{Procedures} is Electron Scanning Microscopies [histology]{Procedures} is Histology [construct]{Devices} is Tube, device [cells]{Anatomy} is Cell Type [tubular construct]{Devices} is Tube, device [enzyme]{Chemicals & Drugs} is Enzyme [constructs]{Devices} is Tube, device [tubular construct]{Devices} is Tube, device [tubular construct]{Devices} is Tube, device [construct]{Devices} is Tube, device [Cells]{Anatomy} is Cell Type [transglutaminase]{Chemicals & Drugs} is Transglutaminase [gels]{Chemicals & Drugs} is Drug gel [study]{Procedures} is Study [fiber]{Anatomy} is Collagen fiber [enzyme]{Chemicals & Drugs} is Enzyme [cell]{Anatomy} is Cell Type [seeded]{Procedures} is Scaffold Seeding [collagen]{Chemicals & Drugs} is Collagen [gel]{Chemicals & Drugs} is Drug gel [tubular construct]{Devices} is Tube, device [vascular media]{Anatomy} is Vascular Media
[Expression] and [Purification] of [E2 Glycoprotein] from [Insect] [Cells] ([Sf9]) for Use in [Serology] [Chikungunya virus] ([CHIKV]) is a [mosquito] - [borne] [arbovirus] which poses a major threat to global [public health]. Definitive [CHIKV] [diagnosis] is crucial, especially in distinguishing the [disease] from [dengue virus], which co-circulates in endemic [areas] and shares the same [mosquito vectors]. [Laboratory diagnosis] is mainly based on serological or molecular approaches. The [E2 glycoprotein] is a good candidate for [serological diagnosis] since it is the [immunodominant antigen] during the course of [infection], and reacts with seropositive [CHIKV] [sera]. In this chapter, we describe the generation of stable [clone] [Sf9] ([Spodoptera frugiperda]) [cells] [expressing] [secreted], [soluble], and native recombinant [CHIKV] [E2 glycoprotein]. We use direct [plasmid] [expression] in [insect] [cells], rather than the traditional technique of generating recombinant baculovirus. This [recombinant protein] is useful for [serological diagnosis] of [CHIKV] [infection].	[Expression]{Physiology} is Protein expression [Chikungunya virus]{Living Beings} is Chikungunya Virus [Purification]{Procedures} is Protein Purification [CHIKV]{Living Beings} is Chikungunya Virus [mosquito]{Living Beings} is Mosquito [E2 Glycoprotein]{Chemicals & Drugs} is Glycoprotein [borne]{Disorders} is Does carry [arbovirus]{Living Beings} is Arboviruses [Insect]{Living Beings} is Insect [Cells]{Anatomy} is Cells set [Sf9]{Anatomy} is Sf9 Cell [Serology]{Procedures} is Serology [public health]{Procedures} is Public health service [CHIKV]{Living Beings} is Chikungunya Virus [diagnosis]{Disorders} is Diagnosis [disease]{Disorders} is Disease [dengue virus]{Living Beings} is Dengue virus [areas]{Concepts & Ideas} is Area [mosquito vectors]{Living Beings} is Mosquito Vectors [Laboratory diagnosis]{Procedures} is Laboratory Diagnosis [E2 glycoprotein]{Chemicals & Drugs} is Glycoprotein [serological diagnosis]{Procedures} is Serology [immunodominant antigen]{Chemicals & Drugs} is Immunodominant Antigens [infection]{Disorders} is Infections [CHIKV]{Living Beings} is Chikungunya Virus [sera]{Anatomy} is Sera [clone]{Anatomy} is Cell Clone [Sf9]{Anatomy} is Sf9 Cell [Spodoptera frugiperda]{Living Beings} is Spodoptera frugiperdas [cells]{Anatomy} is Cell Clone [expressing]{Physiology} is Protein expression [secreted]{Physiology} is Secreted [soluble]{Anatomy} is Soluble [CHIKV]{Living Beings} is Chikungunya Virus [E2 glycoprotein]{Chemicals & Drugs} is Glycoprotein [plasmid]{Chemicals & Drugs} is Plasmid [expression]{Procedures} is Expression [insect]{Living Beings} is Insect [cells]{Anatomy} is Cells set [recombinant protein]{Chemicals & Drugs} is Recombinant protein [serological diagnosis]{Procedures} is Serology [CHIKV]{Living Beings} is Chikungunya Virus [infection]{Disorders} is Infections
Acute [risk factors] for [suicide attempts] and [death]: [prospective findings] from the STEP - [BD] [study] [Suicide] is unfortunately common in [psychiatric] [practice], but difficult to predict. The present [study] sought to assess which clinical [symptoms] increase in the months before [suicidal behavior] in a sample of [psychiatric] outpatients with [bipolar disorder]. Data from the Systematic Treatment Enhancement Program for [Bipolar Disorder] (STEP - [BD]) [trial] were used. A total of 103 [participants] who [attempted suicide] or died by [suicide] during the [trial] were included; a 15% random sample of the remaining [participants] (n = 427) was used as a comparison sample. Linear mixed models in the six months before [suicidal behavior] were conducted for each of five proposed acute [risk factors] for [suicidal behavior]. [Participants] were assessed using the [Clinical Monitoring Form] ([CMF]) at each [visit] for the following potential acute [risk factors] for [suicidal behavior]: [suicidal ideation], [loss of interest], [anxiety], [psychomotor agitation], and high-risk behavior. Each of the five [symptoms] was elevated overall in [individuals] who engaged in [suicidal behavior] (p < 0.05). The severity of both [suicidal ideation] and [loss of interest] significantly increased in the months before [suicidal behavior] (p < 0.001). [Anxiety] demonstrated comparable effect [sizes] across [multiple models]. [Psychomotor agitation] and high-risk behavior were not significantly elevated before [suicidal behavior]. [Suicidal ideation], [loss of interest] and, to a lesser [extent], [anxiety] may represent acute [suicide] [risk factors] up to four months before [suicidal behavior] in outpatients with [bipolar disorder]. Further [investigation] of these potential acute [risk factors] in [prospective analyses] is warranted.	[Suicide]{Disorders} is Suicides [risk factors]{Disorders} is Risk Factors [suicide attempts]{Disorders} is Suicide attempt [psychiatric]{Occupations} is Psychiatric [death]{Disorders} is Death (finding) [practice]{Physiology} is Practice Experience [prospective findings]{Procedures} is Study, Prospective [BD]{Disorders} is Manic depressive reaction [study]{Procedures} is Study [study]{Procedures} is Study [symptoms]{Disorders} is Symptoms [suicidal behavior]{Disorders} is Suicidal behavior [psychiatric]{Occupations} is Psychiatric [bipolar disorder]{Disorders} is Manic depressive reaction [Bipolar Disorder]{Disorders} is Manic depressive reaction [BD]{Disorders} is Manic depressive reaction [trial]{Procedures} is Trial [participants]{Living Beings} is Participant [attempted suicide]{Disorders} is Suicide attempt [suicide]{Disorders} is Suicides [trial]{Procedures} is Trial [participants]{Living Beings} is Participant [suicidal behavior]{Disorders} is Suicidal behavior [risk factors]{Disorders} is Risk Factors [suicidal behavior]{Disorders} is Suicidal behavior [Participants]{Living Beings} is Participant [Clinical Monitoring Form]{Procedures} is Clinical Trials, Monitoring [CMF]{Procedures} is Clinical Trials, Monitoring [visit]{Procedures} is Visit [risk factors]{Disorders} is Risk Factors [suicidal behavior]{Disorders} is Suicidal behavior [suicidal ideation]{Disorders} is Suicidal Ideation [loss of interest]{Disorders} is Loss of interest [anxiety]{Disorders} is ANXIETY [psychomotor agitation]{Disorders} is Psychomotor agitation [symptoms]{Disorders} is Symptoms [individuals]{Living Beings} is Individual (person) [suicidal behavior]{Disorders} is Suicidal behavior [suicidal ideation]{Disorders} is Suicidal Ideation [loss of interest]{Disorders} is Loss of interest [suicidal behavior]{Disorders} is Suicidal behavior [Anxiety]{Disorders} is ANXIETY [sizes]{Concepts & Ideas} is Size [multiple models]{Concepts & Ideas} is Models [Psychomotor agitation]{Disorders} is Psychomotor agitation [suicidal behavior]{Disorders} is Suicidal behavior [Suicidal ideation]{Disorders} is Suicidal Ideation [loss of interest]{Disorders} is Loss of interest [extent]{Concepts & Ideas} is Extent [anxiety]{Disorders} is ANXIETY [suicide]{Disorders} is Suicides [risk factors]{Disorders} is Risk Factors [suicidal behavior]{Disorders} is Suicidal behavior [bipolar disorder]{Disorders} is Manic depressive reaction [investigation]{Procedures} is Evaluation Procedure [risk factors]{Disorders} is Risk Factors [prospective analyses]{Procedures} is Study, Prospective
Measurement of Outcomes of Upper Limb Reconstructive Surgery for [Tetraplegia] Reconstructive arm/hand surgery for [tetraplegia] is performed to [improve] [arm/hand function] and therefore personal well-being for [individuals] who accept such [elective surgeries]. However, changes at an impairment level do not always translate into functional or quality of life changes. Therefore, multiple outcome tools should be used that incorporate sufficient responsiveness to [detect] changes in [arm/hand function], activity and participation, and quality of life of the [individuals] involved. This narrative review aims to [assist] [clinicians] to choose the most appropriate tools to assess the need for reconstructive surgery and to [evaluate] its outcomes. Our specific [objectives] are (1) to describe aspects to consider when choosing a measure and (2) to describe the measures advised by an international therapist consensus group established in 2007. All advised measures are appraised in terms of the underlying [construct], [administration], and clinical relevance to [arm/hand reconstructions]. Essentially there are currently no criterion standard measures to [evaluate] the consequences of reconstructive arm/hand surgery. However, with judicious use of available measures it is possible to ensure the [questions asked] or tasks completed are relevant to the [surgical reconstruction] (s) undertaken. Further work in this field is required. This would be best met by immediate collaboration between 2 outcome's tool developers and by analysis of pre - and postoperative data already held in various international sites, which would allow further [evaluation] of the measures already in use, or components thereof.	[tetraplegia]{Disorders} is Tetraplegia [improve]{Disorders} is Improved [Tetraplegia]{Disorders} is Tetraplegia [arm/hand function]{Physiology} is Hand functions [individuals]{Living Beings} is Individual (person) [elective surgeries]{Procedures} is Elective surgery [detect]{Disorders} is Detected [arm/hand function]{Physiology} is Hand functions [individuals]{Living Beings} is Individual (person) [assist]{Procedures} is Assisting [clinicians]{Living Beings} is Clinician [evaluate]{Procedures} is Evaluate [objectives]{Concepts & Ideas} is Objective [construct]{Concepts & Ideas} is Construct [administration]{Procedures} is Administration [arm/hand reconstructions]{Procedures} is Hand reconstruction [evaluate]{Procedures} is Evaluate [questions asked]{Disorders} is Asks questions [surgical reconstruction]{Procedures} is Surgical reconstruction [evaluation]{Procedures} is Evaluate
Factors preventing [kneeling] in a group of pre-educated patients post [total knee arthroplasty] [Difficulties in kneeling], one of the [poorest scoring functional outcomes] post [total knee arthroplasty] ([TKA]),have been attributed to a lack of patient education. This is the first study to investigate specific factors affecting a patient's [perceived] ability to kneel post [TKA], following exposure to a preoperative [kneeling] education session. A [cross-sectional study] was conducted following [TKA] with patients who had been educated about [kneeling] prior to the [operation]. Patients completed [kneeling] [questionnaires] at 6 (n = 115) and 12 (n = 82) months post [TKA]. In addition to the 12-month [kneeling] [questionnaire], patients also completed the [Oxford knee score] ([OKS]) survey. Seventy-two percent of patients [perceived] they could [kneel] at 12 months post [TKA]. Overall, [pain] and [discomfort] were the most common factors deterring patients from [kneeling]. [Perceived] [kneeling] ability was the poorest scored outcome on the [OKS] with patients reporting mild to moderate [difficulty] with this task. [Kneeling] scores were strongly correlated with overall [knee function scores] (R = 0.70), strongly correlated with [pain scores] (R = 0.45) and weakly correlated with [knee stability scores] (R = 0.29). When asked about other factors preventing [kneeling] other than [pain] or [discomfor] t, 75 % had reasons [unrelated] to the [knee] or [TKA]. The most common reason was 'problems with the other [knee] ' (n = 19). Patients in this study were provided with education regarding their [kneeling] ability post [TKA], yet still experienced limitations in [perceived] [kneeling] ability post operatively. Contrary to previous research, our study suggests that factors other than patient education [affect] a patient's [perceived] [kneeling] ability post [TKA].	[Difficulties in kneeling]{Disorders} is Difficulty kneeling [kneeling]{Physiology} is Kneeling function [poorest scoring functional outcomes]{Disorders} is Investigation Finding [total knee arthroplasty]{Procedures} is Total Knee Arthroplasty [total knee arthroplasty]{Procedures} is Total Knee Arthroplasty [TKA]{Procedures} is Total Knee Arthroplasty [perceived]{Physiology} is Perceived [TKA]{Procedures} is Total Knee Arthroplasty [kneeling]{Physiology} is Kneeling function [cross-sectional study]{Procedures} is Cross-Sectional Study [TKA]{Procedures} is Total Knee Arthroplasty [kneeling]{Physiology} is Kneeling function [operation]{Procedures} is Operation [kneeling]{Physiology} is Kneeling function [questionnaires]{Concepts & Ideas} is Questionnaire [TKA]{Procedures} is Total Knee Arthroplasty [kneeling]{Physiology} is Kneeling function [questionnaire]{Concepts & Ideas} is Questionnaire [Oxford knee score]{Physiology} is Oxford knee score [OKS]{Physiology} is Oxford knee score [perceived]{Physiology} is Perceived [kneel]{Physiology} is Kneeling function [TKA]{Procedures} is Total Knee Arthroplasty [pain]{Disorders} is Pain finding [discomfort]{Disorders} is Actual Discomfort [kneeling]{Physiology} is Kneeling function [Perceived]{Physiology} is Perceived [kneeling]{Physiology} is Kneeling function [OKS]{Physiology} is Oxford knee score [difficulty]{Disorders} is Difficulty kneeling [Kneeling]{Physiology} is Kneeling function [knee function scores]{Disorders} is Investigation Finding [pain scores]{Disorders} is Pain score [knee stability scores]{Disorders} is Investigation Finding [kneeling]{Physiology} is Kneeling function [pain]{Disorders} is Pain finding [discomfor]{Disorders} is Actual Discomfort [unrelated]{Disorders} is Unrelated [knee]{Anatomy} is Bone structure of knee [TKA]{Procedures} is Total Knee Arthroplasty [knee]{Anatomy} is Bone structure of knee [kneeling]{Physiology} is Kneeling function [TKA]{Procedures} is Total Knee Arthroplasty [perceived]{Physiology} is Perceived [kneeling]{Physiology} is Kneeling function [affect]{Procedures} is Assessment of affect [perceived]{Physiology} is Perceived [kneeling]{Physiology} is Kneeling function [TKA]{Procedures} is Total Knee Arthroplasty
[Improved] diagnostic yield of [neuromuscular disorders] applying clinical [exome sequencing] in patients arising from a consanguineous [population] [Neuromuscular diseases] ([NMDs]) include a broad range of [disorders] affecting [muscles], [nerves] and [neuromuscular junctions]. Their overlapping phenotypes and heterogeneous genetic nature have created challenges in [diagnosis] which calls for the implementation of [massive parallel sequencing] as a candidate strategy to increase the diagnostic yield. In this [study], total of 45 patients, mostly offspring of consanguineous marriages were examined using [whole exome sequencing]. Data analysis was performed to identify the most probable [pathogenic] [rare variants] in known [NMD] [genes] which led to identification of causal variants for 33 out of 45 patients (73.3%) in the following known [genes]: [CAPN3], [Col6A1], [Col6A3], [DMD], [DYSF], [FHL1], [GJB1], [ISPD], [LAMA2], [LMNA], [PLEC1], [RYR1], [SGCA], [SGCB], [SYNE1], [TNNT1] and 22 novel [pathogenic] [variants] were [detected]. Today, the advantage of [whole exome sequencing] in [clinical diagnostic] strategies of [heterogeneous disorders] is clear. In this [cohort], a diagnostic yield of 73.3% was achieved which is quite high compared to the overall reported diagnostic yield of 25% to 50%. This could be explained by the consanguineous background of these patients and is another strong advantage of offering clinical [exome sequencing] in diagnostic [laboratories], especially in [populations] with high rate of [consanguinity].	[Improved]{Disorders} is Improved [Neuromuscular diseases]{Disorders} is Neuromuscular disorders [NMDs]{Disorders} is Neuromuscular disorders [neuromuscular disorders]{Disorders} is Neuromuscular disorders [disorders]{Disorders} is Disorders [exome sequencing]{Procedures} is Exome Sequencing [muscles]{Anatomy} is Muscle [nerves]{Anatomy} is Nervus [neuromuscular junctions]{Anatomy} is Neuromuscular Junctions [population]{Living Beings} is Population [diagnosis]{Disorders} is Diagnosis [massive parallel sequencing]{Procedures} is Massively Parallel Sequencing [study]{Procedures} is Study [whole exome sequencing]{Procedures} is Exome Sequencing [pathogenic]{Disorders} is Pathogenic [rare variants]{Genes & Molecular Sequences} is Gene Variant [NMD]{Disorders} is Neuromuscular disorders [genes]{Genes & Molecular Sequences} is Genes [genes]{Genes & Molecular Sequences} is Genes [CAPN3]{Genes & Molecular Sequences} is CAPN3 [Col6A1]{Genes & Molecular Sequences} is COL6A1 [Col6A3]{Genes & Molecular Sequences} is COL6A3 [DMD]{Genes & Molecular Sequences} is DMD [DYSF]{Genes & Molecular Sequences} is DYSF [FHL1]{Genes & Molecular Sequences} is FHL1 gene [GJB1]{Genes & Molecular Sequences} is GJB1 [ISPD]{Genes & Molecular Sequences} is IspD [LAMA2]{Genes & Molecular Sequences} is LAMA2 [LMNA]{Genes & Molecular Sequences} is LMNA [PLEC1]{Genes & Molecular Sequences} is PLEC [RYR1]{Genes & Molecular Sequences} is RYR1 [SGCA]{Genes & Molecular Sequences} is SGCA [SGCB]{Genes & Molecular Sequences} is SGCB [SYNE1]{Genes & Molecular Sequences} is SYNE1 [TNNT1]{Genes & Molecular Sequences} is TNNT1 [pathogenic]{Disorders} is Pathogenic [variants]{Genes & Molecular Sequences} is Gene Variant [detected]{Disorders} is Detected [whole exome sequencing]{Procedures} is Exome Sequencing [clinical diagnostic]{Procedures} is Clinical Diagnosis [heterogeneous disorders]{Disorders} is Heterogeneous disorder [cohort]{Living Beings} is Cohort [exome sequencing]{Procedures} is Exome Sequencing [laboratories]{Organizations} is Laboratories [populations]{Living Beings} is Population [consanguinity]{Disorders} is Consanguinities
Laser -facilitated [epicutaneous] [immunotherapy] to [IgE-mediated allergy] [Allergen specific immunotherapy] has been shown to be the only effective [treatment] for long-lasting clinical benefit to [IgE-mediated allergic diseases], but a fewer than 5% of patients choose the [treatment] because of inconvenience and a [high risk of] [anaphylaxis]. Recently, [epicutaneous allergen-specific immunotherapy] ([EPIT]) has proven effective, yet with limitations owing to [strong skin reactions]. We demonstrate here safer and faster [EPIT], named [μEPIT], by delivering [powdered allergen] and [adjuvants] into many [micropores] in the [epidermis]. We fabricated a microarray [patch] fractionally coated with a [powder mixture of ovalbumin] ([OVA]) model [allergen], [CpG], and [1,25-dihydroxyvitamin D3] ([VD3]). Topical application of the [patch] onto [laser-microperforated] [skin] resulted in a high level of [epidermal] delivery while greatly minimizing [allergen] [leakage] into [circulation system] as compared to current [subcutaneous immunotherapy] ([SCIT]). Moreover, only three times of [μEPIT] over two weeks could sufficiently inhibit [allergen-specific IgE] responses in [mice] suffering [OVA] -induced [airway hyperresponsivness] ([AHR]), which was unattainable by eight times of [SCIT] over three weeks. Mechanistically, [μEPIT] preferably enhanced [IgG2a] [production] suggesting [TH1-biased] [immune responses] and induced a high level of [T-regulatory] ([Treg]) [cells] against repeated [allergen sensitization]. The [immune tolerance] was confirmed by marked [reduction] in [airway wall] [thickness] as well as [eosinophil] and [neutrophil infiltration] into the [respiratory airway]. The [μEPIT] represents a novel and painless technology to [treat] [IgE-mediated allergic diseases] with little [local skin reaction] and a minimal risk of [anaphylaxis].	[Allergen specific immunotherapy]{Procedures} is Allergen Immunotherapy [epicutaneous]{Procedures} is ADMIN CUTANEOUS [immunotherapy]{Procedures} is Immunotherapy [IgE-mediated allergy]{Disorders} is Atopic IgE-mediated allergic disorder [treatment]{Procedures} is Treatments [IgE-mediated allergic diseases]{Disorders} is Atopic IgE-mediated allergic disorder [treatment]{Procedures} is Treatments [high risk of]{Disorders} is High risk of [anaphylaxis]{Disorders} is Obsolete anaphylaxis [epicutaneous allergen-specific immunotherapy]{Procedures} is Allergen Immunotherapy [EPIT]{Procedures} is Allergen Immunotherapy [strong skin reactions]{Physiology} is Reaction skin [EPIT]{Procedures} is Allergen Immunotherapy [μEPIT]{Procedures} is Allergen Immunotherapy [powdered allergen]{Chemicals & Drugs} is ALLERGEN [adjuvants]{Chemicals & Drugs} is IMMUNOL ADJUVANTS [micropores]{Anatomy} is Pore [epidermis]{Anatomy} is Epidermis structure [patch]{Devices} is Skin patch [powder mixture of ovalbumin]{Chemicals & Drugs} is Ovalbumin [OVA]{Chemicals & Drugs} is Ovalbumin [allergen]{Chemicals & Drugs} is ALLERGEN [CpG]{Chemicals & Drugs} is CpG [1,25-dihydroxyvitamin D3]{Chemicals & Drugs} is 1,25-Dihydroxyvitamin D3 [VD3]{Chemicals & Drugs} is 1,25-Dihydroxyvitamin D3 [patch]{Devices} is Skin patch [laser-microperforated]{Disorders} is Microperforation [skin]{Anatomy} is Skin of body [epidermal]{Anatomy} is Epidermis structure [allergen]{Chemicals & Drugs} is ALLERGEN [leakage]{Disorders} is Leakage [circulation system]{Anatomy} is Circulatory System [subcutaneous immunotherapy]{Procedures} is Subcutaneous immunotherapy [SCIT]{Procedures} is Subcutaneous immunotherapy [μEPIT]{Procedures} is Allergen Immunotherapy [allergen-specific IgE]{Chemicals & Drugs} is Allergen specific IgE [mice]{Living Beings} is Laboratory mice [OVA]{Chemicals & Drugs} is Ovalbumin [airway hyperresponsivness]{Disorders} is Airway Hyper Responsiveness [AHR]{Disorders} is Airway Hyper Responsiveness [SCIT]{Procedures} is Subcutaneous immunotherapy [μEPIT]{Procedures} is Allergen Immunotherapy [IgG2a]{Chemicals & Drugs} is IgG2A [production]{Phenomena} is Antibody Production [TH1-biased]{Anatomy} is Th1 Cell [immune responses]{Physiology} is Immune Response [T-regulatory]{Anatomy} is Regulatory T-Cells [Treg]{Anatomy} is Regulatory T-Cells [cells]{Anatomy} is Cells set [allergen sensitization]{Disorders} is Food allergen sensitization [immune tolerance]{Disorders} is Immune Tolerance [reduction]{Procedures} is Reduction [airway wall]{Anatomy} is Airway [thickness]{Disorders} is Increased thickness [eosinophil]{Anatomy} is Eosinophil [neutrophil infiltration]{Physiology} is Neutrophil Infiltration [respiratory airway]{Anatomy} is Respiratory Tract [μEPIT]{Procedures} is Allergen Immunotherapy [treat]{Procedures} is Treatments [IgE-mediated allergic diseases]{Disorders} is Atopic IgE-mediated allergic disorder [local skin reaction]{Physiology} is Reaction skin [anaphylaxis]{Disorders} is Obsolete anaphylaxis
Predicting real - [world] functional milestones in [schizophrenia] [Schizophrenia] is a [severe disorder] that often causes impairments in major areas of functioning, and most patients do not achieve expected real - [world] functional milestones. The aim of this [study] was to identify which variables of demography, [illness] activity, and [functional capacity] predict patients ' ability to attain real - [world] functional milestones. [Participants] were 235 outpatients, 149 [men] and 86 [women], [diagnosed] with [schizophrenia] [spectrum disorder]. Our results showed that younger patients managed to achieve a higher level of functioning in [educational level], marital status, and [social contacts]. Patients ' [functional capacity] was primarily associated with [educational level] and housing situation. We also found that [women] needed less support regarding housing and obtained a higher level of marital status as compared with [men]. Our [findings] demonstrate the importance of considering current [symptoms], especially [negative] [symptoms], and [remission] stability over time, together with age, duration of illness, gender, [educational level], and current [functional capacity], when predicting patients ' future real - [world] functioning. We also conclude that there is an advantage in exploring [symptoms] divided into [positive], [negative], and general domains considering their probable impact on functional achievements.	[Schizophrenia]{Disorders} is Schizophrenia [world]{Living Beings} is World [severe disorder]{Disorders} is Severe disorder [schizophrenia]{Disorders} is Schizophrenia [world]{Living Beings} is World [study]{Procedures} is Study [illness]{Disorders} is Illness [functional capacity]{Disorders} is Functional capacity [world]{Living Beings} is World [Participants]{Living Beings} is Participant [men]{Living Beings} is Men [women]{Living Beings} is Women [diagnosed]{Disorders} is Diagnosed [schizophrenia]{Disorders} is Schizophrenia [spectrum disorder]{Disorders} is Mental disorder (disorder) [educational level]{Disorders} is Educational Level [social contacts]{Disorders} is Investigation Finding [functional capacity]{Disorders} is Functional capacity [educational level]{Disorders} is Educational Level [women]{Living Beings} is Women [men]{Living Beings} is Men [findings]{Disorders} is Investigation Finding [symptoms]{Disorders} is Symptoms [negative]{Disorders} is Negative for [symptoms]{Disorders} is Symptoms [remission]{Disorders} is Remission [educational level]{Disorders} is Educational Level [functional capacity]{Disorders} is Functional capacity [world]{Living Beings} is World [symptoms]{Disorders} is Symptoms [positive]{Disorders} is Positive for [negative]{Disorders} is Negative for
[LDLR], [ApoB] and [ApoE genes] polymorphisms and classical [risk factors] in [premature coronary artery disease] [Lipoproteins] play a central role in the development of [atherosclerotic disease]. So, with their ability to affect [lipid levels], the [LDLR], [ApoB] and [ApoE] polymorphisms could be one of the factors influencing development of [atherosclerosis]. This hypothesis has been [tested] in different populations with conflicting results. The purpose of the present study was to investigate the association between the [LDLR], [ApoB] and [ApoE genes] polymorphisms with [premature CAD] ([PCAD]) in [Egyptians]. One hundred thirty-five patients of [PCAD] and one hundred thirty-two ages and sex matched control subjects were included in the study. [LDLR] and [ApoB genes] polymorphisms were [analyzed] by [polymerase chain reaction] ([PCR]). The [ApoE] genotypes were identified by [multiplex amplification refractory mutation system] ([multi-AMRS]). We found that [LDLR A(+)A(+)] genotype, [ApoB X(+)] [allele] and [ApoE E4] [allele] increased the risk of [PCAD] by 1.8, 2.1 and 12.1 respectively. The present study proved that smoking, [metabolic syndrome], [ApoB X(+)X(+)] genotype and [ApoE E4] [allele] were independent [risk factors] for the development of [PCAD]. This is the first study investigate the association between [low density lipoprotein receptor], [apolipoprotein B] and [apolipoprotein E genes] polymorphisms with [PCAD] and [lipid levels] in [Egyptians] and we concluded that the [LDLR A(+)A(+)] genotype, [ApoB X(+)] [allele] and [ApoE E4] [allele] may be associated with an increased risk for development of [PCAD] by elevated [levels of total cholesterol (TC)] and [low density lipoprotein] ([LDLc]). The coexistence of [CAD] [risk factors] with [LDLR A(+)A(+)] genotype, [ApoB X(+)] [allele] and [ApoE E4] [allele] may increase the risk of the development of [PCAD] in [Egyptian] patients.	[LDLR]{Genes & Molecular Sequences} is LDLR gene [Lipoproteins]{Chemicals & Drugs} is Lipoproteins [ApoB]{Genes & Molecular Sequences} is APOB [ApoE genes]{Genes & Molecular Sequences} is APOE gene [risk factors]{Disorders} is Risk Factors [atherosclerotic disease]{Disorders} is Atherosclerotic Cardiovascular Disease [premature coronary artery disease]{Disorders} is Premature coronary artery disease [lipid levels]{Phenomena} is Lipid level [LDLR]{Genes & Molecular Sequences} is LDLR gene [ApoB]{Genes & Molecular Sequences} is APOB [ApoE]{Genes & Molecular Sequences} is APOE gene [atherosclerosis]{Disorders} is Atherosclerotic Cardiovascular Disease [tested]{Concepts & Ideas} is Tests [LDLR]{Genes & Molecular Sequences} is LDLR gene [ApoB]{Genes & Molecular Sequences} is APOB [ApoE genes]{Genes & Molecular Sequences} is APOE gene [premature CAD]{Disorders} is Premature coronary artery disease [PCAD]{Disorders} is Premature coronary artery disease [Egyptians]{Living Beings} is Egyptians [PCAD]{Disorders} is Premature coronary artery disease [LDLR]{Genes & Molecular Sequences} is LDLR gene [ApoB genes]{Genes & Molecular Sequences} is APOB [analyzed]{Procedures} is Analyzed [polymerase chain reaction]{Procedures} is Polymerase Chain Reaction [PCR]{Procedures} is Polymerase Chain Reaction [ApoE]{Genes & Molecular Sequences} is APOE gene [multiplex amplification refractory mutation system]{Procedures} is Analysis using amplification refractory mutation system PCR [multi-AMRS]{Procedures} is Analysis using amplification refractory mutation system PCR [LDLR A(+)A(+)]{Genes & Molecular Sequences} is LDLR gene [ApoB X(+)]{Genes & Molecular Sequences} is APOB [allele]{Genes & Molecular Sequences} is Allele [ApoE E4]{Genes & Molecular Sequences} is APOE gene [allele]{Genes & Molecular Sequences} is Allele [PCAD]{Disorders} is Premature coronary artery disease [metabolic syndrome]{Disorders} is Metabolic syndrome [ApoB X(+)X(+)]{Genes & Molecular Sequences} is APOB [ApoE E4]{Genes & Molecular Sequences} is APOE gene [allele]{Genes & Molecular Sequences} is Allele [risk factors]{Disorders} is Risk Factors [PCAD]{Disorders} is Premature coronary artery disease [low density lipoprotein receptor]{Genes & Molecular Sequences} is LDLR gene [apolipoprotein B]{Genes & Molecular Sequences} is APOB [apolipoprotein E genes]{Genes & Molecular Sequences} is APOE gene [PCAD]{Disorders} is Premature coronary artery disease [lipid levels]{Phenomena} is Lipid level [Egyptians]{Living Beings} is Egyptians [LDLR A(+)A(+)]{Genes & Molecular Sequences} is LDLR gene [ApoB X(+)]{Genes & Molecular Sequences} is APOB [allele]{Genes & Molecular Sequences} is Allele [ApoE E4]{Genes & Molecular Sequences} is APOE gene [allele]{Genes & Molecular Sequences} is Allele [PCAD]{Disorders} is Premature coronary artery disease [levels of total cholesterol (TC)]{Procedures} is Cholesterol level [low density lipoprotein]{Procedures} is Low density lipoprotein measurement [LDLc]{Procedures} is Low density lipoprotein measurement [CAD]{Disorders} is Premature coronary artery disease [risk factors]{Disorders} is Risk Factors [LDLR A(+)A(+)]{Genes & Molecular Sequences} is LDLR gene [ApoB X(+)]{Genes & Molecular Sequences} is APOB [allele]{Genes & Molecular Sequences} is Allele [ApoE E4]{Genes & Molecular Sequences} is APOE gene [allele]{Genes & Molecular Sequences} is Allele [PCAD]{Disorders} is Premature coronary artery disease [Egyptian]{Living Beings} is Egyptians
[Mandibular] [kinesiographic pattern] of [women] with chronic [TMD] after [management] with [educational] and [self-care therapies]: A [double-blind], [randomized clinical trial] [Limited mandibular movements] are one of the most important [signs] of [temporomandibular disorders] ([TMDs]) and may cause functional difficulties. The purpose of this [double-blind], [randomized clinical trial] was to [evaluate] the effect of [treatment] with only [educational] or [education] associated with [self-care therapies] on the [pattern] of [mandibular] [movements] of [women] with [chronic painful] [TMDs]. Forty-two [women] were selected and randomly divided into 3 groups, control group (CG, n=13), education group (EG, n=16), and education and self-care group (ESG, n=13), according to the sequence of [treatment] they received. A [kinesiograph device] recorded [mandibular] [movements] during maximum [mouth] [opening] and [mastication] at baseline (T0) and at 30-day (T1) and 60-day (T2) [follow-up]. [Kinesiographic data] were statistically analyzed using 1-way ANOVA, followed by the Bonferroni test for multiple comparisons of means (α=.05). The ESG group demonstrated an improvement in the [maximum vertical opening] ([MVO] = 5.1 ±3.4 mm; P=.012) and [anteroposterior mandibular movement] ([MAM]) during maximum [opening] (7.4 ±9.5; P=.019), significantly higher than that of the EG ([MVO] =1.8 ±3.5 mm; [MAM] =0.8 ±5.0 mm) and the CG ([MVO] =0.9 ±3.8 mm; [MAM] =0.8 ±4.4 mm) after 30 days of [follow-up]. Moreover, at T1, [vertical] [mandibular] [movement] during [mastication] was significantly higher in the ESG group (17.4 ±1.7 mm) than in the EG group (15.0 ±2.8, P=.027). [No significant] differences were [found] between the [women] who received [treatment] with [educational] and [self-care therapies] for 60 days and the [women] who received this [treatment] for 30 days. In the short-term, [education] and [self-care treatment] [positively] influenced the [mandibular] [movement] [pattern] of [women] with [chronic painful] [TMDs].	[Mandibular]{Anatomy} is Mandibular [Limited mandibular movements]{Disorders} is Limited mandibular mobility [kinesiographic pattern]{Concepts & Ideas} is Intellectual Product [women]{Living Beings} is Women [TMD]{Disorders} is TMJ DIS [signs]{Disorders} is SIGNS SYMPTOMS [management]{Procedures} is DIS MANAGEMENT [temporomandibular disorders]{Disorders} is TMJ DIS [educational]{Concepts & Ideas} is Education [TMDs]{Disorders} is TMJ DIS [self-care therapies]{Procedures} is Self-care practice (regime/therapy) [double-blind]{Procedures} is Double-Blinded [randomized clinical trial]{Procedures} is Randomized Clinical Trial [double-blind]{Procedures} is Double-Blinded [randomized clinical trial]{Procedures} is Randomized Clinical Trial [evaluate]{Procedures} is Evaluate [treatment]{Procedures} is Treatments [educational]{Concepts & Ideas} is Education [education]{Concepts & Ideas} is Education [self-care therapies]{Procedures} is Self-care practice (regime/therapy) [pattern]{Concepts & Ideas} is Intellectual Product [mandibular]{Anatomy} is Mandibular [movements]{Physiology} is Movements [women]{Living Beings} is Women [chronic painful]{Disorders} is Chronic Pain [TMDs]{Disorders} is TMJ DIS [women]{Living Beings} is Women [treatment]{Procedures} is Treatments [kinesiograph device]{Devices} is Device [mandibular]{Anatomy} is Mandibular [movements]{Physiology} is Movements [mouth]{Anatomy} is Cavity of mouth [opening]{Physiology} is Movements [mastication]{Physiology} is Mastication (function) [follow-up]{Procedures} is Follow-up [Kinesiographic data]{Concepts & Ideas} is Clinical Data [maximum vertical opening]{Physiology} is Movements [MVO]{Physiology} is Movements [anteroposterior mandibular movement]{Physiology} is Movements [MAM]{Physiology} is Movements [opening]{Physiology} is Movements [MVO]{Physiology} is Movements [MAM]{Physiology} is Movements [MVO]{Physiology} is Movements [MAM]{Physiology} is Movements [follow-up]{Procedures} is Follow-up [vertical]{Concepts & Ideas} is Vertical [mandibular]{Anatomy} is Mandibular [movement]{Physiology} is Movements [mastication]{Physiology} is Mastication (function) [No significant]{Disorders} is Not significant [found]{Disorders} is Found [women]{Living Beings} is Women [treatment]{Procedures} is Treatments [educational]{Concepts & Ideas} is Education [self-care therapies]{Procedures} is Self-care practice (regime/therapy) [women]{Living Beings} is Women [treatment]{Procedures} is Treatments [education]{Concepts & Ideas} is Education [self-care treatment]{Procedures} is Self-care practice (regime/therapy) [positively]{Disorders} is Positive for [mandibular]{Anatomy} is Mandibular [movement]{Physiology} is Movements [pattern]{Concepts & Ideas} is Intellectual Product [women]{Living Beings} is Women [chronic painful]{Disorders} is Chronic Pain [TMDs]{Disorders} is TMJ DIS
[MiR-211] is [epigenetically regulated] by [DNMT1] mediated [methylation] and inhibits [EMT] of [melanoma cells] by [targeting] [RAB22A] [MiR-211] has strong inhibitive effects on [melanoma] [cell growth], [invasion] and [metastasis]. However, how it is [downregulated] and whether other [genes] are involved its [downstream] [regulation] in [melanoma] are not clear. In this study, we firstly verified the [expression] of [miR-211] in [melanoma cell lines] and observed that its [downregulation] is associated with increased [DNMT1] [expression]. By performing [qRT-PCR] and [MSP analysis], we confirmed that [DNMT1] is [negatively] correlated with [miR-211] [expression] and can [modulate] [DNA methylation] in the [promoter region] of [miR-211]. By performing [bioinformatics analysis], we found that [RAB22A] is a possible target of [miR-211], which has two broadly [conversed] [binding sites] with [miR-211] in the [3'UTR]. Following dual [luciferase] [assay], [qRT-PCR] and [western blot analysis] confirmed the direct [binding] between [miR-211] and [RAB22A] and the [suppressive effect] of [miR-211] on [RAB22A] [expression]. [Knockdown] of [RAB22A] increased epithelial properties and impaired mesenchymal properties of the [melanoma cells], suggesting that [miR-211] [modulates] [epithelial mesenchymal transition] ([EMT]) of [melanoma cells] via [downregulating] [RAB22A]. In summary, the present study firstly demonstrated that [DNMT1] mediated [promoter] [methylation] is a mechanism of [miRNA] [suppression] in [melanoma] and revealed a new [tumor suppressor] role of the [miR-211] by [targeting] [RAB22A] in [melanoma]. The [DNMT1] / [miR-211] / [RAB22A] axis provides a novel insight into the [pathogenesis] of [melanoma], particularly in the [EMT process].	[MiR-211]{Genes & Molecular Sequences} is MIR211 [epigenetically regulated]{Physiology} is Regulation of gene expression, epigenetic [DNMT1]{Genes & Molecular Sequences} is DNMT1 Gene [melanoma]{Disorders} is Melanoma [cell growth]{Physiology} is Cell Growth [methylation]{Physiology} is Methylations [invasion]{Disorders} is Cell Invasion [metastasis]{Disorders} is Metastasis [EMT]{Physiology} is EMT [melanoma cells]{Anatomy} is Melanoma Cell [targeting]{Procedures} is Gene Targeting [downregulated]{Physiology} is Downregulation [RAB22A]{Genes & Molecular Sequences} is RAB22A [genes]{Genes & Molecular Sequences} is Genes [downstream]{Concepts & Ideas} is Downstream [regulation]{Physiology} is Downregulation [melanoma]{Disorders} is Melanoma [expression]{Physiology} is Expression [miR-211]{Genes & Molecular Sequences} is MIR211 [melanoma cell lines]{Anatomy} is Melanoma Cell [downregulation]{Physiology} is Downregulation [DNMT1]{Genes & Molecular Sequences} is DNMT1 Gene [expression]{Physiology} is Expression [qRT-PCR]{Procedures} is QRT-PCR [MSP analysis]{Procedures} is Microspectrophotometry [DNMT1]{Genes & Molecular Sequences} is DNMT1 Gene [negatively]{Disorders} is NEGATIVE [miR-211]{Genes & Molecular Sequences} is MIR211 [expression]{Physiology} is Expression [modulate]{Concepts & Ideas} is Modulate [DNA methylation]{Physiology} is DNA methylation [promoter region]{Chemicals & Drugs} is Promoter Region [miR-211]{Genes & Molecular Sequences} is MIR211 [bioinformatics analysis]{Occupations} is Bioinformatics [RAB22A]{Genes & Molecular Sequences} is RAB22A [miR-211]{Genes & Molecular Sequences} is MIR211 [conversed]{Genes & Molecular Sequences} is CONSERVED SEQ [binding sites]{Chemicals & Drugs} is Binding Sites [miR-211]{Genes & Molecular Sequences} is MIR211 [3'UTR]{Chemicals & Drugs} is 3'UTR [luciferase]{Chemicals & Drugs} is Luciferase [assay]{Procedures} is ASSAY BIOL [qRT-PCR]{Procedures} is QRT-PCR [western blot analysis]{Procedures} is Western Blots [binding]{Physiology} is Binding [miR-211]{Genes & Molecular Sequences} is MIR211 [RAB22A]{Genes & Molecular Sequences} is RAB22A [suppressive effect]{Physiology} is SUPPRESSION GENET [miR-211]{Genes & Molecular Sequences} is MIR211 [RAB22A]{Genes & Molecular Sequences} is RAB22A [expression]{Physiology} is Expression [Knockdown]{Procedures} is Gene Knockdown [RAB22A]{Genes & Molecular Sequences} is RAB22A [melanoma cells]{Anatomy} is Melanoma Cell [miR-211]{Genes & Molecular Sequences} is MIR211 [modulates]{Concepts & Ideas} is Modulate [epithelial mesenchymal transition]{Physiology} is EMT [EMT]{Physiology} is EMT [melanoma cells]{Anatomy} is Melanoma Cell [downregulating]{Physiology} is Downregulation [RAB22A]{Genes & Molecular Sequences} is RAB22A [DNMT1]{Genes & Molecular Sequences} is DNMT1 Gene [promoter]{Chemicals & Drugs} is Promoter Region [methylation]{Physiology} is Methylations [miRNA]{Chemicals & Drugs} is MiRNA [suppression]{Physiology} is SUPPRESSION GENET [melanoma]{Disorders} is Melanoma [tumor suppressor]{Genes & Molecular Sequences} is Tumor Suppressor [miR-211]{Genes & Molecular Sequences} is MIR211 [targeting]{Procedures} is Gene Targeting [RAB22A]{Genes & Molecular Sequences} is RAB22A [melanoma]{Disorders} is Melanoma [DNMT1]{Genes & Molecular Sequences} is DNMT1 Gene [miR-211]{Genes & Molecular Sequences} is MIR211 [RAB22A]{Genes & Molecular Sequences} is RAB22A [pathogenesis]{Disorders} is Pathogenesis [melanoma]{Disorders} is Melanoma [EMT process]{Physiology} is EMT
[Body mass index] and [suicide] methods [Overweight] and [obesity] is associated with lower rates of [suicide]. However, little is known about the association with different [suicide] methods. We studied the association between groups of [body mass index] and [suicide] methods. We identified all [medicolegal] [autopsy] cases with a [cause of death] due to external causes in [Sweden] during 1999-2013 (N = 39,368) and included 11,715 [suicides] and 13,316 accidents or homicides as controls. We applied multinomial [regression models] adjusted for age, sex, year and season of [death]. [Obesity] was associated with [suicidal] [intoxication], OR 1.15 (95% confidence interval (CI) 1.02, 1.30) and [negatively] associated with all other [suicide] methods studied. [Underweight] showed a [negative] association with [suicidal] [drowning] and there was an indication towards a [negative] association with [hanging] in [men] OR 0.81 (95% CI 0.65, 1.01). We conclude that [body mass index] ([BMI]) is associated with the choice of [suicide] method. This may be of importance in a [public health perspective], e.g. potential for [prevention] of [intoxications]. In the practice of [forensic medicine], the [physician's] level of [suspicion] may rise if the apparent [suicidal] method is less common for the individual characteristics of the [deceased], such as [BMI].	[Overweight]{Disorders} is Overweight [Body mass index]{Physiology} is Body mass index [obesity]{Disorders} is Obesity (disorder) [suicide]{Disorders} is Suicides [suicide]{Disorders} is Suicides [suicide]{Disorders} is Suicides [body mass index]{Physiology} is Body mass index [suicide]{Disorders} is Suicides [medicolegal]{Concepts & Ideas} is Medicolegal aspects [autopsy]{Procedures} is Autopsy [cause of death]{Disorders} is Cause of death [Sweden]{Geographic Areas} is Sweden [suicides]{Disorders} is Suicides [regression models]{Concepts & Ideas} is ANAL REGRESSION [death]{Disorders} is Death (finding) [Obesity]{Disorders} is Obesity (disorder) [suicidal]{Disorders} is Suicidal [intoxication]{Disorders} is Intoxication [negatively]{Disorders} is Negative for [suicide]{Disorders} is Suicides [Underweight]{Disorders} is Underweight [negative]{Disorders} is Negative for [suicidal]{Disorders} is Suicidal [drowning]{Disorders} is Drowning [negative]{Disorders} is Negative for [hanging]{Disorders} is Hanging [men]{Living Beings} is Men [body mass index]{Physiology} is Body mass index [BMI]{Physiology} is Body mass index [suicide]{Disorders} is Suicides [public health perspective]{Procedures} is Public health service [prevention]{Procedures} is Suicide prevention [intoxications]{Disorders} is Intoxication [forensic medicine]{Occupations} is Forensic Medicine [physician's]{Living Beings} is Physician [suspicion]{Physiology} is Suspicion [suicidal]{Disorders} is Suicidal [deceased]{Physiology} is Deceased [BMI]{Physiology} is Body mass index
[Cognitive impairment] in [HIV] and [HCV] [co-infected] patients: a systematic [review] and [meta-analysis] [Cognitive impairment] has been well documented in [human immunodeficiency virus] ([HIV]) and [hepatitis C virus] ([HCV]) [mono-infections]. However, in the context of [HIV] / [HCV] [co-infection] the research is more limited. The aim of this systematic [review] was to describe the characteristics of [cognitive impairment] in [HIV] / [HCV] [co-infection] and to [examine] the differences in [cognitive performance] between [HIV] / [HCV] and [HIV] and [HCV] [mono-infected] patients. Of the 437 records initially [screened], 24 papers met the inclusion criteria and were included in the systematic [review]. Four [studies] were included in the [meta-analysis]. Most [studies] indicated that [HIV] / [HCV] [co-infected] patients had a higher level of [cognitive impairment] than [HIV] [mono-infected] patients. [Meta-analysis] also indicated that [HIV] [mono-infected] patients had a significantly lower global deficit score than [co-infected] patients. The results also indicated that [co-infected] patients were more likely to be [impaired] in information processing speed than [HIV] [mono-infected] patients. These [findings] can be challenged by biasing factors such as the small number of included [studies], heterogeneity of the samples and a large diversity of methodological procedures. Future research with consistent and comprehensive [neuropsychological batteries] and covering a greater diversity of [risk factors] is needed, in order to clarify the effects of both [viruses] on [cognitive function] and the mechanisms that underlie these effects. Because [cognitive impairments] may pose significant [challenges] to [medication adherence], quality of life and overall functioning, such knowledge may have important implications to the [planning] and [implementation] of effective interventions aimed at optimising the [clinical management] of these [infections].	[Cognitive impairment]{Disorders} is Cognitive impairment [HIV]{Living Beings} is HIV [HCV]{Living Beings} is HCV [co-infected]{Disorders} is Co-infections [human immunodeficiency virus]{Living Beings} is HIV [review]{Concepts & Ideas} is Review [HIV]{Living Beings} is HIV [meta-analysis]{Procedures} is Meta-analysis [hepatitis C virus]{Living Beings} is HCV [HCV]{Living Beings} is HCV [mono-infections]{Disorders} is Infections [HIV]{Living Beings} is HIV [HCV]{Living Beings} is HCV [co-infection]{Disorders} is Co-infections [review]{Concepts & Ideas} is Review [cognitive impairment]{Disorders} is Cognitive impairment [HIV]{Living Beings} is HIV [HCV]{Living Beings} is HCV [co-infection]{Disorders} is Co-infections [examine]{Disorders} is Examined [cognitive performance]{Physiology} is Cognitive functions [HIV]{Living Beings} is HIV [HCV]{Living Beings} is HCV [HIV]{Living Beings} is HIV [HCV]{Living Beings} is HCV [mono-infected]{Disorders} is Infections [screened]{Procedures} is Screenings [review]{Concepts & Ideas} is Review [studies]{Procedures} is Study [meta-analysis]{Procedures} is Meta-analysis [studies]{Procedures} is Study [HIV]{Living Beings} is HIV [HCV]{Living Beings} is HCV [co-infected]{Disorders} is Co-infections [cognitive impairment]{Disorders} is Cognitive impairment [HIV]{Living Beings} is HIV [mono-infected]{Disorders} is Infections [Meta-analysis]{Procedures} is Meta-analysis [HIV]{Living Beings} is HIV [mono-infected]{Disorders} is Infections [co-infected]{Disorders} is Co-infections [co-infected]{Disorders} is Co-infections [impaired]{Disorders} is Cognitive impairment [HIV]{Living Beings} is HIV [mono-infected]{Disorders} is Infections [findings]{Disorders} is Finding (finding) [studies]{Procedures} is Study [neuropsychological batteries]{Concepts & Ideas} is Neuropsychological battery [risk factors]{Disorders} is Risk Factors [viruses]{Living Beings} is Virus [cognitive function]{Physiology} is Cognitive functions [cognitive impairments]{Disorders} is Cognitive impairment [challenges]{Procedures} is Challenge [medication adherence]{Disorders} is Medication adherence [planning]{Procedures} is Health Planning [implementation]{Procedures} is Health Plan Implementation [clinical management]{Procedures} is Clinical Management [infections]{Disorders} is Infections
Usefulness of [Embolization] for [Iatrogenic] [Dural Arteriovenous Fistula] Associated with Recurrent [Chronic Subdural Hematoma]: A [Case Report] and [Literature Review] Refractory [chronic subdural hematomas] due to [iatrogenic] [dural arteriovenous fistulas] ([dAVFs]) are difficult to treat. We report our experience and propose a guideline on basis of a [literature review] for the usefulness of [embolization] of [middle meningeal artery] ([MMA]) for the [treatment] of the same. We report a case with [right hemiparesis] and [aphasia] 1 month after a [fall] from a bicycle. [Computed tomography scan] of the [head] showed [left] [chronic subdural hematoma], which was evacuated by burr-hole drainage. The postoperative course was complicated by [reaccumulation] within short period of time. On [superselective digital subtraction angiography] of [MMA], [iatrogenic] [dAVF] was found on [left side]. We [embolized] successfully it using [n-butyl cyanoacrylate] after a third [irrigation]. No [reaccumulation] found in the postoperative period or at last [follow-up]. We propose [treatment protocol] based on our experience and [literature review]. Refractory [chronic subdural hematoma] with [reaccumulation] within a short interval should be subjected to [digital subtraction angiography] of the [MMA]. [Embolization] of [ipsilateral] [MMA] is safe, effective, and a useful option for the [treatment] of [iatrogenic] [dAVF] and resolution of [hematoma].	[chronic subdural hematomas]{Disorders} is Chronic subdural hematoma [Embolization]{Procedures} is Embolization [Iatrogenic]{Disorders} is Iatrogenesis [Dural Arteriovenous Fistula]{Disorders} is Dural arteriovenous fistula [iatrogenic]{Disorders} is Iatrogenesis [dural arteriovenous fistulas]{Disorders} is Dural arteriovenous fistula [dAVFs]{Disorders} is Dural arteriovenous fistula [Chronic Subdural Hematoma]{Disorders} is Chronic subdural hematoma [Case Report]{Concepts & Ideas} is Case report [Literature Review]{Concepts & Ideas} is Review Literature [literature review]{Concepts & Ideas} is Review Literature [embolization]{Procedures} is Embolization [middle meningeal artery]{Anatomy} is Structure of middle meningeal artery [MMA]{Anatomy} is Structure of middle meningeal artery [treatment]{Procedures} is Treatments [right hemiparesis]{Disorders} is Right hemiparesis [aphasia]{Disorders} is Aphasia [fall]{Disorders} is Fall [Computed tomography scan]{Procedures} is Computed tomography scan - [head]{Anatomy} is Heads [left]{Concepts & Ideas} is Left sided [chronic subdural hematoma]{Disorders} is Chronic subdural hematoma [reaccumulation]{Disorders} is Accumulation [superselective digital subtraction angiography]{Procedures} is Digital Subtraction Angiography [MMA]{Anatomy} is Structure of middle meningeal artery [iatrogenic]{Disorders} is Iatrogenesis [dAVF]{Disorders} is Dural arteriovenous fistula [left side]{Concepts & Ideas} is Left side [embolized]{Procedures} is Embolization [n-butyl cyanoacrylate]{Chemicals & Drugs} is N-butyl-cyanoacrylate [irrigation]{Procedures} is Therapeutic Irrigation [reaccumulation]{Disorders} is Accumulation [follow-up]{Procedures} is Follow-up [treatment protocol]{Procedures} is Treatment Protocol [literature review]{Concepts & Ideas} is Review Literature [chronic subdural hematoma]{Disorders} is Chronic subdural hematoma [reaccumulation]{Disorders} is Accumulation [digital subtraction angiography]{Procedures} is Digital Subtraction Angiography [MMA]{Anatomy} is Structure of middle meningeal artery [Embolization]{Procedures} is Embolization [ipsilateral]{Concepts & Ideas} is Ipsilateral [MMA]{Anatomy} is Structure of middle meningeal artery [treatment]{Procedures} is Treatments [iatrogenic]{Disorders} is Iatrogenesis [dAVF]{Disorders} is Dural arteriovenous fistula [hematoma]{Disorders} is Subdural hematoma
Incidence of [crown fracture] and [risk factors] in the [primary dentition]: a [prospective longitudinal study] Few studies have assessed the incidence and [risk factors] to [crown fractures] in preschool children. The aim of this study was to estimate the incidence of [crown fracture] in the [primary dentition] over a 1-year [follow-up] period, identify [risk factors], and test the hypothesis that children with previous [crown fracture] are more prone to experience further cases of [crown fracture] independently of other [risk factors]. This study was developed in two phases: [cross-sectional] and [prospective longitudinal study]. The [cross-sectional study] was carried out 261 preschool children. The [prospective longitudinal study] was carried out 194 children allocated to two groups: [exposed group] (children with prior exposure to [crown fracture]) and [non] - [exposed group] (children without prior exposure). On both occasions, children were examined for the [diagnosis] of [crown fracture] and evaluation of [lip] coverage and [overjet]. The parents were interviewed with regard to the socioeconomic indicators. New cases of [crown fracture] were identified based on the comparison of the two examinations. Data analysis involved [Pearson's chi-square test], [McNemar's test], and [Poisson regression] with robust variance. Among the 261 children who participated in the [cross-sectional study], 194 were re-examined (65 in the [exposed group] and 129 in the [non] - [exposed group]). The overall incidence of [crown fracture] was 55.7% (n = 108). The difference in percentage of [increased risk of] [crown fracture] in exposed and [non] - [exposed groups] was 13.4%. A greater incidence of [crown fracture] was found in the exposed group (64.6%; P < 0,001). The children exposed (RR: 1.30; 95% CI: 1.01-1.67) had a [greater risk of] developing new cases of [crown fracture] in comparison with the [non] - [exposed group]. The incidence of [crown fracture] was high and children with previous [crown fracture] had a [greater risk of] suffering new cases of [crown fracture] during the 1-year [follow-up] period.	[crown fracture]{Disorders} is Tooth crown fracture [risk factors]{Disorders} is Risk Factors [risk factors]{Disorders} is Risk Factors [primary dentition]{Anatomy} is Primary dentition [crown fractures]{Disorders} is Tooth crown fracture [prospective longitudinal study]{Procedures} is Longitudinal Study [crown fracture]{Disorders} is Tooth crown fracture [primary dentition]{Anatomy} is Primary dentition [follow-up]{Procedures} is Follow-up [risk factors]{Disorders} is Risk Factors [crown fracture]{Disorders} is Tooth crown fracture [crown fracture]{Disorders} is Tooth crown fracture [risk factors]{Disorders} is Risk Factors [cross-sectional]{Procedures} is Cross-Sectional Study [prospective longitudinal study]{Procedures} is Longitudinal Study [cross-sectional study]{Procedures} is Cross-Sectional Study [prospective longitudinal study]{Procedures} is Longitudinal Study [exposed group]{Living Beings} is Exposed Group [crown fracture]{Disorders} is Tooth crown fracture [non]{Disorders} is NEGATIVE [exposed group]{Living Beings} is Exposed Group [diagnosis]{Disorders} is Diagnosis [crown fracture]{Disorders} is Tooth crown fracture [lip]{Anatomy} is LIP [overjet]{Disorders} is Overjet [crown fracture]{Disorders} is Tooth crown fracture [Pearson's chi-square test]{Concepts & Ideas} is Hypothesis Test [McNemar's test]{Concepts & Ideas} is Hypothesis Test [Poisson regression]{Concepts & Ideas} is ANAL REGRESSION [cross-sectional study]{Procedures} is Cross-Sectional Study [exposed group]{Living Beings} is Exposed Group [non]{Disorders} is NEGATIVE [exposed group]{Living Beings} is Exposed Group [crown fracture]{Disorders} is Tooth crown fracture [increased risk of]{Disorders} is High risk of [crown fracture]{Disorders} is Tooth crown fracture [non]{Disorders} is NEGATIVE [exposed groups]{Living Beings} is Exposed Group [crown fracture]{Disorders} is Tooth crown fracture [greater risk of]{Disorders} is High risk of [crown fracture]{Disorders} is Tooth crown fracture [non]{Disorders} is NEGATIVE [exposed group]{Living Beings} is Exposed Group [crown fracture]{Disorders} is Tooth crown fracture [crown fracture]{Disorders} is Tooth crown fracture [greater risk of]{Disorders} is High risk of [crown fracture]{Disorders} is Tooth crown fracture [follow-up]{Procedures} is Follow-up
An Efficient and Reliable [Statistical Method] for Estimating Functional [Connectivity] in Large Scale [Brain] [Networks] Using Partial Correlation Currently, [network-oriented] [analysis] of [fMRI] data has become an important tool for understanding [brain] [organization] and [brain] [networks]. Among the range of [network] modeling methods, partial correlation has shown great promises in accurately [detecting] true [brain] [network] [connections]. However, the application of partial correlation in investigating [brain] [connectivity], especially in large-scale [brain] [networks], has been limited so far due to the technical challenges in its estimation. In this paper, we propose an efficient and reliable [statistical method] for estimating partial correlation in large-scale [brain] [network] [modeling]. Our [method] derives partial correlation based on the precision matrix estimated via [Constrained L1-minimization Approach] ([CLIME]), which is a recently developed [statistical method] that is more efficient and demonstrates better performance than the existing [methods]. To help select an appropriate tuning parameter for sparsity control in the [network] estimation, we propose a new [Dens-based selection method] that provides a more informative and flexible [tool] to allow the users to select the tuning parameter based on the desired sparsity level. Another appealing feature of the [Dens-based method] is that it is much faster than the existing [methods], which provides an important advantage in [neuroimaging applications]. [Simulation studies] show that the [Dens-based method] demonstrates comparable or better performance with respect to the existing [methods] in [network] estimation. We applied the proposed partial correlation [method] to investigate [resting state functional connectivity using rs-fMRI data] from the Philadelphia Neurodevelopmental Cohort (PNC) study. Our results show that partial correlation [analysis] removed considerable between-module [marginal connections] identified by full [correlation analysis], suggesting these [connections] were likely caused by global effects or common [connection] to other [nodes]. Based on partial correlation, we find that the most significant direct [connections] are between homologous [brain] [locations] in the [left] and [right hemisphere]. When comparing partial correlation derived under different sparse tuning parameters, an important finding is that the sparse regularization has more shrinkage effects on [negative] functional [connections] than on [positive] [connections], which supports previous findings that many of the [negative] [brain] [connections] are due to [non-neurophysiological effects]. An [R package "DensParcorr"] can be downloaded from [CRAN] for implementing the proposed [statistical methods].	[network-oriented]{Physiology} is Nerve network [Statistical Method]{Procedures} is Statistical Method [analysis]{Procedures} is Analyzed [fMRI]{Procedures} is FMRI [Connectivity]{Concepts & Ideas} is Connection [brain]{Anatomy} is Brains [Brain]{Anatomy} is Brains [organization]{Physiology} is Organization [Networks]{Physiology} is Nerve network [brain]{Anatomy} is Brains [networks]{Physiology} is Nerve network [network]{Physiology} is Nerve network [detecting]{Disorders} is Detected [brain]{Anatomy} is Brains [network]{Physiology} is Nerve network [connections]{Concepts & Ideas} is Connection [brain]{Anatomy} is Brains [connectivity]{Concepts & Ideas} is Connection [brain]{Anatomy} is Brains [networks]{Physiology} is Nerve network [statistical method]{Procedures} is Statistical Method [brain]{Anatomy} is Brains [network]{Physiology} is Nerve network [modeling]{Procedures} is Modeling [method]{Concepts & Ideas} is Methods [Constrained L1-minimization Approach]{Procedures} is Statistical Method [CLIME]{Procedures} is Statistical Method [statistical method]{Procedures} is Statistical Method [methods]{Concepts & Ideas} is Methods [network]{Physiology} is Nerve network [Dens-based selection method]{Procedures} is Statistical Method [tool]{Concepts & Ideas} is Software Tool [Dens-based method]{Procedures} is Statistical Method [methods]{Concepts & Ideas} is Methods [neuroimaging applications]{Procedures} is Neuroimaging [Simulation studies]{Procedures} is Simulation [Dens-based method]{Procedures} is Statistical Method [methods]{Concepts & Ideas} is Methods [network]{Physiology} is Nerve network [method]{Concepts & Ideas} is Methods [resting state functional connectivity using rs-fMRI data]{Procedures} is Resting State Functional Connectivity MRI [analysis]{Procedures} is Analyzed [marginal connections]{Concepts & Ideas} is Connection [correlation analysis]{Procedures} is Correlation Study [connections]{Concepts & Ideas} is Connection [connection]{Concepts & Ideas} is Connection [nodes]{Anatomy} is Node [connections]{Concepts & Ideas} is Connection [brain]{Anatomy} is Brains [locations]{Anatomy} is Location [left]{Anatomy} is Left Brain Hemisphere [right hemisphere]{Anatomy} is Right Brain Hemisphere [negative]{Disorders} is Negative for [connections]{Concepts & Ideas} is Connection [positive]{Disorders} is Positive for [connections]{Concepts & Ideas} is Connection [negative]{Disorders} is Negative for [brain]{Anatomy} is Brains [connections]{Concepts & Ideas} is Connection [non-neurophysiological effects]{Physiology} is Unknown Physiological Effect [R package "DensParcorr"]{Concepts & Ideas} is Software Tool [CRAN]{Concepts & Ideas} is Intellectual Product [statistical methods]{Procedures} is Statistical Method
[Metabolite] Profiling of [Italian] [Tomato] Landraces with Different [Fruit] Types Increased interest toward traditional [tomato] varieties is fueled by the need to rescue desirable organoleptic traits and to [improve] the quality of fresh and processed [tomatoes] in the [market]. In addition, the phenotypic and genetic variation preserved in [tomato] landraces represents a means to understand the genetic basis of traits related to health and organoleptic aspects and improve them in modern varieties. To establish a framework for this approach, we [studied] the content of several [metabolites] in a panel of [Italian] [tomato] landraces categorized into three broad [fruit] type classes (flattened / ribbed, [pear] / [oxheart], [round] / elongate). Three modern hybrids, corresponding to the three [fruit] [shape] [typologies], were included as reference. [Red ripe fruits] were [morphologically] characterized and biochemically analyzed for their content in [glycoalkaloids], [phenols], [amino acids], and [Amadori products]. The [round] / elongate types showed a higher content in [glycoalkaloids], whereas flattened types had higher levels of [phenolic compounds]. Flattened [tomatoes] were also rich in total [amino acids] and in particular in [glutamic acid]. Multivariate analysis of [amino acid content] clearly separated the three classes of [fruit] types. Making allowance of the very low number of genotypes, phenotype-marker relationships were [analyzed] after retrieving [single nucleotide polymorphisms] ([SNPs]) among the landraces available in the [literature]. Sixty-six [markers] were significantly associated with the [studied] traits. The positions of several of these [SNPs] showed correspondence with already described genomic regions and [QTLs] supporting the reliability of the association. Overall the data indicated that significant changes in quality -related [metabolites] occur depending on the genetic background in traditional [tomato] [germplasm], frequently according to specific [fruit] [shape] categories. Such a variability is suitable to harness association mapping for metabolic quality traits using this [germplasm] as an experimental population, paving the way for investigating their genetic / molecular basis, and facilitating [breeding] for quality-related [compounds] in [tomato] [fruits].	[Metabolite]{Chemicals & Drugs} is Metabolite [Italian]{Geographic Areas} is Italy [Tomato]{Objects} is Tomato [tomato]{Objects} is Tomato [Fruit]{Objects} is Fruit [improve]{Disorders} is Improved [tomatoes]{Objects} is Tomato [market]{Geographic Areas} is Market [tomato]{Objects} is Tomato [studied]{Procedures} is Study [metabolites]{Chemicals & Drugs} is Metabolite [Italian]{Geographic Areas} is Italy [tomato]{Objects} is Tomato [fruit]{Objects} is Fruit [pear]{Objects} is Pear [oxheart]{Objects} is Fruit [round]{Concepts & Ideas} is Round [fruit]{Objects} is Fruit [shape]{Concepts & Ideas} is SHAPE [typologies]{Concepts & Ideas} is General Typologies [Red ripe fruits]{Objects} is Fruit [morphologically]{Concepts & Ideas} is Morphological [glycoalkaloids]{Chemicals & Drugs} is Alkaloids [phenols]{Chemicals & Drugs} is Phenols [amino acids]{Chemicals & Drugs} is Amino acids [Amadori products]{Chemicals & Drugs} is Chemicals, Organic [round]{Concepts & Ideas} is Round [glycoalkaloids]{Chemicals & Drugs} is Alkaloids [phenolic compounds]{Chemicals & Drugs} is Phenols [tomatoes]{Objects} is Tomato [amino acids]{Chemicals & Drugs} is Amino acids [glutamic acid]{Chemicals & Drugs} is Glutamic acid [amino acid content]{Procedures} is Amino acid level [fruit]{Objects} is Fruit [analyzed]{Procedures} is Analyzed [single nucleotide polymorphisms]{Genes & Molecular Sequences} is Single Nucleotide Polymorphisms [SNPs]{Genes & Molecular Sequences} is Single Nucleotide Polymorphisms [literature]{Concepts & Ideas} is Literature [markers]{Genes & Molecular Sequences} is DNA Markers [studied]{Procedures} is Study [SNPs]{Genes & Molecular Sequences} is Single Nucleotide Polymorphisms [QTLs]{Genes & Molecular Sequences} is QTL [metabolites]{Chemicals & Drugs} is Metabolite [tomato]{Objects} is Tomato [germplasm]{Anatomy} is Germ plasm [fruit]{Objects} is Fruit [shape]{Concepts & Ideas} is SHAPE [germplasm]{Anatomy} is Germ plasm [breeding]{Physiology} is Breeding [compounds]{Chemicals & Drugs} is Compound [tomato]{Objects} is Tomato [fruits]{Objects} is Fruit
[Cross-reactivity] features of [deoxynivalenol] ([DON])-targeted [immunoaffinity] columns aiming to achieve simultaneous [analysis] of [DON] and major [conjugates] in [cereal] samples [Immunoafﬁnity] columns (IACs) are a well-established tool in the determination of regulated [mycotoxins] in [food] and [feed commodities]. However, they also have the potential to become attractive pre-concentration and clean-up materials for the determination of masked (also called modified) [mycotoxins], which have been recognised as important contributors to the [toxicological] hazard deriving from fungal spoilage of [goods]. However, the information available in the literature concerning the [cross-reactivity] of [DON] - IACs against the major [conjugates] ([DON-3-G], [15-AcDON] and [3-AcDON]) is incomplete and often contradictory. We have carried out a detailed characterisation of the [cross-reactivity] of the four main IACs brands against [DON] and its [conjugates] as well as an assessment of the competition among the [analytes]. Only one IAC enabled the simultaneous [analysis] of all relevant [DON] forms while two missed [15-AcDON] and the fourth one missed [DON-3-G] and [3-AcDON]. In the case of the multivalent IAC, the [analytes] modified at the C-3 position compete for the [antibody binding] with preference for [3-AcDON] (less spatially hindered) while [DON-3-G] has the more-hindered access to the [active sites]. Taking into consideration the levels of [DON] [conjugates] existing in real samples, the [cross-reactivity] of one [DON] - IAC allows a quantitative analysis of all of these [analytes]. Important but rather neglected aspects such as the continuous supply of IACs with identical characteristics, and of columns which are strictly blank, are also addressed in this paper.	[Immunoafﬁnity]{Procedures} is Immunoaffinity Chromatography [Cross-reactivity]{Physiology} is Cross Reactivity [deoxynivalenol]{Chemicals & Drugs} is Deoxynivalenol [DON]{Chemicals & Drugs} is Deoxynivalenol [immunoaffinity]{Procedures} is Immunoaffinity Chromatography [mycotoxins]{Chemicals & Drugs} is Mycotoxins [food]{Objects} is Food [analysis]{Procedures} is Analysis of substances [feed commodities]{Objects} is Food [DON]{Chemicals & Drugs} is Deoxynivalenol [conjugates]{Chemicals & Drugs} is Derivatives [cereal]{Objects} is Cereal [mycotoxins]{Chemicals & Drugs} is Mycotoxins [toxicological]{Phenomena} is Toxicological Concept [goods]{Objects} is Food [cross-reactivity]{Physiology} is Cross Reactivity [DON]{Chemicals & Drugs} is Deoxynivalenol [conjugates]{Chemicals & Drugs} is Derivatives [DON-3-G]{Chemicals & Drugs} is DON-3-Glc [15-AcDON]{Chemicals & Drugs} is Deoxynivalenol [3-AcDON]{Chemicals & Drugs} is Deoxynivalenol [cross-reactivity]{Physiology} is Cross Reactivity [DON]{Chemicals & Drugs} is Deoxynivalenol [conjugates]{Chemicals & Drugs} is Derivatives [analytes]{Chemicals & Drugs} is Deoxynivalenol [analysis]{Procedures} is Analysis of substances [DON]{Chemicals & Drugs} is Deoxynivalenol [15-AcDON]{Chemicals & Drugs} is Deoxynivalenol [DON-3-G]{Chemicals & Drugs} is DON-3-Glc [3-AcDON]{Chemicals & Drugs} is Deoxynivalenol [analytes]{Chemicals & Drugs} is Deoxynivalenol [antibody binding]{Chemicals & Drugs} is Antibody Binding Site [3-AcDON]{Chemicals & Drugs} is Deoxynivalenol [DON-3-G]{Chemicals & Drugs} is DON-3-Glc [active sites]{Chemicals & Drugs} is Antibody Binding Site [DON]{Chemicals & Drugs} is Deoxynivalenol [conjugates]{Chemicals & Drugs} is Derivatives [cross-reactivity]{Physiology} is Cross Reactivity [DON]{Chemicals & Drugs} is Deoxynivalenol [analytes]{Chemicals & Drugs} is Deoxynivalenol
Improving Early Identification and Ongoing Care of Children With [Autism Spectrum Disorder] Poor adherence to recommended [screening] for [autism spectrum disorder] ([ASD]) and [pediatricians] ' [lack of confidence] in providing care for children with [ASD] reflect quality gaps in [primary care]. This [study] aimed to increase the proportion of toddlers screened for [ASD] and [improve] [physicians] ' [self-efficacy] in providing care to children with [ASD]. Twenty-six Utah [primary care practices] participated in a 3 to 6 month [learning collaborative] ([LC]) to [improve] [identification] and ongoing care of children with [ASD]. Monthly chart audits assessed whether an [ASD] [screening tool] was administered at 18- and 24- month [visits]. [Physicians] completed pre-LC and post-LC [surveys] to assess changes in [self-efficacy] in providing care and changes in [perceived] barriers to implementation of [screening] and caring for children with [ASD]. Before the [LC], 15% of 18- and 24- month [visits] had [documented] [ASD] [screening], compared with 91% during the last month of the [LC] (P < .001). This rate of [ASD] [screening] was sustained 4 years after the [LC] by most practices. Compared with [survey] responses before the [LC], [physicians] reported significant improvement in their ability to care for children with [ASD] and decreases in their [perceived] barriers to [screening] and caring for children with [ASD]. The [LC] was effective in increasing and sustaining recommended [ASD] [screening] of toddlers and improving [physicians] ' perceived [self-efficacy] in caring for children with [ASD]. Improving [primary care] [screening], skills, and knowledge may [improve] the timing of [diagnosis], initiation of [treatment], [quality of care], and outcomes for children with [ASD].	[screening]{Procedures} is Screening Generic [autism spectrum disorder]{Disorders} is Autism or autism spectrum disorder [Autism Spectrum Disorder]{Disorders} is Autism or autism spectrum disorder [ASD]{Disorders} is Autism or autism spectrum disorder [pediatricians]{Living Beings} is Pediatricians [lack of confidence]{Disorders} is Lacks confidence [ASD]{Disorders} is Autism or autism spectrum disorder [primary care]{Procedures} is Primary Care [study]{Procedures} is Study [ASD]{Disorders} is Autism or autism spectrum disorder [improve]{Disorders} is Improved [physicians]{Living Beings} is Physicians [self-efficacy]{Physiology} is Self-Efficacy [ASD]{Disorders} is Autism or autism spectrum disorder [primary care practices]{Procedures} is Primary Care [learning collaborative]{Organizations} is Entity - organization [LC]{Organizations} is Entity - organization [improve]{Disorders} is Improved [identification]{Physiology} is Identification [ASD]{Disorders} is Autism or autism spectrum disorder [ASD]{Disorders} is Autism or autism spectrum disorder [screening tool]{Procedures} is Screening Generic [visits]{Procedures} is Visit [Physicians]{Living Beings} is Physicians [surveys]{Concepts & Ideas} is Surveys [self-efficacy]{Physiology} is Self-Efficacy [perceived]{Physiology} is Perceived [screening]{Procedures} is Screening Generic [ASD]{Disorders} is Autism or autism spectrum disorder [LC]{Organizations} is Entity - organization [visits]{Procedures} is Visit [documented]{Procedures} is Documented [ASD]{Disorders} is Autism or autism spectrum disorder [screening]{Procedures} is Screening Generic [LC]{Organizations} is Entity - organization [ASD]{Disorders} is Autism or autism spectrum disorder [screening]{Procedures} is Screening Generic [LC]{Organizations} is Entity - organization [survey]{Procedures} is Health Survey [LC]{Organizations} is Entity - organization [physicians]{Living Beings} is Physicians [ASD]{Disorders} is Autism or autism spectrum disorder [perceived]{Physiology} is Perceived [screening]{Procedures} is Screening Generic [ASD]{Disorders} is Autism or autism spectrum disorder [LC]{Organizations} is Entity - organization [ASD]{Disorders} is Autism or autism spectrum disorder [screening]{Procedures} is Screening Generic [physicians]{Living Beings} is Physicians [self-efficacy]{Physiology} is Self-Efficacy [ASD]{Disorders} is Autism or autism spectrum disorder [primary care]{Procedures} is Primary Care [screening]{Procedures} is Screening Generic [improve]{Disorders} is Improved [diagnosis]{Procedures} is DIAGNOSIS [treatment]{Procedures} is Treatments [quality of care]{Procedures} is Quality of Care [ASD]{Disorders} is Autism or autism spectrum disorder
Describing Self-Care [Self-Efficacy]: [Definition], Measurement, Outcomes, and Implications The [pragmatic utility method] of concept [analysis] was used to explore the usefulness of the concept self-care [self-efficacy]. Empirical studies across disciplines published between 1996 and 2015 were used as data. A data matrix was developed. Analytical questions and [responses] were derived from the data to understand patterns, develop new [knowledge] and achieve synthesis. Usefulness of the concept is contingent on how it is defined and measured. Self-care [self-efficacy] is associated with performance of self-care activities and [positive] health outcomes in diverse [populations]. [Research] can guide development of targeted [interventions] to increase patients ' self-care [self-efficacy], thus reducing costs, and [assisting] [people] to achieve optimal health.	[pragmatic utility method]{Procedures} is Pragmatic Clinical Trial [Self-Efficacy]{Physiology} is Self-Efficacy [Definition]{Concepts & Ideas} is Definition [analysis]{Procedures} is Analyzed [self-efficacy]{Physiology} is Self-Efficacy [responses]{Concepts & Ideas} is Response [knowledge]{Concepts & Ideas} is Knowledge [self-efficacy]{Physiology} is Self-Efficacy [positive]{Disorders} is Positive for [populations]{Living Beings} is Population [Research]{Procedures} is Research [interventions]{Procedures} is Nursing interventions [self-efficacy]{Physiology} is Self-Efficacy [assisting]{Procedures} is Assisting - action [people]{Living Beings} is People
Dynamics of [intestinal] [metabolites] and morphology in response to [necrotic enteritis] [challenge] in [broiler chickens] Despite the relatively small contribution to metabolizable energy that [volatile fatty acids] ([VFAs]) provide in [chickens], these [organic acids] have been [reported] to play beneficial roles in the [gastrointestinal tract] ([GIT]) of [birds], for example, [inhibition of the growth] of some pathogenic [bacteria]. However, information regarding the dynamics of these [metabolites] in the [GIT] of [chickens] is still scarce, especially under [disease conditions] such as [necrotic enteritis] ([NE]). Here, we investigated the dynamics of [VFAs] and [lactic acid], and [intestinal] morphology in response to [NE] predisposing factors, that is, excessive [dietary] fishmeal and [Eimeria] [inoculation], and [causative agent] [Clostridium perfringens] producing [NetB toxin]. The [experiment] was [designed] in a 2 × 2 × 2 factorial [arrangement] of [treatments] with or without: fishmeal feeding, [Eimeria] [inoculation] and [C. perfringens] [challenge]. The results showed that these factors significantly influenced [composition] and concentration of [VFAs] and [lactic acids], pH and histomorphometry in one way or another. These changes may be important for the onset of [NE] or only the synergetic responses to micro environmental [stress]. [Eimeria] appeared to be more important than fishmeal in predisposing [birds] to [NE], thus the application of [Eimeria] in [NE] [challenge] provides more consistent success in inducing the [disease]. The metabolic responses to various [adverse] factors such as excessive [dietary] fishmeal and [Eimeria] [infection] are complex. Thus, intensive [efforts] are required to better [understand] [NE] so as to achieve the [control of the disease] in the absence of [antibiotics].	[intestinal]{Anatomy} is Intestinal [metabolites]{Chemicals & Drugs} is Metabolite [necrotic enteritis]{Disorders} is Necrotic enteritis [volatile fatty acids]{Chemicals & Drugs} is Volatile Fatty Acids [challenge]{Procedures} is Challenge [VFAs]{Chemicals & Drugs} is Volatile Fatty Acids [broiler chickens]{Living Beings} is Broiler Chicken [chickens]{Living Beings} is Broiler Chicken [organic acids]{Chemicals & Drugs} is Organic acid [reported]{Procedures} is Reporting [gastrointestinal tract]{Anatomy} is Gastrointestinal Tract [GIT]{Anatomy} is Gastrointestinal Tract [birds]{Living Beings} is Birds [inhibition of the growth]{Physiology} is Inhibition of growth [bacteria]{Living Beings} is BACTERIA [metabolites]{Chemicals & Drugs} is Metabolite [GIT]{Anatomy} is Gastrointestinal Tract [chickens]{Living Beings} is Broiler Chicken [disease conditions]{Disorders} is Disease condition finding [necrotic enteritis]{Disorders} is Necrotic enteritis [NE]{Disorders} is Necrotic enteritis [VFAs]{Chemicals & Drugs} is Volatile Fatty Acids [lactic acid]{Chemicals & Drugs} is Lactic acid [intestinal]{Anatomy} is Intestinal [NE]{Disorders} is Necrotic enteritis [dietary]{Objects} is Dietary [Eimeria]{Living Beings} is Eimerias [inoculation]{Procedures} is Inoculate [causative agent]{Disorders} is Causative agent [Clostridium perfringens]{Living Beings} is Clostridium perfringens [NetB toxin]{Chemicals & Drugs} is NetB toxin, Clostridium perfringes [experiment]{Procedures} is Animal Experiment [designed]{Procedures} is EXPER DESIGN [arrangement]{Procedures} is Arrangement of care [treatments]{Procedures} is Treatments [Eimeria]{Living Beings} is Eimerias [inoculation]{Procedures} is Inoculate [C. perfringens]{Living Beings} is Clostridium perfringens [challenge]{Procedures} is Challenge [composition]{Physiology} is Composition [VFAs]{Chemicals & Drugs} is Volatile Fatty Acids [lactic acids]{Chemicals & Drugs} is Lactic acid [NE]{Disorders} is Necrotic enteritis [stress]{Disorders} is State of stress [Eimeria]{Living Beings} is Eimerias [birds]{Living Beings} is Birds [NE]{Disorders} is Necrotic enteritis [Eimeria]{Living Beings} is Eimerias [NE]{Disorders} is Necrotic enteritis [challenge]{Procedures} is Challenge [disease]{Disorders} is Disease [adverse]{Disorders} is Adverse effects [dietary]{Objects} is Dietary [Eimeria]{Living Beings} is Eimerias [infection]{Disorders} is Infections [efforts]{Physiology} is Effort [understand]{Physiology} is Understanding [NE]{Disorders} is Necrotic enteritis [control of the disease]{Procedures} is Infectious disease prevention / control [antibiotics]{Chemicals & Drugs} is Antibiotics
[Ehlers-Danlos syndrome] The [Ehlers-Danlos syndromes] ([EDSs]) were originally [described] by [Ehlers] in [Denmark] and [Danlos] in [Paris] in 1898 and 1908, respectively. They had both published individual [case studies] in which the common factor was [laxity of ligaments] leading to [joint hypermobility] and [hyperextensibility of the skin]. The choice of the [name] of this [eponymous disease] had been made by [Dr Parkes Weber], an eminent [London] [physician] in the 1930s, who had a penchant for [eponymous diseases], having had no less than seven attributed to himself, at least in part. Unfortunately, this was before the age of a [computerised literature] search, and [Parkes Weber] had inadvertently overlooked the very first [description] of [EDS] which had been made by [Tchernabogov], a [Russian] [dermatologist], whose [description] was published in 1891 and remains one of the best [descriptions] of [EDS] in the [literature].	[Ehlers-Danlos syndrome]{Disorders} is Ehlers-danlos syndrome [Ehlers-Danlos syndromes]{Disorders} is Ehlers-danlos syndrome [EDSs]{Disorders} is Ehlers-danlos syndrome [described]{Concepts & Ideas} is DESCR [Ehlers]{Living Beings} is Human [Denmark]{Geographic Areas} is Denmark [Danlos]{Living Beings} is Human [Paris]{Geographic Areas} is Paris, France [case studies]{Concepts & Ideas} is Case Studies [laxity of ligaments]{Disorders} is Laxity of ligaments [joint hypermobility]{Disorders} is Joint Hypermobility [hyperextensibility of the skin]{Disorders} is Hyperextensibility of the skin [name]{Concepts & Ideas} is Names [eponymous disease]{Concepts & Ideas} is Intellectual Product [Dr Parkes Weber]{Living Beings} is Human [London]{Geographic Areas} is London [physician]{Living Beings} is Physician [eponymous diseases]{Concepts & Ideas} is Intellectual Product [computerised literature]{Concepts & Ideas} is Literature [Parkes Weber]{Living Beings} is Human [description]{Concepts & Ideas} is DESCR [EDS]{Disorders} is Ehlers-danlos syndrome [Tchernabogov]{Living Beings} is Human [Russian]{Living Beings} is Russian [dermatologist]{Living Beings} is Dermatologist [description]{Concepts & Ideas} is DESCR [descriptions]{Concepts & Ideas} is DESCR [EDS]{Disorders} is Ehlers-danlos syndrome [literature]{Concepts & Ideas} is Literature
[Assessment] of [laparoscopic stomach preserving surgery] with [sentinel basin dissection] versus standard [gastrectomy] with [lymphadenectomy] in [early gastric cancer] -A [multicenter randomized phase III clinical trial (SENORITA trial) protocol] Along with the marked increase in [early gastric cancer] ([EGC]) in the [Eastern countries], there has been an effort to adopt the [sentinel node] concept in [EGC] to preserve [gastric function] and reduce the occurrence of [postoperative complications]. Based on promising results from a [previous quality control study], this [prospective multicenter randomized controlled phase III clinical trial] aims to elucidate the [oncologic] [safety] of [laparoscopic stomach-preserving surgery] with [sentinel basin dissection] ([SBD]) compared to a standard [laparoscopic] [gastrectomy]. This trial is an investigator-initiated, open-label, [multicenter randomized controlled phase III trial] with a [non-inferiority design]. Patients diagnosed with a [single lesion] of clinical stage T1N0M0 [gastric adenocarcinoma], with a diameter of 3 cm or less are eligible for the present study. A total of 580 patients (290 per group) will be [randomized] to either [laparoscopic stomach-preserving surgery] with [SBD] or [standard surgery]. The primary end-point is 3-year disease-free survival (DFS) and the secondary endpoints include postoperative morbidity and mortality, quality of life, 5-year DFS, and overall survival. [Qualified investigators] who completed the prior quality control study are exclusively allowed to participate in this [phase III clinical trial]. The proposed trial is expected to verify whether [laparoscopic stomach-preserving surgery] with [SBD] achieves similar [oncologic outcomes] and improved quality of life compared to a [standard gastrectomy] in [EGC] patients. This study was registered at the NIH ClinicalTrial.gov database (NCT01804998) on March 4th, 2013.	[Assessment]{Procedures} is Assessment - action [laparoscopic stomach preserving surgery]{Procedures} is Laparoscopic Procedures on the Stomach [early gastric cancer]{Disorders} is Early gastric cancer [EGC]{Disorders} is Early gastric cancer [sentinel basin dissection]{Procedures} is Dissection, Lymph Node [Eastern countries]{Geographic Areas} is Geographic Region [gastrectomy]{Procedures} is Gastrectomy [lymphadenectomy]{Procedures} is Lymphadenectomy [sentinel node]{Anatomy} is Sentinel Node [early gastric cancer]{Disorders} is Early gastric cancer [EGC]{Disorders} is Early gastric cancer [multicenter randomized phase III clinical trial (SENORITA trial) protocol]{Procedures} is Phase III Clinical Trial [gastric function]{Physiology} is Gastric function [postoperative complications]{Disorders} is Postoperative Complications [previous quality control study]{Procedures} is Historical Control Study [prospective multicenter randomized controlled phase III clinical trial]{Procedures} is Phase III Clinical Trial [oncologic]{Occupations} is Oncologic (qualifier value) [safety]{Procedures} is SAFETY [laparoscopic stomach-preserving surgery]{Procedures} is Laparoscopic Procedures on the Stomach [sentinel basin dissection]{Procedures} is Dissection, Lymph Node [SBD]{Procedures} is Dissection, Lymph Node [laparoscopic]{Concepts & Ideas} is Laparoscopic [gastrectomy]{Procedures} is Gastrectomy [multicenter randomized controlled phase III trial]{Procedures} is Phase III Clinical Trial [non-inferiority design]{Procedures} is EXPER DESIGN [single lesion]{Disorders} is Single lesion [gastric adenocarcinoma]{Disorders} is Gastric adenocarcinoma [randomized]{Disorders} is RANDOMIZED [laparoscopic stomach-preserving surgery]{Procedures} is Laparoscopic Procedures on the Stomach [SBD]{Procedures} is Dissection, Lymph Node [standard surgery]{Procedures} is Gastrectomy [Qualified investigators]{Living Beings} is INVESTIGATORS CLIN [phase III clinical trial]{Procedures} is Phase III Clinical Trial [laparoscopic stomach-preserving surgery]{Procedures} is Laparoscopic Procedures on the Stomach [SBD]{Procedures} is Dissection, Lymph Node [oncologic outcomes]{Disorders} is Disease Outcome [standard gastrectomy]{Procedures} is Gastrectomy [EGC]{Disorders} is Early gastric cancer
Association of [Metabolites] with [Obesity] and [Type 2 Diabetes] Based on [FTO] Genotype The [single nucleotide polymorphism] [rs9939609 of the gene FTO], which encodes fat mass and [obesity] -associated [protein], is strongly associated with [obesity] and [type 2 diabetes] ([T2D]) in multiple [populations]; however, the underlying mechanism of this association is unclear. The present [study] aimed to investigate [FTO] genotype -dependent [metabolic] changes in [obesity] and [T2D]. To elucidate metabolic dysregulation associated with [disease risk] genotype, [genomic] and [metabolomic datasets] were recruited from 2,577 [participants] of the [Korean Association REsource (KARE) cohort], including 40 homozygous [carriers] of the [FTO] risk [allele (AA)], 570 heterozygous [carriers] (AT), and 1,967 [participants] carrying no risk [allele (TT)]. A total of 134 [serum] [metabolites] were quantified using a targeted [metabolomics] approach. Through comparison of various [statistical methods], seven [metabolites] were identified that are significantly altered in [obesity] and [T2D] based on the [FTO] risk [allele] (adjusted p < 0.05). These identified [metabolites] are relevant to [phosphatidylcholine] metabolic pathway, and previously reported to be [metabolic markers] of [obesity] and [T2D]. In conclusion, using [metabolomics] with the information from [genome-wide association studies] revealed significantly altered [metabolites] depending on the [FTO] genotype in complex disorders. This [study] may contribute to a better understanding of the biological mechanisms linking [obesity] and [T2D].	[single nucleotide polymorphism]{Genes & Molecular Sequences} is Single Nucleotide Polymorphism [Metabolites]{Chemicals & Drugs} is Metabolite [Obesity]{Disorders} is Obesity (disorder) [rs9939609 of the gene FTO]{Genes & Molecular Sequences} is FTO [Type 2 Diabetes]{Disorders} is Type 2 Diabetes [FTO]{Genes & Molecular Sequences} is FTO [obesity]{Disorders} is Obesity (disorder) [protein]{Chemicals & Drugs} is Protein [obesity]{Disorders} is Obesity (disorder) [type 2 diabetes]{Disorders} is Type 2 Diabetes [T2D]{Disorders} is Type 2 Diabetes [populations]{Living Beings} is Population [study]{Procedures} is Study [FTO]{Genes & Molecular Sequences} is FTO [metabolic]{Physiology} is Metabolic process [obesity]{Disorders} is Obesity (disorder) [T2D]{Disorders} is Type 2 Diabetes [disease risk]{Physiology} is Disease Susceptibility (Disease/Finding) [genomic]{Concepts & Ideas} is Data Set [metabolomic datasets]{Concepts & Ideas} is Data Set [participants]{Living Beings} is Participant [Korean Association REsource (KARE) cohort]{Living Beings} is Cohort [carriers]{Disorders} is CARRIERS GENET [FTO]{Genes & Molecular Sequences} is FTO [allele (AA)]{Genes & Molecular Sequences} is Allele [carriers]{Disorders} is CARRIERS GENET [participants]{Living Beings} is Participant [allele (TT)]{Genes & Molecular Sequences} is Allele [serum]{Anatomy} is Serum [metabolites]{Chemicals & Drugs} is Metabolite [metabolomics]{Occupations} is Metabolomics [statistical methods]{Procedures} is Statistical Method [metabolites]{Chemicals & Drugs} is Metabolite [obesity]{Disorders} is Obesity (disorder) [T2D]{Disorders} is Type 2 Diabetes [FTO]{Genes & Molecular Sequences} is FTO [allele]{Genes & Molecular Sequences} is Allele [metabolites]{Chemicals & Drugs} is Metabolite [phosphatidylcholine]{Chemicals & Drugs} is Phosphatidylcholine [metabolic markers]{Chemicals & Drugs} is Metabolic Marker [obesity]{Disorders} is Obesity (disorder) [T2D]{Disorders} is Type 2 Diabetes [metabolomics]{Occupations} is Metabolomics [genome-wide association studies]{Procedures} is Genome-Wide Association Studies [metabolites]{Chemicals & Drugs} is Metabolite [FTO]{Genes & Molecular Sequences} is FTO [study]{Procedures} is Study [obesity]{Disorders} is Obesity (disorder) [T2D]{Disorders} is Type 2 Diabetes
[Anthology] of Venezuelan [psychiatry] Reception of [Psychiatry] in [Venezuela] since the 19th Century to the late 20th Century merits a historical approach. The following work proposes to [research] some of the very origins of Venezuelan [psychiatry] and its possible influence on contemporary [mental health practice]. Through documental research, the early works of [local authors] from the 19th Century through 20th Century finals: [Carlos Arvelo], [Lisandro Alvarado], [Francisco Herrera Luque], [Jose Luis Vethencourt] and [Jose Solanes], are subjected to study. This journey illustrates a descriptive panoramic view which allows to better comprenhend the current state of our [psychiatry]. In a brief introduction the most important events are described, since the arrival of [Pinel's] ideas, followed by the early research paperworks published and the beginnings of the academic teachings of this specialty in [Venezuela] and displaying the main contemporary research groups [thorough the country].	[Anthology]{Concepts & Ideas} is Collections (publication) [Psychiatry]{Occupations} is Psychiatry [psychiatry]{Occupations} is Psychiatry [Venezuela]{Geographic Areas} is Venezuela [research]{Procedures} is Research [psychiatry]{Occupations} is Psychiatry [mental health practice]{Procedures} is Health Care [local authors]{Living Beings} is Authors [Carlos Arvelo]{Living Beings} is Human [Lisandro Alvarado]{Living Beings} is Human [Francisco Herrera Luque]{Living Beings} is Human [Jose Luis Vethencourt]{Living Beings} is Human [Jose Solanes]{Living Beings} is Human [psychiatry]{Occupations} is Psychiatry [Pinel's]{Living Beings} is Human [Venezuela]{Geographic Areas} is Venezuela [thorough the country]{Geographic Areas} is Venezuela
How variation [between] [individuals] affects [species] coexistence Although the effects of variation [between] [individuals] within [species] are traditionally ignored in [studies] of [species] coexistence, the magnitude of intraspecific variation in nature is forcing [ecologists] to reconsider. Compelling intuitive arguments suggest that [individual] variation may provide a previously unrecognised [route] to diversity maintenance by blurring [species] - level competitive differences or substituting for [species] - level niche differences. These arguments, which are [motivating] a large [body] of empirical work, have rarely been evaluated with quantitative theory. Here we incorporate intraspecific variation into a common [model] of competition and identify three pathways by which this variation affects coexistence: (1) changes in competitive [dynamics] because of nonlinear averaging, (2) changes in [species] ' mean interaction strengths because of variation in underlying traits (also via nonlinear averaging) and (3) effects on stochastic demography. As a consequence of the first two mechanisms, we [find] that intraspecific variation in competitive ability increases the dominance of superior [competitors], and intraspecific niche variation reduces [species] - level niche differentiation, both of which make coexistence more difficult. In addition, [individual] variation can exacerbate the effects of demographic stochasticity, and this further destabilises coexistence. Our work provides a [theoretical foundation] for emerging empirical [interests] in the effects of intraspecific variation on [species] diversity.	[between]{Concepts & Ideas} is Between [individuals]{Living Beings} is Individual (person) [between]{Concepts & Ideas} is Between [species]{Concepts & Ideas} is Species [individuals]{Living Beings} is Individual (person) [species]{Concepts & Ideas} is Species [studies]{Procedures} is Study [species]{Concepts & Ideas} is Species [ecologists]{Living Beings} is Ecologist [individual]{Living Beings} is Individual (person) [route]{Concepts & Ideas} is Route [species]{Concepts & Ideas} is Species [species]{Concepts & Ideas} is Species [motivating]{Physiology} is Motivation finding [body]{Concepts & Ideas} is Structural [model]{Concepts & Ideas} is Model [dynamics]{Concepts & Ideas} is Non linear Dynamics [species]{Concepts & Ideas} is Species [find]{Disorders} is Finding (finding) [competitors]{Living Beings} is Group (social concept) [species]{Concepts & Ideas} is Species [individual]{Living Beings} is Individual (person) [theoretical foundation]{Procedures} is Theoretical Study [interests]{Physiology} is Interest [species]{Concepts & Ideas} is Species
[Intracellular Metabolism] of α,β-Unsaturated Carbonyl Compounds, [Acrolein], [Crotonaldehyde] and [Methyl Vinyl Ketone], Active Toxicants in [Cigarette Smoke]: Participation of [Glutathione] [Conjugation] Ability and [Aldehyde-Ketone Sensitive Reductase Activity] The major toxicants in [cigarette smoke], [α,β-unsaturated aldehydes], such as [acrolein] ([ACR]) and [crotonaldehyde] ([CA]), and [α,β-unsaturated ketone], [methyl vinyl ketone] ([MVK]), are known to form Michael-type adducts with [glutathione] ([GSH]) and consequently cause [intracellular] [GSH] depletion, which is involved in [cigarette smoke] - induced [cytotoxicity]. We have previously clarified that exposure to [cigarette smoke extract] ([CSE]) of a [mouse] [melanoma cell] [culture medium] causes rapid reduction of [intracellular] [GSH] levels, and that the [GSH] - [MVK] adduct can be [detected] by [LC/MS analysis] while the [GSH] - [CA] adduct is hardly [detected]. In the present [study], to clarify why the [GSH] - [CA] adduct is difficult to [detect] in the [cell] [medium], we conducted detailed investigation of the [structures] of the reaction products of [ACR], [CA], [MVK] and [CSE] in the [GSH] solution or the [cell] [culture medium]. The [mass spectra] indicated that in the presence of the [cells], the [GSH] - [CA] and [GSH] - [ACR] adducts were almost not [detected] while their [corresponding alcohols] were [detected]. On the other hand, both the [GSH] - [MVK] adducts and their reduced products were [detected]. In the absence of the [cells], the reaction of [GSH] with all α,β-unsaturated carbonyls produced only their corresponding adducts. These results show that the [GSH] adducts of [α,β-unsaturated aldehydes], [CA] and [ACR], are quickly reduced by certain [intracellular] [carbonyl reductase(s)] and excreted from the [cells], unlike the [GSH] adduct of [α,β-unsaturated ketone], [MVK]. Such a difference in reactivity to the [carbonyl reductase] might be related to differences in the [cytotoxicity] of [α,β-unsaturated aldehydes] and [ketones].	[Intracellular Metabolism]{Physiology} is Cellular metabolism [cigarette smoke]{Chemicals & Drugs} is Cigarette smoke [α,β-unsaturated aldehydes]{Chemicals & Drugs} is Aldehydes [Acrolein]{Chemicals & Drugs} is Acrolein [Crotonaldehyde]{Chemicals & Drugs} is Crotonaldehyde [acrolein]{Chemicals & Drugs} is Acrolein [ACR]{Chemicals & Drugs} is Acrolein [Methyl Vinyl Ketone]{Chemicals & Drugs} is Methyl vinyl ketone [crotonaldehyde]{Chemicals & Drugs} is Crotonaldehyde [CA]{Chemicals & Drugs} is Crotonaldehyde [α,β-unsaturated ketone]{Chemicals & Drugs} is Ketone [Cigarette Smoke]{Chemicals & Drugs} is Cigarette smoke [methyl vinyl ketone]{Chemicals & Drugs} is Methyl vinyl ketone [MVK]{Chemicals & Drugs} is Methyl vinyl ketone [Glutathione]{Chemicals & Drugs} is Glutathione [Conjugation]{Physiology} is Molecular function [Aldehyde-Ketone Sensitive Reductase Activity]{Physiology} is Aldehyde reductase 1 [glutathione]{Chemicals & Drugs} is Glutathione [GSH]{Chemicals & Drugs} is Glutathione [intracellular]{Concepts & Ideas} is Intracellular [GSH]{Chemicals & Drugs} is Glutathione [cigarette smoke]{Chemicals & Drugs} is Cigarette smoke [cytotoxicity]{Disorders} is Cytotoxicity [cigarette smoke extract]{Chemicals & Drugs} is Cigarette smoke [CSE]{Chemicals & Drugs} is Cigarette smoke [mouse]{Living Beings} is Laboratory Mouse [melanoma cell]{Anatomy} is Melanoma Cell [culture medium]{Chemicals & Drugs} is Culture medium [intracellular]{Concepts & Ideas} is Intracellular [GSH]{Chemicals & Drugs} is Glutathione [GSH]{Chemicals & Drugs} is Glutathione [MVK]{Chemicals & Drugs} is Methyl vinyl ketone [detected]{Disorders} is Detected [LC/MS analysis]{Procedures} is LC/MS [GSH]{Chemicals & Drugs} is Glutathione [CA]{Chemicals & Drugs} is Crotonaldehyde [detected]{Disorders} is Detected [study]{Procedures} is Study [GSH]{Chemicals & Drugs} is Glutathione [CA]{Chemicals & Drugs} is Crotonaldehyde [detect]{Disorders} is Detected [cell]{Anatomy} is Melanoma Cell [medium]{Chemicals & Drugs} is Culture medium [structures]{Concepts & Ideas} is 3D Molecular Structures [ACR]{Chemicals & Drugs} is Acrolein [CA]{Chemicals & Drugs} is Crotonaldehyde [MVK]{Chemicals & Drugs} is Methyl vinyl ketone [CSE]{Chemicals & Drugs} is Cigarette smoke [GSH]{Chemicals & Drugs} is Glutathione [cell]{Anatomy} is Melanoma Cell [culture medium]{Chemicals & Drugs} is Culture medium [mass spectra]{Procedures} is Mass Spectrum [cells]{Anatomy} is Melanoma Cell [GSH]{Chemicals & Drugs} is Glutathione [CA]{Chemicals & Drugs} is Crotonaldehyde [GSH]{Chemicals & Drugs} is Glutathione [ACR]{Chemicals & Drugs} is Acrolein [detected]{Disorders} is Detected [corresponding alcohols]{Chemicals & Drugs} is Alcohols [detected]{Disorders} is Detected [GSH]{Chemicals & Drugs} is Glutathione [MVK]{Chemicals & Drugs} is Methyl vinyl ketone [detected]{Disorders} is Detected [cells]{Anatomy} is Melanoma Cell [GSH]{Chemicals & Drugs} is Glutathione [GSH]{Chemicals & Drugs} is Glutathione [α,β-unsaturated aldehydes]{Chemicals & Drugs} is Aldehydes [CA]{Chemicals & Drugs} is Crotonaldehyde [ACR]{Chemicals & Drugs} is Acrolein [intracellular]{Concepts & Ideas} is Intracellular [carbonyl reductase(s)]{Chemicals & Drugs} is Carbonyl reductase (NADPH) [cells]{Anatomy} is Melanoma Cell [GSH]{Chemicals & Drugs} is Glutathione [α,β-unsaturated ketone]{Chemicals & Drugs} is Ketone [MVK]{Chemicals & Drugs} is Methyl vinyl ketone [carbonyl reductase]{Physiology} is Aldehyde reductase 1 [cytotoxicity]{Disorders} is Cytotoxicity [α,β-unsaturated aldehydes]{Chemicals & Drugs} is Aldehydes [ketones]{Chemicals & Drugs} is Ketone
[Strategies] for [Assaying] [Lysosomal Membrane] [Permeabilization] [Late endosomal] [organelles] have an acidic pH and contain [hydrolytic enzymes] to degrade cargo delivered either from the [extracellular] [environment] by [endocytosis] or from within the [cell] itself by [autophagy]. In the event of [lysosomal membrane] [permeabilization] ([LMP]), the contents of [late endosomes] and [lysosomes] can be released into the [cytosol] and then initiate [apoptosis]. Compounds that can trigger [LMP] are therefore candidates for the induction of [apoptosis], in particular in [anticancer therapy]. Alternatively, [drug-delivery systems], such as nanoparticles, can have side effects that can include [LMP], which has [toxic consequences] for the [cells]. To determine when, to what extent, and with what consequences [LMP] occurs is therefore of paramount importance for the [evaluation] of new potentially [LMP] - inducing compounds. In this introduction, we provide an overview of some [basic assays] for assessing [LMP], such as staining with [lysosomotropic dyes] and measurement of [cysteine] [cathepsin] [activity], and discuss additional [strategies] for the [detection] of the release of endogenous [lysosomal] molecules or preloaded exogenous [tracers] into the [cytosol].	[Strategies]{Procedures} is Intervention Strategies [Late endosomal]{Anatomy} is Late endosome [Assaying]{Procedures} is Assay technique [organelles]{Anatomy} is Organelles [Lysosomal Membrane]{Anatomy} is Lysosomal membrane [Permeabilization]{Physiology} is Cell Function [hydrolytic enzymes]{Chemicals & Drugs} is Hydrolase [extracellular]{Anatomy} is Extracellular [environment]{Concepts & Ideas} is Environment [endocytosis]{Physiology} is Endocytosis [cell]{Anatomy} is Cell Type [autophagy]{Physiology} is Autophagy [lysosomal membrane]{Anatomy} is Lysosomal membrane [permeabilization]{Physiology} is Cell Function [LMP]{Physiology} is Cell Function [late endosomes]{Anatomy} is Late endosome [lysosomes]{Anatomy} is Lysosomes [cytosol]{Anatomy} is Cytosols [apoptosis]{Physiology} is Apoptosis [LMP]{Physiology} is Cell Function [apoptosis]{Physiology} is Apoptosis [anticancer therapy]{Procedures} is Anticancer therapy [drug-delivery systems]{Devices} is Drug Delivery Systems [LMP]{Physiology} is Cell Function [toxic consequences]{Disorders} is Toxic effect [cells]{Anatomy} is Cell Type [LMP]{Physiology} is Cell Function [evaluation]{Procedures} is Evaluations [LMP]{Physiology} is Cell Function [basic assays]{Procedures} is Assay technique [LMP]{Physiology} is Cell Function [lysosomotropic dyes]{Chemicals & Drugs} is Dyes [cysteine]{Chemicals & Drugs} is Cysteine [cathepsin]{Chemicals & Drugs} is Cathepsin [activity]{Physiology} is Enzyme activity [strategies]{Procedures} is Intervention Strategies [detection]{Procedures} is Detection [lysosomal]{Anatomy} is Lysosomes [tracers]{Chemicals & Drugs} is Tracer [cytosol]{Anatomy} is Cytosols
Stimulation of [cell proliferation] by [glutathione monoethyl ester] in [aged bone marrow stromal cells] is associated with the assistance of [TERT] [gene expression] and [telomerase activity] The [proliferation] and [differentiation] potential of [aged bone marrow stromal cells] ([BMSCs]) are significantly reduced. In order to [improve] the performance of the aged [BMSCs], these [cells] were treated with 2 mM [glutathione monoethyl ester] ([GSH-MEE]) for 24 h. [Proliferation] rate, [telomerase activity], [telomere] length, and [differentiation] to [cholinergic neuron-like cells] ([CNLCs]) were observed to increase. Though, the expression level of [telomerase reverse transcriptase gene] increased, but [CTC1] and [TEN1 genes] from [Ctc1-Stn1-Ten1 complex] encoding [proteins] with [regulatory function] significantly decreased. [Trypan blue exclusion assay] was used to analyze the [proliferation] and, while [telomere] length, its several related [gene expressions], and [telomerase activity] were measured using the [real time reverse transcription-polymerase chain reaction] and [polymerase chain reaction] [enzyme-linked immunosorbent assay techniques], respectively. [CNLCs] [differentiation] potential was evaluated by estimating the percentage of [choline acetyltransferase] [immunereactive cells] .The results suggested that [GSH-MEE] could [improve] aged [rat] [BMSC] properties and would be of potential benefit for enhancing the performance of [aged people's] [BMSCs].	[proliferation]{Physiology} is Cell proliferation [cell proliferation]{Physiology} is Cell proliferation [differentiation]{Physiology} is Cell Differentiation [glutathione monoethyl ester]{Chemicals & Drugs} is Glutathione monoethyl ester [aged bone marrow stromal cells]{Anatomy} is Bone Marrow Stromal Cells [aged bone marrow stromal cells]{Anatomy} is Bone Marrow Stromal Cells [BMSCs]{Anatomy} is Bone Marrow Stromal Cells [improve]{Disorders} is Improved [TERT]{Genes & Molecular Sequences} is TERT Gene [gene expression]{Physiology} is Gene Expression [telomerase activity]{Physiology} is Telomerase activity [BMSCs]{Anatomy} is Bone Marrow Stromal Cells [cells]{Anatomy} is Cells set [glutathione monoethyl ester]{Chemicals & Drugs} is Glutathione monoethyl ester [GSH-MEE]{Chemicals & Drugs} is Glutathione monoethyl ester [Proliferation]{Physiology} is Cell proliferation [telomerase activity]{Physiology} is Telomerase activity [telomere]{Anatomy} is Telomere [differentiation]{Physiology} is Cell Differentiation [cholinergic neuron-like cells]{Anatomy} is Cholinergic Neuron [CNLCs]{Anatomy} is Cholinergic Neuron [telomerase reverse transcriptase gene]{Genes & Molecular Sequences} is TERT Gene [CTC1]{Genes & Molecular Sequences} is CTC1 [TEN1 genes]{Genes & Molecular Sequences} is TEN1 gene [Ctc1-Stn1-Ten1 complex]{Anatomy} is Cell component [proteins]{Chemicals & Drugs} is Proteins [regulatory function]{Physiology} is Gene Action Regulation [Trypan blue exclusion assay]{Procedures} is ASSAY BIOL [proliferation]{Physiology} is Cell proliferation [telomere]{Anatomy} is Telomere [gene expressions]{Physiology} is Gene Expression [telomerase activity]{Physiology} is Telomerase activity [real time reverse transcription-polymerase chain reaction]{Procedures} is Reverse Transcription Polymerase Chain Reaction [polymerase chain reaction]{Procedures} is Polymerase Chain Reaction [enzyme-linked immunosorbent assay techniques]{Procedures} is Enzyme-linked immunosorbent assay [CNLCs]{Anatomy} is Cholinergic Neuron [differentiation]{Physiology} is Cell Differentiation [choline acetyltransferase]{Genes & Molecular Sequences} is CHOLINE ACETYLTRANSFERASE [immunereactive cells]{Anatomy} is Cells set [GSH-MEE]{Chemicals & Drugs} is Glutathione monoethyl ester [improve]{Disorders} is Improved [rat]{Living Beings} is Rat (organism) [BMSC]{Anatomy} is Bone Marrow Stromal Cells [aged people's]{Living Beings} is People [BMSCs]{Anatomy} is Bone Marrow Stromal Cells
[Wild food plants] and [fungi] used in the [mycophilous] [Tibetan] community of [Zhagana] ([Tewo County], [Gansu], [China]) The aim of the [study] was to investigate [knowledge] and use of [wild food plants] and [fungi] in a highland [valley] in the [Gannan Tibetan Autonomous Region] on the north-eastern edges of the [Tibetan Plateau]. Field research was carried out in four neighbouring [villages] in a [mountain] [valley] of the [Diebu (Tewo) county], surrounded by spruce forests. The [study] consisted of 30 interviews with single informants, or [group interviews] (altogether 63 informants). Apart from collecting voucher specimens, we also identified [fungi] using [DNA barcoding]. We recorded the use of 54 [species] of [vascular plants]. We also recorded the use of 22 [mushroom taxa], which made up the largest category of [wild foods]. [Fruits] formed the largest category of [food plants], with 21 [species], larger than the [wild greens] category, which consisted of 20 [species] [eaten] after boiling or frying and 7 as raw [snacks]. We also recorded the alimentary use of 10 [species] of [edible flowers] and 3 [species] with underground [edible organs]. On average, 20.8 [edible taxa] were listed per interview (median - 21). The most listed category of [wild foods] was [green vegetables] (mean - 7.5 [species], median - 8 [species]), but [fruits] and [mushrooms] were listed nearly as frequently (mean - 6.3, median - 6 and mean - 5.8, - median 6 respectively). Other category lists were very short, e.g., [flowers] (mean - 1.3, median - 1) and underground [edible parts] (mean - 0.7, median - 1). [Wild vegetables] are usually boiled and/or fried and served as side-dishes, or their [green parts] are [eaten] as [snacks] during [mountain] treks (e.g., [peeled rhubarb shoots]). [Wild fruits] are mainly collected by children and [eaten] raw, they are not stored for further use. The most widely used [wild staple foods] are [Potetilla anserina] [roots], an important [ceremonial food] served on such occasions as New Year or at funerals. They are boiled and served with [sugar] and [butter]. The most important famine [plants] remembered by [people] are the [aerial bulbils] of [Persicaria vivipara]. [Flowers] are used as children's [snacks] - their [nectar] is sucked. The number of [wild taxa] [eaten] in the studied [valley] is similar to that of other [Tibetan areas]. The structure of [wild food plant] taxa is also very typical for Tibetan speaking [areas] (e.g., the use of [rhubarb shoots], [Potentilla anserina], [Persicaria vivipara]). The studied community show a high level of [mycophilia].	[Wild food plants]{Objects} is Food Plants [study]{Procedures} is Study [fungi]{Living Beings} is Fungi [mycophilous]{Objects} is CULTIVATED MUSHROOM [knowledge]{Concepts & Ideas} is Knowledge [Tibetan]{Geographic Areas} is Tibet [wild food plants]{Objects} is Food Plants [Zhagana]{Geographic Areas} is Geographic Region [Tewo County]{Geographic Areas} is Geographic Region [fungi]{Living Beings} is Fungi [Gansu]{Geographic Areas} is Geographic Region [China]{Geographic Areas} is China [valley]{Concepts & Ideas} is Valley [Gannan Tibetan Autonomous Region]{Geographic Areas} is Geographic Region [Tibetan Plateau]{Geographic Areas} is Tibet [villages]{Geographic Areas} is Village [mountain]{Geographic Areas} is Mountain [valley]{Concepts & Ideas} is Valley [Diebu (Tewo) county]{Geographic Areas} is Geographic Region [study]{Procedures} is Study [group interviews]{Procedures} is Group Interviews [fungi]{Living Beings} is Fungi [DNA barcoding]{Procedures} is Taxonomic DNA Barcoding [species]{Concepts & Ideas} is Species [vascular plants]{Living Beings} is Vascular plants [mushroom taxa]{Objects} is CULTIVATED MUSHROOM [wild foods]{Objects} is Foods [Fruits]{Objects} is Fruits [food plants]{Objects} is Food Plants [species]{Concepts & Ideas} is Species [wild greens]{Living Beings} is Wild plant [species]{Concepts & Ideas} is Species [eaten]{Physiology} is Eat [snacks]{Objects} is Snacks [species]{Concepts & Ideas} is Species [edible flowers]{Living Beings} is Flowers [species]{Concepts & Ideas} is Species [edible organs]{Objects} is Food Plants [edible taxa]{Objects} is Food Plants [wild foods]{Objects} is Foods [green vegetables]{Objects} is Green Vegetable [species]{Concepts & Ideas} is Species [species]{Concepts & Ideas} is Species [fruits]{Objects} is Fruits [mushrooms]{Objects} is CULTIVATED MUSHROOM [flowers]{Living Beings} is Flowers [edible parts]{Objects} is Food Plants [Wild vegetables]{Objects} is Vegetables [green parts]{Living Beings} is Green plants [eaten]{Physiology} is Eat [snacks]{Objects} is Snacks [mountain]{Geographic Areas} is Mountain [peeled rhubarb shoots]{Living Beings} is Shoot [Wild fruits]{Objects} is Fruits [eaten]{Physiology} is Eat [wild staple foods]{Objects} is Foods [Potetilla anserina]{Living Beings} is Potentilla anserina [roots]{Living Beings} is Plant Roots [ceremonial food]{Objects} is Foods [sugar]{Chemicals & Drugs} is SUGAR [butter]{Objects} is Butter [plants]{Living Beings} is Green plants [people]{Living Beings} is People [aerial bulbils]{Living Beings} is Green plants [Persicaria vivipara]{Living Beings} is Persicaria vivipara [Flowers]{Living Beings} is Flowers [snacks]{Objects} is Snacks [nectar]{Chemicals & Drugs} is Nectars [wild taxa]{Living Beings} is Wild plant [eaten]{Physiology} is Eat [valley]{Concepts & Ideas} is Valley [Tibetan areas]{Geographic Areas} is Tibet [wild food plant]{Objects} is Food Plants [areas]{Geographic Areas} is Geographic Region [rhubarb shoots]{Living Beings} is Shoot [Potentilla anserina]{Living Beings} is Potentilla anserina [Persicaria vivipara]{Living Beings} is Persicaria vivipara [mycophilia]{Objects} is CULTIVATED MUSHROOM
Comparison of [Head] [Elevation Protocols] Following [Femoral Artery Sheath] [Removal] After [Coronary Angiography] To compare 2 standard [protocols] for [head] [elevation] following removal of a [femoral artery sheath] after [coronary angiography] and their effects on [bleeding] [complications] and reported levels of [back pain]. One [protocol] involved flat [supine] [bed rest]; the other allowed progressive [head] [elevation]. A prospective [comparative study] of 80 adult patients undergoing [coronary angiography] via the [femoral] [approach]. The [Numeric Rating Scale] was used as the measure of reported [pain]. No [bleeding] [complications] occurred in either group. Both groups had very low mean [pain scores]. Repeated- measures [analysis] demonstrated that the experience of [pain] differed significantly over time by [location] (F5,70 = 3.864, P = .004), with a notable decrease in [pain scores] more than 1 hour after [sheath] [removal] at the [location] that used the progressive [head] [elevation protocol]. Patients ' satisfaction scores after discharge did not differ significantly between the 2 groups. Patients with a [history] of chronic [back pain] had consistently higher [pain scores], but those [pain scores] did not differ significantly by [location] (or [protocol]). It appears that using a progressive [head] - [elevation protocol] within the first 3 hours after diagnostic [angiography] is not associated with an increased risk of [bleeding] [complications] at the [access site] and warrants further exploration in the mitigation of [back pain] associated with prolonged [supine] [bed rest].	[Head]{Anatomy} is Heads [Elevation Protocols]{Procedures} is Elevation [protocols]{Procedures} is CLIN PROTOCOLS [head]{Anatomy} is Heads [elevation]{Procedures} is Elevation [Femoral Artery Sheath]{Anatomy} is Femoral Artery [Removal]{Procedures} is Removal - action [femoral artery sheath]{Anatomy} is Femoral Artery [Coronary Angiography]{Procedures} is Coronary angiography [coronary angiography]{Procedures} is Coronary angiography [bleeding]{Disorders} is Bleeding [complications]{Disorders} is Complication [back pain]{Disorders} is Pain back [protocol]{Procedures} is CLIN PROTOCOLS [supine]{Concepts & Ideas} is Supine [bed rest]{Procedures} is Bed rest [head]{Anatomy} is Heads [elevation]{Procedures} is Elevation [comparative study]{Procedures} is Comparative study research [coronary angiography]{Procedures} is Coronary angiography [femoral]{Anatomy} is Femoral [approach]{Concepts & Ideas} is Approach [Numeric Rating Scale]{Concepts & Ideas} is Numeric Rating Scale [pain]{Disorders} is Pain finding [bleeding]{Disorders} is Bleeding [complications]{Disorders} is Complication [pain scores]{Disorders} is Pain score [analysis]{Procedures} is Analyzed [pain]{Disorders} is Pain finding [location]{Anatomy} is Location [pain scores]{Disorders} is Pain score [sheath]{Anatomy} is Femoral Artery [removal]{Procedures} is Removal - action [location]{Anatomy} is Location [head]{Anatomy} is Heads [elevation protocol]{Procedures} is Elevation [history]{Disorders} is Medical History [back pain]{Disorders} is Pain back [pain scores]{Disorders} is Pain score [pain scores]{Disorders} is Pain score [location]{Anatomy} is Location [protocol]{Procedures} is CLIN PROTOCOLS [head]{Anatomy} is Heads [elevation protocol]{Procedures} is Elevation [angiography]{Procedures} is Angiography [bleeding]{Disorders} is Bleeding [complications]{Disorders} is Complication [access site]{Concepts & Ideas} is Site of access [back pain]{Disorders} is Pain back [supine]{Concepts & Ideas} is Supine [bed rest]{Procedures} is Bed rest
Heterogeneous Mechanisms of [Primary and Acquired Resistance] to [Third-Generation EGFR Inhibitors] To identify novel mechanisms of [resistance] to [third-generation EGFR inhibitors] in patients with [lung adenocarcinoma] that progressed under [therapy] with either [AZD9291] or [rociletinib] ([CO-1686]). We [analyzed] [tumor biopsies] from seven patients obtained before, during, and/or after [treatment] with [AZD9291] or [rociletinib] ([CO-1686]). [Targeted sequencing] and [FISH analyses] were performed, and the relevance of [candidate genes] was functionally assessed in [in vitro models]. We found [recurrent amplification] of either [MET] or [ERBB2] in [tumors] that were [resistant] or [developed resistance] to [third-generation EGFR inhibitors] and show that [ERBB2] and [MET activation] can confer [resistance] to [these compounds]. Furthermore, we identified a [KRAS(G12S) mutation] in a patient with [acquired resistance] to [AZD9291] as a potential driver of [acquired resistance]. Finally, we show that dual inhibition of [[EGFR] /MEK] might be a viable strategy to overcome [resistance] in [EGFR-mutant cells] expressing [mutant KRAS] CONCLUSIONS: Our data suggest that heterogeneous mechanisms of [resistance] can drive [primary and acquired resistance] to [third-generation EGFR inhibitors] and provide a rationale for potential [combination strategies]. Clin Cancer Res; 1-11. ©2016 AACR.	[Primary and Acquired Resistance]{Phenomena} is Drug resistance [resistance]{Phenomena} is Drug resistance [third-generation EGFR inhibitors]{Chemicals & Drugs} is EGFR inhibitor [Third-Generation EGFR Inhibitors]{Chemicals & Drugs} is EGFR inhibitor [lung adenocarcinoma]{Disorders} is Lung Adenocarcinoma [therapy]{Procedures} is Therapy [AZD9291]{Chemicals & Drugs} is AZD9291 [rociletinib]{Chemicals & Drugs} is Rociletinib [CO-1686]{Chemicals & Drugs} is CO-1686 [analyzed]{Procedures} is Analyzed [tumor biopsies]{Procedures} is Biopsies [treatment]{Procedures} is Therapy [AZD9291]{Chemicals & Drugs} is AZD9291 [rociletinib]{Chemicals & Drugs} is Rociletinib [CO-1686]{Chemicals & Drugs} is CO-1686 [Targeted sequencing]{Procedures} is Gene Sequencing [FISH analyses]{Procedures} is FISH [candidate genes]{Genes & Molecular Sequences} is Candidate Genes [in vitro models]{Procedures} is In Vitro Model [recurrent amplification]{Physiology} is Gene amplification [MET]{Genes & Molecular Sequences} is MET Gene [ERBB2]{Genes & Molecular Sequences} is ERBB2 gene [tumors]{Disorders} is Tumors [resistant]{Phenomena} is Drug resistance [developed resistance]{Phenomena} is Drug resistance [third-generation EGFR inhibitors]{Chemicals & Drugs} is EGFR inhibitor [ERBB2]{Physiology} is Gene Activation [MET activation]{Physiology} is Gene Activation [resistance]{Phenomena} is Drug resistance [these compounds]{Chemicals & Drugs} is EGFR inhibitor [KRAS(G12S) mutation]{Disorders} is KRAS G12S [acquired resistance]{Phenomena} is Drug resistance [AZD9291]{Chemicals & Drugs} is AZD9291 [acquired resistance]{Phenomena} is Drug resistance [EGFR]{Chemicals & Drugs} is EGF RECEPT [EGFR /MEK]{Chemicals & Drugs} is MEK [resistance]{Phenomena} is Drug resistance [EGFR-mutant cells]{Anatomy} is Cells set [mutant KRAS]{Disorders} is KRAS mutation [resistance]{Phenomena} is Drug resistance [primary and acquired resistance]{Phenomena} is Drug resistance [third-generation EGFR inhibitors]{Chemicals & Drugs} is EGFR inhibitor [combination strategies]{Procedures} is Combination Drug Therapies
[Nax] [signaling] evoked by an increase in ([Na+]) in [CSF] induces [water intake] via [EET] -mediated [TRPV4] activation [Water-intake] behavior is under the control of [brain systems] that sense [body-fluid] conditions at [sensory circumventricular organs] ([sCVOs]); however, the underlying mechanisms have not yet been elucidated in detail. [Nax] is a [sodium] ([Na(+)]) level [sensor] in the [brain], and the [transient receptor potential vanilloid (TRPV) channels], [TRPV1] and [TRPV4], have been proposed to function as [osmosensors]. We herein investigated voluntary [water intake] immediately induced after an [intracerebroventricular] ([icv]) [administration] of a [hypertonic NaCl solution] in [TRPV1-], [TRPV4-], [Nax-], and their [double-gene knockout (KO) mice]. The induction of [water intake] by [TRPV1] - [KO mice] was normal, whereas that by [TRPV4] - [KO] and [Nax] - [KO mice] was significantly less than that by [WT mice]. [Water intake] by [Nax] / [TRPV4] - [double KO mice] was similar to that by the respective single [KO mice]. When [TRPV4] activity was blocked with a [specific antagonist] [HC-067047], [water intake] by [WT mice] was significantly reduced, whereas that by [TRPV4] - [KO] and [Nax] - [KO mice] was not. Similar results were obtained with the [administration] of [miconazole], which inhibits the biosynthesis of [epoxyeicosatrienoic acids] ([EETs]), endogenous [agonists] for [TRPV4], from [arachidonic acid] ([AA]). [Icv] [injection] of [hypertonic NaCl] with [AA] or [5,6-EET] restored [water intake] by [Nax] - [KO mice] to the [WT] level, but not that by [TRPV4] - [KO mice]. These results suggest that the [Na(+)] signal generated in [Nax] - [positive] [glial cells] leads to the activation of [TRPV4] - [positive] [neurons] in [sCVOs] in order to [stimulate] [water intake] by using [EETs] as [gliotransmitters].	[Nax]{Chemicals & Drugs} is Nax sodium channel, mouse [Water-intake]{Physiology} is Water Intake [signaling]{Physiology} is Signaling [Na+]{Chemicals & Drugs} is Na+ [brain systems]{Anatomy} is Nervous System, Brain [CSF]{Anatomy} is CSF [water intake]{Physiology} is Water Intake [body-fluid]{Anatomy} is Body Fluid [EET]{Chemicals & Drugs} is EET [TRPV4]{Chemicals & Drugs} is TRPV4 protein, human [sensory circumventricular organs]{Anatomy} is Sensory Circumventricular Organs [sCVOs]{Anatomy} is Sensory Circumventricular Organs [Nax]{Chemicals & Drugs} is Nax sodium channel, mouse [sodium]{Chemicals & Drugs} is Na+ [Na(+)]{Chemicals & Drugs} is Na+ [sensor]{Physiology} is Osmosensor activity [brain]{Anatomy} is Nervous System, Brain [transient receptor potential vanilloid (TRPV) channels]{Chemicals & Drugs} is Vanilloid Receptors [TRPV1]{Chemicals & Drugs} is TRPV1 protein, human [TRPV4]{Chemicals & Drugs} is TRPV4 protein, human [osmosensors]{Physiology} is Osmosensor activity [water intake]{Physiology} is Water Intake [intracerebroventricular]{Concepts & Ideas} is Intracerebroventricular [icv]{Concepts & Ideas} is Intracerebroventricular [administration]{Procedures} is Administration [hypertonic NaCl solution]{Chemicals & Drugs} is Hypertonic Saline Solution [TRPV1-]{Genes & Molecular Sequences} is TRPV1 [TRPV4-]{Genes & Molecular Sequences} is TRPV4 [Nax-]{Genes & Molecular Sequences} is NaG [double-gene knockout (KO) mice]{Living Beings} is Knockout Mice [water intake]{Physiology} is Water Intake [TRPV1]{Genes & Molecular Sequences} is TRPV1 [KO mice]{Living Beings} is Knockout Mice [TRPV4]{Genes & Molecular Sequences} is TRPV4 [KO]{Living Beings} is Knockout Mice [Nax]{Genes & Molecular Sequences} is NaG [KO mice]{Living Beings} is Knockout Mice [WT mice]{Living Beings} is Wild Type Mouse [Water intake]{Physiology} is Water Intake [Nax]{Genes & Molecular Sequences} is NaG [TRPV4]{Genes & Molecular Sequences} is TRPV4 [double KO mice]{Living Beings} is Knockout Mice [KO mice]{Living Beings} is Knockout Mice [TRPV4]{Chemicals & Drugs} is Trpv4 protein, mouse [specific antagonist]{Chemicals & Drugs} is Antagonists & inhibitors [HC-067047]{Chemicals & Drugs} is HC-067047 [water intake]{Physiology} is Water Intake [WT mice]{Living Beings} is Wild Type Mouse [TRPV4]{Genes & Molecular Sequences} is TRPV4 [KO]{Living Beings} is Knockout Mice [Nax]{Genes & Molecular Sequences} is NaG [KO mice]{Living Beings} is Knockout Mice [administration]{Procedures} is Administration [miconazole]{Chemicals & Drugs} is Miconazole product [epoxyeicosatrienoic acids]{Chemicals & Drugs} is EET [EETs]{Chemicals & Drugs} is EET [agonists]{Chemicals & Drugs} is Agonist [TRPV4]{Chemicals & Drugs} is Trpv4 protein, mouse [arachidonic acid]{Chemicals & Drugs} is Arachidonic Acid [AA]{Chemicals & Drugs} is Arachidonic Acid [Icv]{Concepts & Ideas} is Intracerebroventricular [injection]{Procedures} is Injection - action [hypertonic NaCl]{Chemicals & Drugs} is Hypertonic Saline Solution [AA]{Chemicals & Drugs} is Arachidonic Acid [5,6-EET]{Chemicals & Drugs} is 5,6-EET [water intake]{Physiology} is Water Intake [Nax]{Genes & Molecular Sequences} is NaG [KO mice]{Living Beings} is Knockout Mice [WT]{Genes & Molecular Sequences} is Wild Type [TRPV4]{Genes & Molecular Sequences} is TRPV4 [KO mice]{Living Beings} is Knockout Mice [Na(+)]{Chemicals & Drugs} is Na+ [Nax]{Chemicals & Drugs} is Nax sodium channel, mouse [positive]{Disorders} is Positive for [glial cells]{Anatomy} is Glial Cells [TRPV4]{Chemicals & Drugs} is Trpv4 protein, mouse [positive]{Disorders} is Positive for [neurons]{Anatomy} is Neurons [sCVOs]{Anatomy} is Sensory Circumventricular Organs [stimulate]{Procedures} is Stimulation [water intake]{Physiology} is Water Intake [EETs]{Chemicals & Drugs} is EET [gliotransmitters]{Chemicals & Drugs} is Neurotransmitters
An Accessible and [Pragmatic Experimental Model] of [Nonalcoholic Fatty Liver Disease] BACKGROUND There is no convenient cheap [pragmatic experimental model] for [Nonalcoholic Fatty Liver Disease] ([NAFLD])/ [Nonalcoholic Steatohepatitis] ([NASH]). Our objective was to create a [pragmatic model] of [NAFLD] / [NASH]. METHODS [Sprague-Dawley rats] were fed a [high-fat], [high sugar homemade diet] ad libitum for seven weeks. The [high-fat], [high sugar diet] included 59% of energy derived from [fat], 30% from [carbohydrates], and 11% from [protein]. [Serum levels of fasting glucose], [triglyceride], [cholesterol], [liver enzymes], [insulin], and [hepatic] [tumor necrosis factor-alpha] ([TNF-α]) [gene expression] were determined. [Hepatic] [histology] was examined by [H&E stain]. RESULTS [Rats] fed the [high-fat], [high sugar diet] developed [hepatic steatosis], and a [moderate inflammation], which was associated with [increased serum levels of liver enzymes], [glucose], [insulin], [triglyceride], [cholesterol], and [hepatic] [TNF-α] [gene expression]. CONCLUSION This [rat] [model] resembles the key features of [human] [NAFLD] / [NASH] and provides a simple [pragmatic experimental model] for elucidating the disease prevention and [treatment].	[Pragmatic Experimental Model]{Living Beings} is Experimental Animal Model [pragmatic experimental model]{Living Beings} is Experimental Animal Model [Nonalcoholic Fatty Liver Disease]{Disorders} is Nonalcoholic Fatty Liver Disease [Nonalcoholic Fatty Liver Disease]{Disorders} is Nonalcoholic Fatty Liver Disease [NAFLD]{Disorders} is Nonalcoholic Fatty Liver Disease [Nonalcoholic Steatohepatitis]{Disorders} is Nonalcoholic steatohepatitis [NASH]{Disorders} is Nonalcoholic steatohepatitis [pragmatic model]{Living Beings} is Experimental Animal Model [NAFLD]{Disorders} is Nonalcoholic Fatty Liver Disease [NASH]{Disorders} is Nonalcoholic steatohepatitis [Sprague-Dawley rats]{Living Beings} is Sprague-Dawley Rats [high-fat]{Procedures} is High-Fat Diet [high sugar homemade diet]{Procedures} is High sugar diet [high-fat]{Procedures} is High-Fat Diet [high sugar diet]{Procedures} is High sugar diet [fat]{Chemicals & Drugs} is Dietary fat [carbohydrates]{Objects} is Carbohydrate food [protein]{Objects} is Protein food [Serum levels of fasting glucose]{Procedures} is Serum fasting glucose level [triglyceride]{Procedures} is Serum triglycerides [cholesterol]{Procedures} is Cholesterol total [liver enzymes]{Procedures} is Liver enzymes [insulin]{Procedures} is Serum insulin [hepatic]{Anatomy} is Hepatic [tumor necrosis factor-alpha]{Chemicals & Drugs} is Tumor Necrosis Factor-alpha [TNF-α]{Chemicals & Drugs} is Tumor Necrosis Factor-alpha [gene expression]{Physiology} is Gene Expression [Hepatic]{Anatomy} is Hepatic [histology]{Procedures} is Histology [H&E stain]{Procedures} is H&E Stain [Rats]{Living Beings} is Rattus [high-fat]{Procedures} is High-Fat Diet [high sugar diet]{Procedures} is High sugar diet [hepatic steatosis]{Disorders} is Hepatic lipidosis [moderate inflammation]{Disorders} is Moderate inflammation [increased serum levels of liver enzymes]{Disorders} is Elevated liver enzymes level [glucose]{Phenomena} is Serum glucose level [insulin]{Phenomena} is Serum insulin result [triglyceride]{Phenomena} is Serum triglyceride levels [cholesterol]{Phenomena} is Serum cholesterol level [hepatic]{Anatomy} is Hepatic [TNF-α]{Chemicals & Drugs} is Tumor Necrosis Factor-alpha [gene expression]{Physiology} is Gene Expression [rat]{Living Beings} is Rattus [model]{Living Beings} is Experimental Animal Model [human]{Living Beings} is Human [NAFLD]{Disorders} is Nonalcoholic Fatty Liver Disease [NASH]{Disorders} is Nonalcoholic steatohepatitis [pragmatic experimental model]{Living Beings} is Experimental Animal Model [treatment]{Procedures} is Treatments
Comparison of the Effects of [Subcutaneous] Versus [Continuous Infusion] of [Heparin] on Key Inflammatory Parameters Following [Sepsis] [Sepsis] is the result of the interaction between [inflammatory mediators] and [coagulation pathway]. [Unfractionated heparin] may play a role as an [anti-inflammatory agent] beyond its anticoagulatory effect in [sepsis]. As a result, it may cause reduction in [organ failure] rate in patients with [sepsis] due to its impact on both inflammatory and [coagulation process]. The aim of this [study] was to evaluate the anti-inflammatory effects of [heparin] in [sepsis]. [Plasma] [plasminogen activator inhibitor-1] ([PAI-1]) as an [inflammatory mediator] and urinary [necoutrophil gelatinase-associated lipocalin] ([NGAL]) as a [marker] of [kidney injury] were investigated. This [prospective], [randomized controlled trial] was conducted in a 32- [bed] [intensive care unit]. Thirty patients with [sepsis] were [randomized] to receive [heparin] infusion of 500 units/hour or 5000 units of [heparin] three times a day, [subcutaneously]. The [plasma] level of [PAI-1] and urinary level of [NGAL] were determined at [day 0], 2 and 7. The infusion group had a [lower] [plasma] [PAI-1] level compared to the subcutaneous group at day 7 (11.3 ± 1.6 vs. 16.5 ± 4.2; P = 0.003). The urinary [NGAL] level was [lower] in the infusion group at day 2 (131.3 ± 11.9 vs. 151.2 ± 20.6; P = 0.014); however, at day 7 the [NGAL] level was decreased in the subcutaneous group as much as the infusion group and there was no significant difference between the two groups. There was no significant difference in the [acute physiology and chronic health evaluation (APACHE) II] and [sequential organ failure assessment (SOFA) scores] between the two groups at [day 0], 2 and 7. Low-dose [heparin] infusion compared to [subcutaneous] [heparin] can decrease the [plasma] [PAI-1] and urinary [NGAL] levels more rapidly. It can be related to anti-inflammatory effects of [heparin], which may be more prominent in infusion route.	[Sepsis]{Disorders} is Sepsis (disorder) [Subcutaneous]{Procedures} is Subcutaneous Infusion [inflammatory mediators]{Chemicals & Drugs} is INFLAMM MEDIATORS [Continuous Infusion]{Procedures} is Continuous infusion [Heparin]{Chemicals & Drugs} is Heparin [coagulation pathway]{Physiology} is Pathway [Unfractionated heparin]{Chemicals & Drugs} is Unfractionated Heparin (EPC) [Sepsis]{Disorders} is Sepsis (disorder) [anti-inflammatory agent]{Chemicals & Drugs} is Anti-inflammatory Agent [sepsis]{Disorders} is Sepsis (disorder) [organ failure]{Disorders} is Multi organ failure [sepsis]{Disorders} is Sepsis (disorder) [coagulation process]{Physiology} is Coagulation process [study]{Procedures} is Research study [heparin]{Chemicals & Drugs} is Heparin [sepsis]{Disorders} is Sepsis (disorder) [Plasma]{Anatomy} is Plasma [plasminogen activator inhibitor-1]{Chemicals & Drugs} is Plasminogen activator inhibitor-1 [PAI-1]{Chemicals & Drugs} is Plasminogen activator inhibitor-1 [inflammatory mediator]{Chemicals & Drugs} is INFLAMM MEDIATORS [necoutrophil gelatinase-associated lipocalin]{Chemicals & Drugs} is Neutrophil Gelatinase Associated Lipocalin [NGAL]{Chemicals & Drugs} is Neutrophil Gelatinase Associated Lipocalin [marker]{Physiology} is Marker [kidney injury]{Disorders} is Injury to kidney [prospective]{Procedures} is Study, Prospective [randomized controlled trial]{Procedures} is Randomized Controlled Clinical Trial [bed]{Concepts & Ideas} is Patient Location - Bed [intensive care unit]{Organizations} is Intensive care unit [sepsis]{Disorders} is Sepsis (disorder) [randomized]{Procedures} is Randomized [heparin]{Chemicals & Drugs} is Heparin [heparin]{Chemicals & Drugs} is Heparin [subcutaneously]{Disorders} is Administered subcutaneously [plasma]{Anatomy} is Plasma [PAI-1]{Chemicals & Drugs} is Plasminogen activator inhibitor-1 [NGAL]{Chemicals & Drugs} is Neutrophil Gelatinase Associated Lipocalin [day 0]{Disorders} is Investigation Finding [lower]{Concepts & Ideas} is Lower [plasma]{Anatomy} is Plasma [PAI-1]{Chemicals & Drugs} is Plasminogen activator inhibitor-1 [NGAL]{Chemicals & Drugs} is Neutrophil Gelatinase Associated Lipocalin [lower]{Concepts & Ideas} is Lower [NGAL]{Chemicals & Drugs} is Neutrophil Gelatinase Associated Lipocalin [acute physiology and chronic health evaluation (APACHE) II]{Procedures} is APACHE II score [sequential organ failure assessment (SOFA) scores]{Disorders} is Sequential Organ Failure Assessment Scores [day 0]{Disorders} is Investigation Finding [heparin]{Chemicals & Drugs} is Heparin [subcutaneous]{Concepts & Ideas} is Subcutaneous [heparin]{Chemicals & Drugs} is Heparin [plasma]{Anatomy} is Plasma [PAI-1]{Chemicals & Drugs} is Plasminogen activator inhibitor-1 [NGAL]{Chemicals & Drugs} is Neutrophil Gelatinase Associated Lipocalin [heparin]{Chemicals & Drugs} is Heparin
The Spreading of Social Energy: How Exposure to [Positive] and [Negative] Social [News] Affects Behavior Social [news], unlike video games or TV programs, conveys real-life [interactions]. Theoretically, social [news] in which [people] help or harm each other and violate [rules] should influence both prosocial and violation behaviors. In two experiments, we demonstrated the spreading effects of social [news] in a [social interaction] context emphasizing social conventions and a [nonsocial interaction] context emphasizing moral norms. Across the two [studies], the results showed that [positive] social [news] increased cooperation (decreased defection) but had [no] effect on cheating, whereas [negative] social [news] increased cheating but with [no] change in cooperation (or defection). We conclude that there is a spreading impact of [positive] social [news] in the conventional norm domain and of [negative] social [news] in the moral norm domain.	[news]{Concepts & Ideas} is News [Positive]{Disorders} is Positive for [Negative]{Disorders} is Negative for [interactions]{Disorders} is Social Interactions [News]{Concepts & Ideas} is News [news]{Concepts & Ideas} is News [people]{Living Beings} is People [rules]{Concepts & Ideas} is Rules of conduct [news]{Concepts & Ideas} is News [social interaction]{Disorders} is Social Interactions [nonsocial interaction]{Disorders} is NEGATIVE [studies]{Procedures} is Study [positive]{Disorders} is Positive for [news]{Concepts & Ideas} is News [no]{Disorders} is NEGATIVE [negative]{Disorders} is Negative for [news]{Concepts & Ideas} is News [no]{Disorders} is NEGATIVE [positive]{Disorders} is Positive for [news]{Concepts & Ideas} is News [negative]{Disorders} is Negative for [news]{Concepts & Ideas} is News
Using [Evolutionary Theory] to Guide [Mental Health] [Research] [Evolutionary approaches] to [medicine] can shed light on the origins and etiology of disease. Such an [approach] may be especially useful in [psychiatry], which frequently addresses conditions with heterogeneous presentation and unknown causes. We review several previous applications of [evolutionary theory] that highlight the ways in which psychiatric conditions may persist despite and because of natural selection. One lesson from the [evolutionary approach] is that some conditions currently [classified] as [disorders] (because they cause [distress] and [impairment]) may actually be caused by functioning [adaptations] operating " normally " (as designed by natural selection). Such conditions suggest an alternative [illness model] that may generate alternative [intervention strategies]. Thus, the [evolutionary approach] suggests that [psychiatry] should sometimes think differently about [distress] and [impairment]. The complexity of the [human] [brain], including normal functioning and potential for [dysfunctions], has developed over evolutionary time and has been shaped by natural selection. Understanding the evolutionary origins of psychiatric conditions is therefore a crucial component to a complete understanding of etiology.	[Evolutionary approaches]{Concepts & Ideas} is Approaches [Evolutionary Theory]{Concepts & Ideas} is Theory of Evolution [medicine]{Occupations} is Medicine [Mental Health]{Physiology} is Mental health [Research]{Procedures} is Research [approach]{Concepts & Ideas} is Approaches [psychiatry]{Procedures} is Psychiatric service [evolutionary theory]{Concepts & Ideas} is Theory of Evolution [evolutionary approach]{Concepts & Ideas} is Approaches [classified]{Concepts & Ideas} is Classified [disorders]{Disorders} is Mental disorders NOS (disorder) [distress]{Disorders} is Distress [impairment]{Disorders} is Impairment [adaptations]{Phenomena} is Adaptation [illness model]{Disorders} is Disease model [intervention strategies]{Procedures} is Intervention Strategies [evolutionary approach]{Concepts & Ideas} is Approaches [psychiatry]{Procedures} is Psychiatric service [distress]{Disorders} is Distress [impairment]{Disorders} is Impairment [human]{Living Beings} is Human [brain]{Anatomy} is Brains [dysfunctions]{Disorders} is Cerebral dysfunction
[Transcriptomic] and [Physiological Responses] of the [Green Microalga] [Chlamydomonas reinhardtii] during Short-Term Exposure to Subnanomolar [Methylmercury] Concentrations The effects of short-term exposure to subnanomolar [methyl-mercury] ([MeHg]) concentrations, representative of contaminated [environments], on the [microalga] [Chlamydomonas reinhardtii] were assessed using both [physiological end points] and [gene expression analysis]. [MeHg] [bioaccumulated] and induced significant increase of the photosynthesis efficiency, while the algal growth, [oxidative stress], and [chlorophyll fluorescence] were unaffected. At the molecular level, [MeHg] significantly [dysregulated] the [expression of genes] involved in [motility], [energy metabolism], [lipid metabolism], [metal transport], and [antioxidant] [enzymes]. Data suggest that the [cells] were [able to cope] with subnanomolar [MeHg] exposure, but this tolerance resulted in a significant cost to the [cell energy and reserve metabolism] as well as ample changes in the [nutrition] and [motility] of [C. reinhardtii]. The present results allowed gaining new insights on the effects and [uptake mechanisms] of [MeHg] at subnanomolar concentrations in [aquatic primary producers].	[Transcriptomic]{Physiology} is Gene Expressions [Physiological Responses]{Physiology} is Physiological aspects [Green Microalga]{Living Beings} is Microalgae [methyl-mercury]{Chemicals & Drugs} is METHYLMERCURY CPDS [Chlamydomonas reinhardtii]{Living Beings} is Reinhardtii, Chlamydomonas [MeHg]{Chemicals & Drugs} is METHYLMERCURY CPDS [environments]{Concepts & Ideas} is Environments [Methylmercury]{Chemicals & Drugs} is METHYLMERCURY CPDS [microalga]{Living Beings} is Microalgae [Chlamydomonas reinhardtii]{Living Beings} is Reinhardtii, Chlamydomonas [physiological end points]{Physiology} is Physiological aspects [gene expression analysis]{Procedures} is Gene Expression Analysis [MeHg]{Chemicals & Drugs} is METHYLMERCURY CPDS [bioaccumulated]{Physiology} is Bioaccumulation [oxidative stress]{Disorders} is Oxidative stress [chlorophyll fluorescence]{Physiology} is Chlorophyll fluorescence [MeHg]{Chemicals & Drugs} is METHYLMERCURY CPDS [dysregulated]{Physiology} is Gene Regulation [expression of genes]{Physiology} is Gene Expressions [motility]{Physiology} is Motility (observable entity) [energy metabolism]{Physiology} is Energy Metabolism [lipid metabolism]{Physiology} is Lipid metabolism [metal transport]{Physiology} is Metal ion transport [antioxidant]{Chemicals & Drugs} is Antioxidant [enzymes]{Chemicals & Drugs} is Enzymes [cells]{Anatomy} is Cells set [able to cope]{Disorders} is Able to cope [MeHg]{Chemicals & Drugs} is METHYLMERCURY CPDS [cell energy and reserve metabolism]{Physiology} is Energy reserve metabolism [nutrition]{Physiology} is Nutrition [motility]{Physiology} is Motility (observable entity) [C. reinhardtii]{Living Beings} is Reinhardtii, Chlamydomonas [uptake mechanisms]{Physiology} is Uptake [MeHg]{Chemicals & Drugs} is METHYLMERCURY CPDS [aquatic primary producers]{Living Beings} is Microalgae
Hierarchical Targeting [Strategy] for Enhanced [Tumor Tissue] Accumulation / Retention and [Cellular Internalization] Targeted delivery of [therapeutic agents] is an important way to improve the therapeutic index and reduce [side effects]. To design nanoparticles for targeted delivery, both enhanced [tumor tissue] accumulation / retention and enhanced [cellular internalization] should be considered simultaneously. So far, there have been very few nanoparticles with immutable [structures] that can achieve this goal efficiently. Hierarchical targeting, a novel targeting [strategy] based on stimuli responsiveness, shows good potential to enhance both [tumor tissue] accumulation / retention and [cellular internalization]. Here, the recent design and development of hierarchical targeting nanoplatforms, based on changeable particle sizes, switchable surface charges and activatable [surface] [ligands], will be introduced. In general, the targeting moieties in these nanoplatforms are not activated during [blood circulation] for efficient [tumor tissue] accumulation, but re-activated by certain [internal] or [external] stimuli in the tumor microenvironment for enhanced [cellular internalization].	[therapeutic agents]{Chemicals & Drugs} is Therapeutic agent [Strategy]{Procedures} is STYPE [Tumor Tissue]{Anatomy} is Tumor tissue [Cellular Internalization]{Physiology} is Plasma membrane invagination [side effects]{Disorders} is Drug Side Effects [tumor tissue]{Anatomy} is Tumor tissue [cellular internalization]{Physiology} is Plasma membrane invagination [structures]{Concepts & Ideas} is Structure [strategy]{Procedures} is STYPE [tumor tissue]{Anatomy} is Tumor tissue [cellular internalization]{Physiology} is Plasma membrane invagination [surface]{Concepts & Ideas} is Surface [ligands]{Chemicals & Drugs} is Ligands [blood circulation]{Physiology} is Blood circulation [tumor tissue]{Anatomy} is Tumor tissue [internal]{Concepts & Ideas} is Internal [external]{Concepts & Ideas} is External [cellular internalization]{Physiology} is Plasma membrane invagination
[Subsolid pulmonary nodule] morphology and associated patient characteristics in a routine clinical [population] To determine the presence and morphology of [subsolid pulmonary nodules] ([SSNs]) in a non-screening setting and relate them to clinical and patient characteristics. A total of 16,890 [reports] of clinically obtained [chest CT] (06/2011 to 11/2014, single-centre) were searched describing an [SSN]. [Subjects] with a visually confirmed [SSN] and at least two [thin-slice CTs] were included. [Nodule] volumes were measured. Progression was defined as volume increase exceeding the [software interscan] variation. [Nodule] morphology, [location], and patient characteristics were [evaluated]. Fifteen transient and 74 persistent [SSNs] were included (median [follow-up] 19.6 (8.3-36.8) months). [Subjects] with an [SSN] were slightly older than those without (62 vs. 58 years; p = 0.01), but no gender predilection was found. [SSNs] were mostly [located] in the [upper lobes]. [Women] showed significantly more often persistent [lesions] than [men] (94 % vs. 69 %; p = 0.002). [Part-solid lesions] were larger (1638 vs. 383 mm(3); p < 0.001) and more often progressive (68 % vs. 38 %; p = 0.02), compared to pure [ground-glass nodules]. Progressive [SSNs] were rare under the age of 50 years. Logistic regression analysis did not identify additional [nodule] [parameters] of future progression, apart from part-solid nature. This [study] confirms previously reported characteristics of [SSNs] and associated factors in a [European], routine clinical [population]. • [SSNs] in [women] are significantly more often persistent compared to [men]. • [SSN] persistence is not associated with age or prior [malignancy]. • The majority of (persistent) [SSNs] are located in the [upper lung lobes]. • A part-solid nature is associated with future [nodule] [growth]. • Progressive [solitary SSNs] are rare under the age of 50 years.	[Subsolid pulmonary nodule]{Disorders} is Pulmonary Nodule [subsolid pulmonary nodules]{Disorders} is Pulmonary Nodule [SSNs]{Disorders} is Pulmonary Nodule [population]{Living Beings} is Population [reports]{Concepts & Ideas} is Reported [chest CT]{Procedures} is Chest CT [SSN]{Disorders} is Pulmonary Nodule [Subjects]{Living Beings} is Research Subjects [SSN]{Disorders} is Pulmonary Nodule [thin-slice CTs]{Procedures} is CTT [Nodule]{Disorders} is Nodule [software interscan]{Procedures} is Scans [Nodule]{Disorders} is Nodule [location]{Anatomy} is Location [evaluated]{Procedures} is Evaluated [SSNs]{Disorders} is Pulmonary Nodule [follow-up]{Procedures} is Follow-up [Subjects]{Living Beings} is Research Subjects [SSN]{Disorders} is Pulmonary Nodule [SSNs]{Disorders} is Pulmonary Nodule [located]{Concepts & Ideas} is Location [upper lobes]{Anatomy} is Upper Lobe [Women]{Living Beings} is Women [lesions]{Disorders} is Lesion [men]{Living Beings} is Men [Part-solid lesions]{Disorders} is Part Solid Nodule [ground-glass nodules]{Disorders} is Part Solid Nodule [SSNs]{Disorders} is Pulmonary Nodule [nodule]{Disorders} is Nodule [parameters]{Disorders} is Parameters [study]{Procedures} is Study [SSNs]{Disorders} is Pulmonary Nodule [European]{Living Beings} is Ethnic european [population]{Living Beings} is Population [SSNs]{Disorders} is Pulmonary Nodule [women]{Living Beings} is Women [men]{Living Beings} is Men [SSN]{Disorders} is Pulmonary Nodule [malignancy]{Disorders} is Malignancies [SSNs]{Disorders} is Pulmonary Nodule [upper lung lobes]{Anatomy} is Upper Lobe [nodule]{Disorders} is Nodule [growth]{Physiology} is Tissue Growth [solitary SSNs]{Disorders} is Solitary pulmonary nodule
[Dynamic CT myocardial perfusion imaging] identifies early perfusion [abnormalities] in [diabetes] and [hypertension]: Insights from a [multicenter] [registry] To identify patients with [early signs] of myocardial perfusion reduction, a reference base for perfusion measures is needed. To analyze perfusion [parameters] derived from [dynamic computed tomography perfusion imaging] ([CTPI]) in patients with suspected [coronary artery disease] ([CAD]), and relationship with [risk factors]. In this [multicenter study], [coronary CT angiography] ([cCTA]) and [dynamic CTPI] were performed by [second-generation dual-source CT] in patients suspected of [CAD]. [Risk factors] were collected from [hospital records]. Patients with visual perfusion defects on [CTPI], previous [coronary intervention], or missing [risk factor] details were excluded. This [analysis] included 98 patients (mean age ± standard deviation (SD), 59.0 ± 8.6yrs; 73 [male]). Global measures of [left ventricular] [myocardial blood flow] ([MBF]), [myocardial blood volume] ([MBV]) and volume transfer constant (K(trans)) were calculated. Mean [MBF] was 139.3 ± 31.4 mL/100 mL/min, [MBV] 19.1 ± 2.7 mL/100 mL, and Ktrans 85.0 ± 17.5 mL/100 mL/min. No significant differences in perfusion [parameters] were found by gender or age category. [Hypertension] and [diabetes mellitus] resulted in lower perfusion [parameters] ([hypertension] vs normotension: [MBV] 18.5 ± 3.0 vs 19.7 ± 2.3 mL/100 mL and K(trans) 82.0 ± 18.0 vs 89.0 ± 16.0, p < 0.05; [diabetes] vs [no diabetes]: [MBF] 128.5 ± 31.5 vs 144.0 ± 30.5 mL/100 mL/min and [MBV] 17.9 ± 2.4 vs 19.4 ± 2.8 mL/100 mL, p < 0.05). In patients with [hyperlipidemia], [MBF] was higher (146.8 ± 34.4 vs 130.7 ± 24.3 mL/100 mL/min, p < 0.05). Smoking and [family history] did not show perfusion [parameter] differences. [Dynamic CTPI] identifies early perfusion disturbances in conditions like [diabetes] and [hypertension]. With further [standardization], absolute perfusion measures may improve [CAD] risk [stratification] in patients without visual perfusion defects.	[Dynamic CT myocardial perfusion imaging]{Procedures} is Computed Tomography Perfusion Imaging [early signs]{Disorders} is SIGNS SYMPTOMS [abnormalities]{Disorders} is Abnormality [diabetes]{Disorders} is Diabetes [hypertension]{Disorders} is HT - Hypertension [multicenter]{Procedures} is Multicenter study [registry]{Concepts & Ideas} is Registry [parameters]{Disorders} is Parameters [dynamic computed tomography perfusion imaging]{Procedures} is Computed Tomography Perfusion Imaging [CTPI]{Procedures} is Computed Tomography Perfusion Imaging [coronary artery disease]{Disorders} is Coronary Artery Disease [CAD]{Disorders} is Coronary Artery Disease [risk factors]{Disorders} is Risk Factors [multicenter study]{Procedures} is Multicenter study [coronary CT angiography]{Procedures} is CT angiography of coronary arteries [cCTA]{Procedures} is CT angiography of coronary arteries [dynamic CTPI]{Procedures} is Computed Tomography Perfusion Imaging [second-generation dual-source CT]{Procedures} is CT XRAY [CAD]{Disorders} is Coronary Artery Disease [Risk factors]{Disorders} is Risk Factors [hospital records]{Concepts & Ideas} is Hospital Records [CTPI]{Procedures} is Computed Tomography Perfusion Imaging [coronary intervention]{Procedures} is Interventional [risk factor]{Disorders} is Risk Factors [analysis]{Procedures} is Analyzed [male]{Living Beings} is Human, Male [left ventricular]{Anatomy} is Left ventricular structure [myocardial blood flow]{Physiology} is Myocardial Blood Flow [MBF]{Physiology} is Myocardial Blood Flow [myocardial blood volume]{Physiology} is Blood volume [MBV]{Physiology} is Blood volume [MBF]{Physiology} is Myocardial Blood Flow [MBV]{Physiology} is Blood volume [parameters]{Disorders} is Parameters [Hypertension]{Disorders} is HT - Hypertension [diabetes mellitus]{Disorders} is Diabetes mellitus [parameters]{Disorders} is Parameters [hypertension]{Disorders} is HT - Hypertension [MBV]{Physiology} is Blood volume [diabetes]{Disorders} is Diabetes [no diabetes]{Disorders} is Investigation Finding [MBF]{Physiology} is Myocardial Blood Flow [MBV]{Physiology} is Blood volume [hyperlipidemia]{Disorders} is Hyperlipidemia [MBF]{Physiology} is Myocardial Blood Flow [family history]{Disorders} is Family history [parameter]{Disorders} is Parameters [Dynamic CTPI]{Procedures} is Computed Tomography Perfusion Imaging [diabetes]{Disorders} is Diabetes [hypertension]{Disorders} is HT - Hypertension [standardization]{Procedures} is Standardization [CAD]{Disorders} is Coronary Artery Disease [stratification]{Procedures} is Stratification
[Cognition] Enhancing Activity of [Sulforaphane] Against [Scopolamine] Induced [Cognitive Impairment] in [Zebra Fish] ([Danio rerio]) Several [epidemiological studies] have shown that consumption of large quantities of [vegetables] especially [cruciferous vegetables] ([Broccoli] and [Brussels sprouts]) can protect against [chronic diseases]. [Sulforaphane], an [isothiocynate] [found] in [cruciferous vegetables] has been demonstrated to have neuroprotective effects in several experimental paradigms. This [study] was undertaken to examine the effect of [sulforaphane] on [cognitive impairment] in [zebra fish] [model] using a novel [method] of [fear conditioning]. Initially, the normal behaviour of [zebra fishes] was [studied] in light-dark tank for 10 min daily for 10 days. [Fishes] were then divided into seven groups of twelve in each. Group I served as normal, group II served as [fear conditioned control], group III and group IV were [sulforaphane] (25 µM/L) and [piracetam] (200 mg/L) treated respectively. Group V served as [scopolamine] (400 µM/L) induced [memory impairment] [fishes]. Group VI and VII were [sulforaphane] (25 µM/L) and [piracetam] (200 mg/L) treated [scopolamine] induced [memory impairment] groups respectively. In normal [behavioural analysis], [fishes] preferred to stay in dark [compartment]. The average number of entries into the dark and time spent in dark were significantly more. [Fishes] in group II to VII were individually subjected to [fear conditioning] passive avoidance task and [evaluated] for [learned task memory]. It was observed that the average number of entries into dark and time spent in dark were significantly decreased. After exposure to respective treatment [fishes] in group III to VII were subjected to [cognitive] [evaluation]. There was [no significant] difference in [cognition] of group III and IV [fishes] exposed to [sulforaphane] and [piracetam] alone respectively. [Fishes] exposed to [scopolamine] showed a significant [cognitive impairment]. [Sulforaphane] exposure prior to [scopolamine] significantly retained the [memory] of [learned] task. These [findings] suggest that [sulforaphane] might be a promising [therapeutic agent] for [cognitive] enhancement in [Alzheimer's disease].	[Cognition]{Physiology} is Cognition [epidemiological studies]{Procedures} is Epidemiological Studies [Sulforaphane]{Chemicals & Drugs} is Sulforaphane [Scopolamine]{Chemicals & Drugs} is Scopolamine [Cognitive Impairment]{Disorders} is Cognitive impairment [vegetables]{Objects} is Vegetables [Zebra Fish]{Living Beings} is Zebra fish [cruciferous vegetables]{Objects} is Cruciferous vegetable [Danio rerio]{Living Beings} is Zebra fish [Broccoli]{Objects} is Broccoli [Brussels sprouts]{Objects} is Brussels sprouts [chronic diseases]{Disorders} is Chronic Diseases [Sulforaphane]{Chemicals & Drugs} is Sulforaphane [isothiocynate]{Chemicals & Drugs} is Chemicals, Organic [found]{Disorders} is Found [cruciferous vegetables]{Objects} is Cruciferous vegetable [study]{Procedures} is Study [sulforaphane]{Chemicals & Drugs} is Sulforaphane [cognitive impairment]{Disorders} is Cognitive impairment [zebra fish]{Living Beings} is Zebra fish [model]{Disorders} is Animal model [method]{Concepts & Ideas} is Methods [fear conditioning]{Physiology} is Conditional learning [zebra fishes]{Living Beings} is Zebra fish [studied]{Procedures} is Study [Fishes]{Living Beings} is Zebra fish [fear conditioned control]{Physiology} is Conditional learning [sulforaphane]{Chemicals & Drugs} is Sulforaphane [piracetam]{Chemicals & Drugs} is Piracetam [scopolamine]{Chemicals & Drugs} is Scopolamine [memory impairment]{Disorders} is Memory Impairment [fishes]{Living Beings} is Zebra fish [sulforaphane]{Chemicals & Drugs} is Sulforaphane [piracetam]{Chemicals & Drugs} is Piracetam [scopolamine]{Chemicals & Drugs} is Scopolamine [memory impairment]{Disorders} is Memory Impairment [behavioural analysis]{Procedures} is Behavioural analysis [fishes]{Living Beings} is Zebra fish [compartment]{Concepts & Ideas} is Part [Fishes]{Living Beings} is Zebra fish [fear conditioning]{Physiology} is Conditional learning [evaluated]{Procedures} is Evaluated [learned task memory]{Physiology} is Memory [fishes]{Living Beings} is Zebra fish [cognitive]{Physiology} is Cognition [evaluation]{Procedures} is Evaluated [no significant]{Disorders} is Not significant [cognition]{Physiology} is Cognition [fishes]{Living Beings} is Zebra fish [sulforaphane]{Chemicals & Drugs} is Sulforaphane [piracetam]{Chemicals & Drugs} is Piracetam [Fishes]{Living Beings} is Zebra fish [scopolamine]{Chemicals & Drugs} is Scopolamine [cognitive impairment]{Disorders} is Cognitive impairment [Sulforaphane]{Chemicals & Drugs} is Sulforaphane [scopolamine]{Chemicals & Drugs} is Scopolamine [memory]{Physiology} is Memory [learned]{Physiology} is Learning [findings]{Disorders} is Finding (finding) [sulforaphane]{Chemicals & Drugs} is Sulforaphane [therapeutic agent]{Chemicals & Drugs} is Therapeutic agent [cognitive]{Physiology} is Cognition [Alzheimer's disease]{Disorders} is Alzheimer's disease
Value of [MDM2], [CDK4] and [SATB2] [immunohistochemistry] in [histologic] [diagnosis] of [low-grade] [osteosarcoma] To investigate the value of combined application of [MDM2], [CDK4] and [SATB2] [immunohistochemistry] in pathological [diagnosis] of [low-grade] [osteosarcoma]. Forty-seven cases of [low grade] [osteosarcoma], including [low grade central osteosarcoma] (n=20) and [parosteal osteosarcoma] (n=27), were selected from [Shanghai Jiaotong University] Affiliated the [Sixth People's Hospital]. The clinical, [radiography] and [histopathology] were reviewed. The sensitivity and specificity of [MDM2], [CDK4] and [SATB2] [immunohistochemistry] in the [diagnosis] of [low-grade] [osteosarcoma] were [assessed] along with an [evaluation] of their [expressions] in [fibrous dysplasia], [desmoplastic fibroma], [low-grade] [fibrosarcoma] and other [fibrous tumors]. [Low-grade] [osteosarcoma] had [protracted clinical course], occurring mostly in elder adults and mainly involving long [bones]. Radiographic studies showed that [low-grade central osteosarcoma] had a mainly malignant lytic presentation, however about 5/18 of t [umors overlapping] with intermediate and benign [bone diseases], while [parosteal osteosarcoma] was characterized by a densely sclerotic malignant appearance. [Histologically], [low-grade] [osteosarcoma] s were characterized by well-differentiated spindle [tumor cells], various [mature] [tumor bones] and an aggressive [growth pattern]. The [positive expression] rates of [MDM2] and [CDK4] in [low-grade] [osteosarcoma] were 74.5% and 55.3%, respectively. Eighty-three percent of [low-grade] [osteosarcoma] expressed one or both markers. [Low-grade] [osteosarcoma] and [fibrous dysplasia] were both [positive] for [SATB2], while [desmoplastic fibroma], [low-grade] [fibrosacoma] and other [fibrous tumors] were [negative] for [SATB2]. Accurate [diagnosis] of [low-grade] [osteosarcoma] should be based on combination of clinical presentation, [imaging] and [histopathology], with [immunohistochemistry] as a diagnostic adjunct. [Positive immunostaining] for [CDK4] and/or [MDM2] supports the [diagnosis] of [low-grade] [osteosarcoma], but the negative one does not rule out such [lesion]. The negative [expression] of [SATB2] is helpful to exclude [fibrous tumors] originating from [bone] with the exception of [fibrous dysplasia].	[MDM2]{Chemicals & Drugs} is Mdm2 protein [CDK4]{Chemicals & Drugs} is Cdk4 Protein [SATB2]{Chemicals & Drugs} is SATB2 protein, human [immunohistochemistry]{Procedures} is Immunohistochemistry [MDM2]{Chemicals & Drugs} is Mdm2 protein [histologic]{Physiology} is Histologic Type [CDK4]{Chemicals & Drugs} is Cdk4 Protein [diagnosis]{Disorders} is Diagnosis [SATB2]{Chemicals & Drugs} is SATB2 protein, human [immunohistochemistry]{Procedures} is Immunohistochemistry [low-grade]{Disorders} is Low grade (lymphoma grade) [osteosarcoma]{Disorders} is Osteosarcoma [diagnosis]{Disorders} is Diagnosis [low-grade]{Disorders} is Low grade (lymphoma grade) [osteosarcoma]{Disorders} is Osteosarcoma [low grade]{Disorders} is Low grade (lymphoma grade) [osteosarcoma]{Disorders} is Osteosarcoma [low grade central osteosarcoma]{Disorders} is Low grade central osteosarcoma [parosteal osteosarcoma]{Disorders} is Parosteal Osteosarcoma [Shanghai Jiaotong University]{Organizations} is University [Sixth People's Hospital]{Organizations} is Hospital [radiography]{Procedures} is Diagnostic radiography [histopathology]{Phenomena} is Histopathology finding [MDM2]{Chemicals & Drugs} is Mdm2 protein [CDK4]{Chemicals & Drugs} is Cdk4 Protein [SATB2]{Chemicals & Drugs} is SATB2 protein, human [immunohistochemistry]{Procedures} is Immunohistochemistry [diagnosis]{Disorders} is Diagnosis [low-grade]{Disorders} is Low grade (lymphoma grade) [osteosarcoma]{Disorders} is Osteosarcoma [assessed]{Procedures} is Assessment - action [evaluation]{Procedures} is Assessment - action [expressions]{Physiology} is Protein expression [fibrous dysplasia]{Disorders} is Fibrous dysplasia [desmoplastic fibroma]{Disorders} is Desmoplastic fibroma [low-grade]{Disorders} is Low grade (lymphoma grade) [fibrosarcoma]{Disorders} is Fibrosarcoma [fibrous tumors]{Disorders} is Fibrous Tumor [Low-grade]{Disorders} is Low grade (lymphoma grade) [osteosarcoma]{Disorders} is Osteosarcoma [protracted clinical course]{Disorders} is Protracted course [bones]{Anatomy} is Bones set [low-grade central osteosarcoma]{Disorders} is Low grade central osteosarcoma [umors overlapping]{Concepts & Ideas} is Overlapping tumor [bone diseases]{Disorders} is Bone Diseases [parosteal osteosarcoma]{Disorders} is Parosteal Osteosarcoma [Histologically]{Physiology} is Histologic Type [low-grade]{Disorders} is Low grade (lymphoma grade) [osteosarcoma]{Disorders} is Osteosarcoma [tumor cells]{Anatomy} is Tumor Cell [mature]{Anatomy} is Mature Bone [tumor bones]{Disorders} is Bone Tumor [growth pattern]{Disorders} is Growth pattern [positive expression]{Physiology} is Protein expression [MDM2]{Chemicals & Drugs} is Mdm2 protein [CDK4]{Chemicals & Drugs} is Cdk4 Protein [low-grade]{Disorders} is Low grade (lymphoma grade) [osteosarcoma]{Disorders} is Osteosarcoma [low-grade]{Disorders} is Low grade (lymphoma grade) [osteosarcoma]{Disorders} is Osteosarcoma [Low-grade]{Disorders} is Low grade (lymphoma grade) [osteosarcoma]{Disorders} is Osteosarcoma [fibrous dysplasia]{Disorders} is Fibrous dysplasia [positive]{Disorders} is POSITIVE [SATB2]{Chemicals & Drugs} is SATB2 protein, human [desmoplastic fibroma]{Disorders} is Desmoplastic fibroma [low-grade]{Disorders} is Low grade (lymphoma grade) [fibrosacoma]{Disorders} is Fibrosarcoma [fibrous tumors]{Disorders} is Fibrous Tumor [negative]{Disorders} is NEGATIVE [SATB2]{Chemicals & Drugs} is SATB2 protein, human [diagnosis]{Disorders} is Diagnosis [low-grade]{Disorders} is Low grade (lymphoma grade) [osteosarcoma]{Disorders} is Osteosarcoma [imaging]{Procedures} is IMAGING DIAG [histopathology]{Phenomena} is Histopathology finding [immunohistochemistry]{Procedures} is Immunohistochemistry [Positive immunostaining]{Procedures} is Staining [CDK4]{Chemicals & Drugs} is Cdk4 Protein [MDM2]{Chemicals & Drugs} is Mdm2 protein [diagnosis]{Disorders} is Diagnosis [low-grade]{Disorders} is Low grade (lymphoma grade) [osteosarcoma]{Disorders} is Osteosarcoma [lesion]{Disorders} is Lesion [expression]{Physiology} is Protein expression [SATB2]{Chemicals & Drugs} is SATB2 protein, human [fibrous tumors]{Disorders} is Fibrous Tumor [bone]{Anatomy} is Bones set [fibrous dysplasia]{Disorders} is Fibrous dysplasia
Biobank and [Genomic] [Research] in [Uganda]: Are Extant Privacy and Confidentiality Regimes Adequate? Not many [African countries] have been able to develop a robust system for regulating [health research] within their respective [jurisdictions], particularly in the realm of biobanking and [genomics]. This is not without reason. Aside from underdevelopment and all that it entails or perhaps in consequence thereof, [countries] in the [region] have been unable to make significant strides in [medical research]. But there are exceptions. Amongst the few seeming success stories is [Uganda]. Nonetheless, although the country has developed what appears to be a functional framework to govern [genomic] [research] and biobanking, the consistency of key provisions with international [standards], especially those pertaining to privacy of [research] [participants] and confidentiality of their health information, is not at all clear. Yet, making this determination - the main [objective] of this [article] - is critical in determining the adequacy of protection available to [human] [research subjects] in the [country].	[African countries]{Geographic Areas} is Africa [Genomic]{Occupations} is Genomics [Research]{Procedures} is Research [Uganda]{Geographic Areas} is Uganda [health research]{Procedures} is Health Care Research [jurisdictions]{Concepts & Ideas} is Jurisdiction [genomics]{Occupations} is Genomics [countries]{Geographic Areas} is Countries [region]{Geographic Areas} is Region [medical research]{Procedures} is Medical Research [Uganda]{Geographic Areas} is Uganda [genomic]{Occupations} is Genomics [research]{Procedures} is Research [standards]{Concepts & Ideas} is Standards [research]{Procedures} is Research [participants]{Living Beings} is Participant [objective]{Concepts & Ideas} is Objective [article]{Concepts & Ideas} is Article [human]{Living Beings} is Human [research subjects]{Living Beings} is Research Subjects [country]{Geographic Areas} is Countries
Impact of a Casino [Opening] on Gambling Behaviors of [People] Engaged in [Methadone] Maintenance This study examined gambling behavior in the context of a newly [opening] casino, comparing disordered gamblers to non-disordered gamblers, in a [population] of [individuals] involved in methadone maintenance treatment. Disordered gamblers (N = 50) and non-disordered gamblers (N = 50) were surveyed before and after the [opening] of a new casino on gambling behaviors, [substance use], and [psychological symptoms]. [No statistically significant changes] in gambling behaviors were observed for disordered gamblers or non-disordered gamblers across time points; however, non-disordered gamblers demonstrated [non-significant increases] in [horse] and [dog] race betting, electronic games, and casino [table games]. As expected, disordered gamblers were found to spend significantly more money on electronic games and casino [table games] (p < 0.05) and demonstrated higher rates of [drug use] and impulsivity than non-disordered gamblers. The introduction of a new casino did not appear to have a major impact on gambling behaviors of [individuals] attending methadone maintenance treatment, though the [non-significant increases] in gambling among non-disordered gamblers may indicate that this [population] is preferentially impacted by the [opening] of a new casino. Future investigation into the longer term effects of [opening] a new casino on this [population] may be warranted.	[Opening]{Concepts & Ideas} is Open [People]{Living Beings} is People [opening]{Concepts & Ideas} is Open [Methadone]{Chemicals & Drugs} is Methadone [population]{Living Beings} is Population [individuals]{Living Beings} is People [opening]{Concepts & Ideas} is Open [substance use]{Disorders} is Substance Use Status [psychological symptoms]{Disorders} is Psychological symptom [No statistically significant changes]{Disorders} is Investigation Finding [non-significant increases]{Disorders} is Investigation Finding [horse]{Living Beings} is HORSE [dog]{Living Beings} is DOG [table games]{Concepts & Ideas} is Playing Cards or Table Games [table games]{Concepts & Ideas} is Playing Cards or Table Games [drug use]{Disorders} is Drug usage [individuals]{Living Beings} is People [non-significant increases]{Disorders} is Investigation Finding [population]{Living Beings} is Population [opening]{Concepts & Ideas} is Open [opening]{Concepts & Ideas} is Open [population]{Living Beings} is Population
Association between [Leukoaraiosis] and [Poor Outcome] is not due to [Reperfusion] [Inefficiency] after [Intravenous Thrombolysis] [Leukoaraiosis] ([LA]) is associated with [structural] and [functional cerebrovascular impairment], which may compromise the capacity of ischemic [tissue] to maximize [reperfusion] after [intravenous thrombolysis] ([IVT]). We aimed to determine whether severe [LA] is correlated with [reperfusion] [inefficiency], which contributes to infarct growth and [poor functional outcome]. We analyzed data from our consecutive [acute ischemic stroke] ([AIS]) patients who had acquired baseline and 24-h [follow-up] [diffusion-] and [perfusion-weighted imaging]. [Reperfusion] was defined as [reduction] of ≥70 % of [hypoperfusion] [lesion] at 24 h from baseline. Severe [LA] was defined as Fazekas score 2 or 3 on [FLAIR images]. We investigated the relationship between severity of [LA] and [reperfusion] status. Multivariate statistical analysis was carried out for [modeling] the independent predictors of [reperfusion], infarct growth, and functional outcome. Finally, 79 patients were included, among them 30 (37.97 %) had severe [LA]. [Reperfusion] was observed in 41 (51.89 %) patients, the proportion of [reperfusion] was very similar in patients with and without severe [LA] (53.33 vs 51.02 %, p = 1.000). Large [artery occlusion] was the only independent unfavorable predictor for [reperfusion] (OR = 0.202, 95 % confidence interval, 0.060-0.673; p = 0.014). [Multiple linear regression analysis] revealed that severe [LA] was independently associated with infarct growth (standardized coefficients = 0.191, p = 0.040). Severe [LA] was also an independent predictor of [poor outcome] (mRS ≥ 3) (OR = 4.004, 95 % confidence interval, 1.267-12.656, p = 0.018) after adjusting for [reperfusion] and baseline severity of [stroke]. Severe [LA] was associated with infarct growth and [poor outcome] independent of [reperfusion] status, which may expand the notion that [LA] contributes the intrinsic vulnerability of [brain tissue] to [acute ischemic insults]. The burden of [LA] may not serve as an imaging indicator of [reperfusion] [inefficiency] after [IVT] for [AIS] patients.	[Leukoaraiosis]{Disorders} is Leukoaraiosis [LA]{Disorders} is Leukoaraiosis [Leukoaraiosis]{Disorders} is Leukoaraiosis [structural]{Disorders} is Cerebral damage [Poor Outcome]{Disorders} is Poor outcome [functional cerebrovascular impairment]{Disorders} is Cerebral damage [Reperfusion]{Phenomena} is Physiological reperfusion [Inefficiency]{Disorders} is Inefficiency [Intravenous Thrombolysis]{Procedures} is THROMBOLYSIS THER [tissue]{Anatomy} is Tissue [reperfusion]{Phenomena} is Physiological reperfusion [intravenous thrombolysis]{Procedures} is THROMBOLYSIS THER [IVT]{Procedures} is THROMBOLYSIS THER [LA]{Disorders} is Leukoaraiosis [reperfusion]{Phenomena} is Physiological reperfusion [inefficiency]{Disorders} is Inefficiency [poor functional outcome]{Disorders} is Poor outcome [acute ischemic stroke]{Disorders} is Ischemic stroke [AIS]{Disorders} is Ischemic stroke [follow-up]{Procedures} is Follow-up [diffusion-]{Procedures} is Diffusion-Weighted MRI [perfusion-weighted imaging]{Procedures} is Perfusion-Weighted MR [Reperfusion]{Phenomena} is Physiological reperfusion [reduction]{Procedures} is Reduction [hypoperfusion]{Disorders} is Hypoperfusion (qualifier value) [lesion]{Disorders} is Lesion [LA]{Disorders} is Leukoaraiosis [FLAIR images]{Procedures} is FLAIR image [LA]{Disorders} is Leukoaraiosis [reperfusion]{Phenomena} is Physiological reperfusion [modeling]{Procedures} is Modeling [reperfusion]{Phenomena} is Physiological reperfusion [LA]{Disorders} is Leukoaraiosis [Reperfusion]{Phenomena} is Physiological reperfusion [reperfusion]{Phenomena} is Physiological reperfusion [LA]{Disorders} is Leukoaraiosis [artery occlusion]{Disorders} is Occlusion of artery [reperfusion]{Phenomena} is Physiological reperfusion [Multiple linear regression analysis]{Concepts & Ideas} is Regression Analysis [LA]{Disorders} is Leukoaraiosis [LA]{Disorders} is Leukoaraiosis [poor outcome]{Disorders} is Poor outcome [reperfusion]{Phenomena} is Physiological reperfusion [stroke]{Disorders} is Stroke [LA]{Disorders} is Leukoaraiosis [poor outcome]{Disorders} is Poor outcome [reperfusion]{Phenomena} is Physiological reperfusion [LA]{Disorders} is Leukoaraiosis [brain tissue]{Anatomy} is Brain tissue structure [acute ischemic insults]{Disorders} is Ischemia [LA]{Disorders} is Leukoaraiosis [reperfusion]{Phenomena} is Physiological reperfusion [inefficiency]{Disorders} is Inefficiency [IVT]{Procedures} is THROMBOLYSIS THER [AIS]{Disorders} is Ischemic stroke
[RNA topoisomerase] is prevalent in all domains of life and associates with [polyribosomes] in [animals] [DNA Topoisomerases] are essential to resolve topological problems during [DNA metabolism] in all [species]. However, the prevalence and function of [RNA topoisomerases] remain uncertain. Here, we show that [RNA topoisomerase activity] is prevalent in [Type IA topoisomerases] from [bacteria], archaea, and [eukarya]. Moreover, this [activity] always requires the [conserved Type IA core domains] and the same catalytic residue used in [DNA topoisomerase reaction]; however, it does not absolutely require the [non-conserved carboxyl-terminal domain] ([CTD]), which is necessary for [relaxation reactions] of [supercoiled DNA]. The [RNA topoisomerase activity] of [human Top3β] differs from that of [Escherichia coli] [topoisomerase I] in that the former but not the latter requires the [CTD], indicating that [topoisomerases] have developed distinct mechanisms during evolution to catalyze [RNA topoisomerase] reactions. Notably, [Top3β proteins] from several [animals] associate with [polyribosomes], which are units of [mRNA] [translation], whereas the Top3 homologs from [E. coli] and [yeast] lack the association. The [Top3β] - [polyribosome] association requires [TDRD3], which directly interacts with [Top3β] and is present in [animals] but not [bacteria] or [yeast]. We propose that [RNA topoisomerases] arose in the early [RNA] world, and that they are retained through all domains of [DNA] -based life, where they mediate [mRNA] [translation] as part of [polyribosomes] in [animals].	[RNA topoisomerase]{Chemicals & Drugs} is Topoisomerase [DNA Topoisomerases]{Chemicals & Drugs} is DNA Topoisomerases [DNA metabolism]{Physiology} is DNA metabolism [polyribosomes]{Anatomy} is Polyribosome (body structure) [animals]{Living Beings} is Animals [species]{Concepts & Ideas} is Species [RNA topoisomerases]{Chemicals & Drugs} is Topoisomerase [RNA topoisomerase activity]{Physiology} is Topoisomerase activity [Type IA topoisomerases]{Chemicals & Drugs} is Topoisomerase [bacteria]{Living Beings} is BACTERIA [eukarya]{Living Beings} is Eukarya [activity]{Physiology} is Molecular function [conserved Type IA core domains]{Genes & Molecular Sequences} is CONSERVED SEQ [DNA topoisomerase reaction]{Physiology} is DNA topoisomerase activity [non-conserved carboxyl-terminal domain]{Genes & Molecular Sequences} is Domain [CTD]{Genes & Molecular Sequences} is Domain [relaxation reactions]{Physiology} is Gene function (function) [supercoiled DNA]{Chemicals & Drugs} is Supercoiled DNA [RNA topoisomerase activity]{Physiology} is Topoisomerase activity [human Top3β]{Chemicals & Drugs} is TOP3B protein, human [Escherichia coli]{Living Beings} is Escherichia coli [topoisomerase I]{Chemicals & Drugs} is DNA topoisomerase [CTD]{Genes & Molecular Sequences} is Domain [topoisomerases]{Chemicals & Drugs} is Topoisomerase [RNA topoisomerase]{Chemicals & Drugs} is Topoisomerase [Top3β proteins]{Chemicals & Drugs} is TOP3B protein, human [animals]{Living Beings} is Animals [polyribosomes]{Anatomy} is Polyribosome (body structure) [mRNA]{Chemicals & Drugs} is MRNA [translation]{Physiology} is Translational [E. coli]{Living Beings} is Escherichia coli [yeast]{Living Beings} is YEAST [Top3β]{Chemicals & Drugs} is TOP3B protein, human [polyribosome]{Anatomy} is Polyribosome (body structure) [TDRD3]{Chemicals & Drugs} is Tdrd3 protein, human [Top3β]{Chemicals & Drugs} is TOP3B protein, human [animals]{Living Beings} is Animals [bacteria]{Living Beings} is BACTERIA [yeast]{Living Beings} is YEAST [RNA topoisomerases]{Chemicals & Drugs} is Topoisomerase [RNA]{Chemicals & Drugs} is RNA [DNA]{Chemicals & Drugs} is DNA [mRNA]{Chemicals & Drugs} is MRNA [translation]{Physiology} is Translational [polyribosomes]{Anatomy} is Polyribosome (body structure) [animals]{Living Beings} is Animals
[First Draft] [Genome Sequence] of [Staphylococcus condimenti F-2T] This [report] describes the [draft] [genome sequence] of [S. condimenti strain F-2(T) (DSM 11674)], a potential [starter culture]. The [genome assembly] comprised 2,616,174 [bp] with 34.6% GC content. To the best of our knowledge, this is the first [documentation] that [reports] the [whole-genome sequence] of [S. condimenti].	[First Draft]{Concepts & Ideas} is Draft [report]{Concepts & Ideas} is Reported [Genome Sequence]{Genes & Molecular Sequences} is Genome Assembly Sequence [draft]{Concepts & Ideas} is Draft [Staphylococcus condimenti F-2T]{Living Beings} is Staphylococcus condimenti [genome sequence]{Genes & Molecular Sequences} is Genome Assembly Sequence [S. condimenti strain F-2(T) (DSM 11674)]{Living Beings} is Staphylococcus condimenti [starter culture]{Procedures} is Bacterial culture [genome assembly]{Genes & Molecular Sequences} is Genome Assembly Sequence [bp]{Physiology} is Base pair [documentation]{Concepts & Ideas} is Documentation [reports]{Concepts & Ideas} is Reported [whole-genome sequence]{Genes & Molecular Sequences} is Genome Assembly Sequence [S. condimenti]{Living Beings} is Staphylococcus condimenti
Efficacy of a coaxial system with a compliant [balloon catheter] for navigation of the [Penumbra] [reperfusion] [catheter] in [tortuous arteries]: technique and case [experience] [OBJECTIVE] The [authors] describe a [method] by which they [easily] and atraumatically navigate a [large-bore] [reperfusion] [catheter] of the [Penumbra system] to an [embolus] by using a coaxial system with a compliant [balloon catheter] in patients with [tortuous arteries]. [METHODS] A [retrospective review] of the prospective endovascular [database] was performed to identify cases in which a coaxial system with a compliant [balloon catheter] ([Scepter C], [MicroVention] / Terumo; or [TransForm C], [Stryker] [Neurovascular]) and a [large-bore] [reperfusion] [catheter] of the [Penumbra system] ([Penumbra, Inc.]) was used. The [authors] achieved a stable [guiding] [sheath] [position] and delivered the coaxial system with a compliant [balloon catheter] and a [large-bore] [reperfusion] [catheter]. Then, the [balloon] was inflated somewhat when the [distal] tip of the [balloon] was slightly advanced from the tip of the [reperfusion] [catheter], and together the coaxial system was advanced to an [embolus] over a 0.014-in guidewire, even around the corner. When the [distal] tip of the [balloon catheter] reached the [embolus], the [authors] deflated the [balloon] and navigated the [large-bore] [reperfusion] [catheter] to the [embolus]. Finally, the [aspiration] of the [embolus] with the [Penumbra] [MAX pump] was begun. RESULTS Between May 2014 and September 2015, the [authors] used this technique in 17 cases: 16 cases of [middle cerebral artery occlusion] (including 5 cases of [internal carotid artery occlusion]) and 1 case of [basilar artery occlusion] (age range 36-88 years, mean age 74.7 years, 13 [men]). For the [reperfusion] [catheter] of the [Penumbra system], the [5MAX ACE] was used in 15 cases, and the [5MAX] was used in 2 cases. As a compliant [balloon catheter], the [Scepter C] was used in 16 cases, and the [TransForm C] was used in 1 case. The technique was successful in 16 cases (94.1%). No parent [artery dissections] were noted in any cases. [Catheter] -induced [vasospasm] was noted in 1 case, but the [vasospasm] was transient. CONCLUSIONS A coaxial system with a compliant [balloon catheter] can help safely and [easily] to navigate the [large-bore] [reperfusion] [catheter] of the [Penumbra system] to an [embolus] in patients with [tortuous arteries].	[OBJECTIVE]{Concepts & Ideas} is Objective [authors]{Living Beings} is Authors [method]{Concepts & Ideas} is Methods [balloon catheter]{Devices} is Cardiac balloon catheter [easily]{Disorders} is Easily [Penumbra]{Devices} is MED DEVICE [large-bore]{Devices} is Large-bore introducer [reperfusion]{Phenomena} is Physiological reperfusion [reperfusion]{Phenomena} is Physiological reperfusion [catheter]{Devices} is Catheters [catheter]{Devices} is Catheters [tortuous arteries]{Disorders} is Tortuous cerebral arteries [Penumbra system]{Devices} is MED DEVICE [embolus]{Disorders} is Embolus [experience]{Physiology} is Experience [balloon catheter]{Devices} is Cardiac balloon catheter [tortuous arteries]{Disorders} is Tortuous cerebral arteries [METHODS]{Concepts & Ideas} is Methods [retrospective review]{Procedures} is RETROSPECTIVE [database]{Concepts & Ideas} is Databases [balloon catheter]{Devices} is Cardiac balloon catheter [Scepter C]{Devices} is MED DEVICE [MicroVention]{Devices} is MED DEVICE [TransForm C]{Devices} is MED DEVICE [Stryker]{Devices} is MED DEVICE [Neurovascular]{Anatomy} is Neurovascular bundle [large-bore]{Devices} is Large-bore introducer [reperfusion]{Phenomena} is Physiological reperfusion [catheter]{Devices} is Catheters [Penumbra system]{Devices} is MED DEVICE [Penumbra, Inc.]{Concepts & Ideas} is Organization.name [authors]{Living Beings} is Authors [guiding]{Devices} is Guiding catheter [sheath]{Anatomy} is Schwann Sheath [position]{Concepts & Ideas} is Positioning [balloon catheter]{Devices} is Cardiac balloon catheter [large-bore]{Devices} is Large-bore introducer [reperfusion]{Phenomena} is Physiological reperfusion [catheter]{Devices} is Catheters [balloon]{Devices} is Cardiac balloon catheter [distal]{Concepts & Ideas} is Distal [balloon]{Devices} is Cardiac balloon catheter [reperfusion]{Phenomena} is Physiological reperfusion [catheter]{Devices} is Catheters [embolus]{Disorders} is Embolus [distal]{Concepts & Ideas} is Distal [balloon catheter]{Devices} is Cardiac balloon catheter [embolus]{Disorders} is Embolus [authors]{Living Beings} is Authors [balloon]{Devices} is Cardiac balloon catheter [large-bore]{Devices} is Large-bore introducer [reperfusion]{Phenomena} is Physiological reperfusion [catheter]{Devices} is Catheters [embolus]{Disorders} is Embolus [aspiration]{Procedures} is Aspiration - action [embolus]{Disorders} is Embolus [Penumbra]{Devices} is MED DEVICE [MAX pump]{Devices} is MED DEVICE [authors]{Living Beings} is Authors [middle cerebral artery occlusion]{Disorders} is Middle Cerebral Artery Occlusion [internal carotid artery occlusion]{Disorders} is Internal carotid artery occlusion [basilar artery occlusion]{Disorders} is Basilar artery occlusion [men]{Living Beings} is Men [reperfusion]{Phenomena} is Physiological reperfusion [catheter]{Devices} is Catheters [Penumbra system]{Devices} is MED DEVICE [5MAX ACE]{Devices} is MED DEVICE [5MAX]{Devices} is MED DEVICE [balloon catheter]{Devices} is Cardiac balloon catheter [Scepter C]{Devices} is MED DEVICE [TransForm C]{Devices} is MED DEVICE [artery dissections]{Disorders} is Artery dissection [Catheter]{Devices} is Catheters [vasospasm]{Disorders} is Vasospasm [vasospasm]{Disorders} is Vasospasm [balloon catheter]{Devices} is Cardiac balloon catheter [easily]{Disorders} is Easily [large-bore]{Devices} is Large-bore introducer [reperfusion]{Phenomena} is Physiological reperfusion [catheter]{Devices} is Catheters [Penumbra system]{Devices} is MED DEVICE [embolus]{Disorders} is Embolus [tortuous arteries]{Disorders} is Tortuous cerebral arteries
[Hepatic] and [renal] toxicological [evaluations] of an industrial [ovotoxic chemical], [4-vinylcyclohexene diepoxide], in both sexes of [Wistar rats] [4-Vinylcyclohexene diepoxide] ([VCD]) is an industrial occupational health hazard chemical because it induces [ovotoxicity] in [rodents]. The current [study] investigated the impacts of [VCD] on selected [hepatic] and [renal] [markers] of [oxidative stress] and [inflammation] in both sexes of [Wistar rats]. Thus, male and female [rats] were randomly distributed into four groups of ten [rats] per group, and dosed orally with [VCD] for 28 days. The control male and female groups of [rats] received [corn oil] only, while each of the three remaining groups of both sexes of [rats] received [VCD] (100, 250 and 500 mg/kg BW) respectively. Thereafter, [biomarkers] of [hepatic] and [renal oxidative damage], [inflammation] and [immunohistochemical expressions] of [iNOS], [COX-2], [caspase-9] and [caspase-3] were [evaluated]. The results revealed that [VCD] increased [markers] of [liver] and [kidney functions], [oxidative damage] and [inflammation], and disrupted the [antioxidant homeostasis] of the [rats] (p<0.05). Lastly, [VCD] enhanced the [immunohistochemical expressions] of [iNOS], [COX-2], [caspase-9] and [caspase-3] in the [liver] of the [rats]. Thus, our data imply that [VCD] induced [toxicity] in the [liver] and [kidney] of [rats] via the combined impacts of [oxidative damage] and [inflammation].	[Hepatic]{Anatomy} is Hepatic [4-Vinylcyclohexene diepoxide]{Chemicals & Drugs} is 4-vinylcyclohexene diepoxide [renal]{Anatomy} is Renal [VCD]{Chemicals & Drugs} is 4-vinylcyclohexene diepoxide [evaluations]{Procedures} is Evaluations [ovotoxic chemical]{Chemicals & Drugs} is Toxic chemical [4-vinylcyclohexene diepoxide]{Chemicals & Drugs} is 4-vinylcyclohexene diepoxide [ovotoxicity]{Disorders} is Toxicity [rodents]{Living Beings} is Rodents [Wistar rats]{Living Beings} is Wistar Rats [study]{Procedures} is Study [VCD]{Chemicals & Drugs} is 4-vinylcyclohexene diepoxide [hepatic]{Anatomy} is Hepatic [renal]{Anatomy} is Renal [markers]{Physiology} is BIOL MARKERS [oxidative stress]{Disorders} is Oxidative stress [inflammation]{Disorders} is Inflammation [Wistar rats]{Living Beings} is Wistar Rats [rats]{Living Beings} is Wistar Rats [rats]{Living Beings} is Wistar Rats [VCD]{Chemicals & Drugs} is 4-vinylcyclohexene diepoxide [rats]{Living Beings} is Wistar Rats [corn oil]{Chemicals & Drugs} is Corn oil [rats]{Living Beings} is Wistar Rats [VCD]{Chemicals & Drugs} is 4-vinylcyclohexene diepoxide [biomarkers]{Physiology} is BIOL MARKERS [hepatic]{Disorders} is Hepatic damage [renal oxidative damage]{Disorders} is Kidney damage [inflammation]{Disorders} is Inflammation [immunohistochemical expressions]{Procedures} is Laboratory procedures -general (situation) [iNOS]{Chemicals & Drugs} is NOS Family [COX-2]{Chemicals & Drugs} is COX-2 Prostaglandin Synthase [caspase-9]{Chemicals & Drugs} is Caspase-9 [caspase-3]{Chemicals & Drugs} is Caspase-3 [evaluated]{Procedures} is Evaluations [VCD]{Chemicals & Drugs} is 4-vinylcyclohexene diepoxide [markers]{Physiology} is BIOL MARKERS [liver]{Physiology} is Liver function [kidney functions]{Physiology} is Renal function [oxidative damage]{Disorders} is Poisoning / injury (navigational concept) [inflammation]{Disorders} is Inflammation [antioxidant homeostasis]{Phenomena} is Homeostasis [rats]{Living Beings} is Wistar Rats [VCD]{Chemicals & Drugs} is 4-vinylcyclohexene diepoxide [immunohistochemical expressions]{Procedures} is Laboratory procedures -general (situation) [iNOS]{Chemicals & Drugs} is NOS Family [COX-2]{Chemicals & Drugs} is COX-2 Prostaglandin Synthase [caspase-9]{Chemicals & Drugs} is Caspase-9 [caspase-3]{Chemicals & Drugs} is Caspase-3 [liver]{Anatomy} is Livers [rats]{Living Beings} is Wistar Rats [VCD]{Chemicals & Drugs} is 4-vinylcyclohexene diepoxide [toxicity]{Disorders} is Toxicity [liver]{Anatomy} is Livers [kidney]{Anatomy} is Renal [rats]{Living Beings} is Wistar Rats [oxidative damage]{Disorders} is Poisoning / injury (navigational concept) [inflammation]{Disorders} is Inflammation
[Combinatorial Library] Screening Coupled to [Mass Spectrometry] to Identify Valuable [Cyclic Peptides] [Combinatorial library] screening coupled to [mass spectrometry (MS) analysis] is a practical [approach] to identify useful [peptides]. [Cyclic peptides] can have high [biological activity], selectivity, and affinity for target [proteins], and high stability against [proteolytic degradation]. Here we describe two strategies to prepare [combinatorial libraries] suitable for [MS analysis] to accelerate the [discovery] of [cyclic peptide] [structures]. Both [approaches] use [ChemMatrix resin] and the linker [4-hydroxymethylbenzoic acid]. One strategy involves the synthesis of a [one-bead-two-peptides library] in which each bead contains both the [cyclic peptide] and its linear counterpart to facilitate [MS analysis]. The other protocol is based on the synthesis of a [cyclic depsipeptide library] in which a glycolamidic ester group is incorporated by adding [glycolic acid]. After [library] screening, the ring is opened and the [peptide] is released simultaneously for subsequent [MS analysis]. © 2016 by John Wiley & Sons, Inc.	[Combinatorial library]{Chemicals & Drugs} is Synthetic Peptide Combinatorial Library [Mass Spectrometry]{Procedures} is Mass Spectrometry [mass spectrometry (MS) analysis]{Procedures} is Mass Spectrometry [Cyclic Peptides]{Chemicals & Drugs} is Cyclic Peptides [approach]{Concepts & Ideas} is Approach [peptides]{Chemicals & Drugs} is Peptide [Cyclic peptides]{Chemicals & Drugs} is Cyclic Peptides [biological activity]{Phenomena} is Biological Function [proteins]{Chemicals & Drugs} is Proteins [proteolytic degradation]{Physiology} is Proteolytic [combinatorial libraries]{Chemicals & Drugs} is Synthetic Peptide Combinatorial Library [MS analysis]{Procedures} is Mass Spectrometry [discovery]{Procedures} is Discovery Science [cyclic peptide]{Chemicals & Drugs} is Cyclic Peptides [structures]{Concepts & Ideas} is Structure [approaches]{Concepts & Ideas} is Approach [ChemMatrix resin]{Chemicals & Drugs} is Organic Chemical [4-hydroxymethylbenzoic acid]{Chemicals & Drugs} is Organic Chemical [one-bead-two-peptides library]{Chemicals & Drugs} is Peptide Library [cyclic peptide]{Chemicals & Drugs} is Cyclic Peptides [MS analysis]{Procedures} is Mass Spectrometry [cyclic depsipeptide library]{Chemicals & Drugs} is Peptide Library [glycolic acid]{Chemicals & Drugs} is Glycolic Acid [library]{Chemicals & Drugs} is Peptide Library [peptide]{Chemicals & Drugs} is Peptide [MS analysis]{Procedures} is Mass Spectrometry
[Women's] Sexual Issues After [Myocardial Infarction]: A [Literature Review] Sexual activity after [myocardial infarction] ([MI]) is a concern for patients and often a challenge for [health care professionals] to address. It is widely recognized that most patients, of both sexes, report [sexual problems] or concerns after [MI]. However, there are reported differences between [men] and [women]. [Women] with sexual concerns may seek less help from [health care providers] and are more inclined to conceal them because of cultural barriers. The aim of the [current study] is to present a comprehensive [review of the literature] describing [women's] sexual issues after [MI]. A systematic search of the relevant [literature] was performed within [international databases], including [PubMed] / [Medline], [Scopus], [ScienceDirect], and [ProQuest], as well as [Google Scholar] using relevant [keywords]. Also, Persian electronic databases such as [Magiran], [Scientific Information Databases], and [Iran Medex] were searched from the inception to October 2014. [Articles] focusing on the sexual issues after [MI] only in [women], as well as [articles] on both sexes where [women's] results could be separated, were included in this [review]. A total of 8 [articles] were included in the final [dataset]. The main themes of [women's] sexual concerns after [MI] were " loss or decrease of sexual activity ," " [dissatisfaction of sexual relationship] ," " doubt about resumption time of sexual activity ," " [fear] of [reinfarction] or [sudden death] during sexual activity after [MI] ," " [knowledge deficit] regarding sexual activity after [MI] ," and " poor performance of [health care providers] in [sexual counseling] ." The results of this [review] demonstrate that [women's] post- [MI] sexual activity is affected by many concerns. The concerns may be a [knowledge deficit] related to not receiving necessary [consultation] on this topic. [Nurses], as [first-line care givers], can provide appropriate [consultation] and education for patients post- [MI]. As a result, breaking taboo imposed by cultural barriers, personal assumptions, or [lack of confidence] on giving [sexual consultation] may ultimately help patients to improve their quality of life.	[Women's]{Living Beings} is Women [myocardial infarction]{Disorders} is Myocardial Infarction [Myocardial Infarction]{Disorders} is Myocardial Infarction [MI]{Disorders} is Myocardial Infarction [Literature Review]{Concepts & Ideas} is Review Literature [health care professionals]{Living Beings} is Health Care Professional [sexual problems]{Disorders} is Sexual problem [MI]{Disorders} is Myocardial Infarction [men]{Living Beings} is Men [women]{Living Beings} is Women [Women]{Living Beings} is Women [health care providers]{Living Beings} is Health Care Providers [current study]{Procedures} is Study [review of the literature]{Concepts & Ideas} is Review Literature [women's]{Living Beings} is Women [MI]{Disorders} is Myocardial Infarction [literature]{Concepts & Ideas} is Literature [international databases]{Concepts & Ideas} is Databases [PubMed]{Concepts & Ideas} is PubMed [Medline]{Concepts & Ideas} is Medline [Scopus]{Concepts & Ideas} is Intellectual Product [ScienceDirect]{Concepts & Ideas} is Intellectual Product [ProQuest]{Concepts & Ideas} is Intellectual Product [Google Scholar]{Concepts & Ideas} is Intellectual Product [keywords]{Concepts & Ideas} is Keyword [Magiran]{Concepts & Ideas} is Intellectual Product [Scientific Information Databases]{Concepts & Ideas} is Intellectual Product [Iran Medex]{Concepts & Ideas} is Intellectual Product [Articles]{Concepts & Ideas} is Article [MI]{Disorders} is Myocardial Infarction [women]{Living Beings} is Women [articles]{Concepts & Ideas} is Article [women's]{Living Beings} is Women [review]{Procedures} is Ongoing review [articles]{Concepts & Ideas} is Article [dataset]{Concepts & Ideas} is Data Set [women's]{Living Beings} is Women [MI]{Disorders} is Myocardial Infarction [dissatisfaction of sexual relationship]{Disorders} is Dissatisfied with sexual relationship [fear]{Physiology} is Fear [reinfarction]{Disorders} is Reinfarction of myocardium [sudden death]{Disorders} is Sudden Death [MI]{Disorders} is Myocardial Infarction [knowledge deficit]{Disorders} is Knowledge deficit [MI]{Disorders} is Myocardial Infarction [health care providers]{Living Beings} is Health Care Providers [sexual counseling]{Procedures} is Sexual counseling [review]{Procedures} is Ongoing review [women's]{Living Beings} is Women [MI]{Disorders} is Myocardial Infarction [knowledge deficit]{Disorders} is Knowledge deficit [consultation]{Procedures} is Consultation [Nurses]{Living Beings} is Nurses [first-line care givers]{Living Beings} is Care Givers [consultation]{Procedures} is Consultation [MI]{Disorders} is Myocardial Infarction [lack of confidence]{Disorders} is Lacks confidence [sexual consultation]{Procedures} is Consultation
Effect of autohydrolysis on the wettability, absorbility and further [alkali] impregnation of [poplar] wood chips Autohydrolysis with different severity factors was performed on [poplar] wood chips prior to pulping, and the wettability, absorbility and the following impregnation of [NaOH] solution for the [poplar] wood chips were then investigated. The results showed that after autohydrolysis pretreatment the porosity, shrinkage and [fiber saturation point] ([FSP]) of the [poplar] wood chips were increased, while the surface contact angle decreased as the severity factor was increased. The autohydrolyzed chips absorbed more [NaOH] in impregnation that resulted in a low [NaOH] concentration in the bulk impregnation liquor (i.e., the impregnation liquor outside wood chips), while the concentration in the [entrapped] liquor (i.e., the impregnation liquor inside wood chips) was increased. Autohydrolysis substantially [improved] the effectiveness of [alkali] impregnation.	[poplar]{Living Beings} is Poplar [alkali]{Chemicals & Drugs} is Alkali [poplar]{Living Beings} is Poplar [NaOH]{Chemicals & Drugs} is Caustic alkali of sodium [poplar]{Living Beings} is Poplar [fiber saturation point]{Disorders} is Investigation Finding [FSP]{Disorders} is Investigation Finding [poplar]{Living Beings} is Poplar [NaOH]{Chemicals & Drugs} is Caustic alkali of sodium [NaOH]{Chemicals & Drugs} is Caustic alkali of sodium [entrapped]{Disorders} is Investigation Finding [improved]{Disorders} is Improved [alkali]{Chemicals & Drugs} is Alkali
Effect of [Transcatheter Arterial Chemoembolization] Combined with [Argon-Helium Cryosurgery System] on the Changes of [NK Cells] and [T Cell Subsets] in [Peripheral Blood] of [Hepatocellular Carcinoma] Patients [Hepatocellular carcinoma] ([HCC]) is one of the most aggressive [tumors] in [humans]. [T lymphocytes] and natural killer (NK) [cells] are the [body's] first line of [defense] to prevent [tumor cell] [growth]. [Previous studies] have demonstrated that [transcatheter arterial chemoembolization] ([TACE]) combined with [argon-helium cryosurgery system] ([[AHCS]]) can effectively [treat] [liver cancer]. However, the mechanism of the [treatment] is unclear yet. In the current [study], we investigated the effects of [TACE] combined with [AHCS] on the changes of [T cell subsets] and [NK cells] in [peripheral blood] of [HCC]. Our data show that [alpha-fetoprotein] ([AFP]) levels in [peripheral blood] were significantly [up-regulated] in [HCC] patients before [treatment] when compared with healthy [people] and reduced after [TACE] combined with [AHCS] [treatment] (P < 0.01). In addition, we found that [CD4+ cells] and [NK cells] decreased (P < 0.05) and [CD8+ cells] increased (P < 0.05) in [HCC] patients when compared with healthy [people]. After [treatment], the [CD4+ cells], [CD4+] / [CD8+] ratio, and [NK cells] were dramatically increased in [HCC] patients (P < 0.05). In contrast, [CD8+ cells] were significantly decreased (P < 0.05). [TACE] combined with [AHCS] [treatment] significantly prolonged 1- year survival rate of [HCC] patients and did not show significant [side effects]. Taken together, our data indicate that [TACE] combined with [AHCS] [treatment] [improves] patients ' [immune system]. It is a feasible and effective [therapeutic method] for [HCC] patients.	[Hepatocellular carcinoma]{Disorders} is Hepatocellular carcinoma [Transcatheter Arterial Chemoembolization]{Procedures} is Transcatheter arterial chemoembolization [HCC]{Disorders} is Hepatocellular carcinoma [tumors]{Disorders} is Tumors [Argon-Helium Cryosurgery System]{Procedures} is Cryosurgery [humans]{Living Beings} is Humans [T lymphocytes]{Anatomy} is T Lymphocytes [NK Cells]{Anatomy} is NK Cells [cells]{Anatomy} is Cells set [T Cell Subsets]{Anatomy} is T Cell Subsets [body's]{Living Beings} is Human Body [Peripheral Blood]{Anatomy} is Peripheral blood [defense]{Physiology} is Host Defense [Hepatocellular Carcinoma]{Disorders} is Hepatocellular carcinoma [tumor cell]{Anatomy} is Tumor Cell [growth]{Physiology} is Cell Growth [Previous studies]{Procedures} is Study [transcatheter arterial chemoembolization]{Procedures} is Transcatheter arterial chemoembolization [TACE]{Procedures} is Transcatheter arterial chemoembolization [argon-helium cryosurgery system]{Procedures} is Cryosurgery [AHCS]{Procedures} is Cryosurgery [treat]{Procedures} is TREAT [liver cancer]{Disorders} is LIVER CANCER [treatment]{Procedures} is TREAT [study]{Procedures} is Study [TACE]{Procedures} is Transcatheter arterial chemoembolization [AHCS]{Procedures} is Cryosurgery [T cell subsets]{Anatomy} is T Cell Subsets [NK cells]{Anatomy} is NK Cells [peripheral blood]{Anatomy} is Peripheral blood [HCC]{Disorders} is Hepatocellular carcinoma [alpha-fetoprotein]{Chemicals & Drugs} is Alpha-fetoprotein [AFP]{Chemicals & Drugs} is Alpha-fetoprotein [peripheral blood]{Anatomy} is Peripheral blood [up-regulated]{Physiology} is Up-Regulation (Physiology) [HCC]{Disorders} is Hepatocellular carcinoma [treatment]{Procedures} is TREAT [people]{Living Beings} is People [TACE]{Procedures} is Transcatheter arterial chemoembolization [AHCS]{Procedures} is Cryosurgery [treatment]{Procedures} is TREAT [CD4+ cells]{Anatomy} is T4 Cells [NK cells]{Anatomy} is NK Cells [CD8+ cells]{Anatomy} is CD8+ cell [HCC]{Disorders} is Hepatocellular carcinoma [people]{Living Beings} is People [treatment]{Procedures} is TREAT [CD4+ cells]{Anatomy} is T4 Cells [CD4+]{Anatomy} is T4 Cells [CD8+]{Anatomy} is CD8+ cell [NK cells]{Anatomy} is NK Cells [HCC]{Disorders} is Hepatocellular carcinoma [CD8+ cells]{Anatomy} is CD8+ cell [TACE]{Procedures} is Transcatheter arterial chemoembolization [AHCS]{Procedures} is Cryosurgery [treatment]{Procedures} is TREAT [HCC]{Disorders} is Hepatocellular carcinoma [side effects]{Disorders} is Side Effect [TACE]{Procedures} is Transcatheter arterial chemoembolization [AHCS]{Procedures} is Cryosurgery [treatment]{Procedures} is TREAT [improves]{Disorders} is Improved [immune system]{Anatomy} is Immune System [therapeutic method]{Procedures} is TREAT [HCC]{Disorders} is Hepatocellular carcinoma
The "tight orbit": Incidence and [management] of the [orbital compartment syndrome] The [orbital compartment syndrome] ([OCS]) constitutes a severe emergency, requiring immediate [clinical diagnosis] and [surgical decompression]. The key [symptom] is [progressive visual impairment] caused by an increase in [intraorbital pressure], impairing the [perfusion] of relevant [neurovascular] and [neurosensory structures]. [Intraorbital bleeding] due to [trauma] and [surgical intervention] is known to be the main etiological factor. A retrospective [analysis] of all patients affected by an [OCS] between January 1, 2012, and May 31, 2015, was performed. Patients' [records] were reviewed with regard to etiology, initial ophthalmologic status, [fracture pattern], concomitant medication, [surgical management], and postoperative outcome. The incidence of [OCS] was calculated based on the total number of [craniomaxillofacial] ([CMF]) [emergencies]. Within 3.5 years, a total of 18,093 [CMF] [emergencies] were [registered]. In 16 patients, an [OCS] was [documented], corresponding to an incidence of 0.088%. The mean patient age was 67.31 ± 23.86 years, ranging from 22 to 102 years. The etiology varied, but [trauma] with subsequent [intraorbital bleeding] was the main [cause]. The use of [anticoagulative medication] was [documented] in 50% of the cases. In 14 patients, immediate [surgical orbital decompression] was performed: in 10 patients, [vision] could be [preserved]; in three patients, [blindness] resulted; and one patient was lost to [follow-up]. Two patients were managed without [surgery]. With regard to the total number of [CMF] [emergencies], [OCS] is a rare condition. Early [clinical diagnosis] and [surgical decompression] are required to prevent permanent [vision impairment]. [Anticoagulative medication] must be considered as a predisposing factor for an [orbital compartment syndrome] in patients affected by periorbital trauma.	[orbital compartment syndrome]{Disorders} is Compartmental syndrome [management]{Procedures} is DIS MANAGEMENT [OCS]{Disorders} is Compartmental syndrome [orbital compartment syndrome]{Disorders} is Compartmental syndrome [clinical diagnosis]{Procedures} is Clinical Diagnosis [surgical decompression]{Procedures} is Surgical Decompression [symptom]{Disorders} is Symptom [progressive visual impairment]{Disorders} is Progressive visual impairment [intraorbital pressure]{Physiology} is Intraocular pressure [perfusion]{Procedures} is Perfusions [neurovascular]{Anatomy} is Neurovascular network [neurosensory structures]{Anatomy} is Sensory structure [Intraorbital bleeding]{Disorders} is Bleeding [trauma]{Disorders} is Trauma [surgical intervention]{Disorders} is Surgical intervention [analysis]{Procedures} is Analyzed [OCS]{Disorders} is Compartmental syndrome [records]{Concepts & Ideas} is Records [fracture pattern]{Disorders} is Investigation Finding [surgical management]{Procedures} is Surgical Management [OCS]{Disorders} is Compartmental syndrome [craniomaxillofacial]{Anatomy} is Region, Body [CMF]{Anatomy} is Region, Body [emergencies]{Disorders} is Emergencies [CMF]{Anatomy} is Region, Body [emergencies]{Disorders} is Emergencies [registered]{Procedures} is Registered [OCS]{Disorders} is Compartmental syndrome [documented]{Procedures} is Documented [trauma]{Disorders} is Trauma [intraorbital bleeding]{Disorders} is Bleeding [cause]{Disorders} is Injury cause [anticoagulative medication]{Procedures} is Anticoagulation Therapy [documented]{Procedures} is Documented [surgical orbital decompression]{Procedures} is Orbital decompression [vision]{Physiology} is Vision [preserved]{Procedures} is Preserved [blindness]{Disorders} is Blindness [follow-up]{Procedures} is Follow-up [surgery]{Procedures} is Surgery [CMF]{Anatomy} is Region, Body [emergencies]{Disorders} is Emergencies [OCS]{Disorders} is Compartmental syndrome [clinical diagnosis]{Procedures} is Clinical Diagnosis [surgical decompression]{Procedures} is Surgical Decompression [vision impairment]{Disorders} is Vision impairment [Anticoagulative medication]{Procedures} is Anticoagulation Therapy [orbital compartment syndrome]{Disorders} is Compartmental syndrome
[Ammonia] as an [In Situ] Sanitizer: Influence of [Virus] [Genome Type] on Inactivation Treatment of [human] [excreta] and [animal] manure ([HEAM]) is key in controlling the spread of persistent [enteric] pathogens, such as [viruses]. The [extent] of [virus inactivation] during [HEAM] storage and treatment appears to vary with [virus] [genome type], although the reasons for this variability are not clear. Here, we investigated the inactivation of [viruses] of different [genome types] under conditions representative of [HEAM] storage or mesophilic [digestion]. The goals were to characterize the influence of [HEAM] solution conditions on inactivation and to determine the potential mechanisms involved. Specifically, eight [viruses] representing the four [viral genome types] ([single-stranded RNA] ([ssRNA]), [double-stranded RNA] ([dsRNA]), [single-stranded DNA] ([ssDNA]), and [double-stranded DNA] ([dsDNA])) were exposed to synthetic solutions with well-controlled temperature (20 to 35°C), pH (8 to 9), and [ammonia] ([NH3]) concentrations (0 to 40 mmol liter(-1)). [DNA] and [dsRNA] [viruses] were considerably more resistant than [ssRNA viruses], resulting in up to 1,000-fold-longer treatment times to reach a 4-log inactivation. The apparently slower inactivation of [DNA viruses] was rationalized by the higher [stability] of [DNA] than that of [ssRNA] in [HEAM]. Pushing the system toward harsher pH (>9) and temperature (>35°C) conditions, such as those encountered in thermophilic [digestion] and alkaline treatments, led to more consistent inactivation kinetics among [ssRNA] and other [viruses]. This suggests that the dependence of inactivation on [genome type] disappeared in favor of [protein] -mediated inactivation mechanisms common to all [viruses]. Finally, we recommend the use of [MS2] as a conservative indicator to assess the inactivation of [ssRNA viruses] and the stable [ΦX174] or [dsDNA] [phages] as indicators for persistent [viruses]. [Viruses] are among the most [environmentally] persistent pathogens. They can be [present] in high concentrations in [human] [excreta] and [animal] manure ([HEAM]). Therefore, appropriate treatment of [HEAM] is important prior to its reuse or [discharge] into the [environment]. Here, we investigated the factors that determine the persistence of [viruses] in [HEAM], and we determined the main mechanisms that lead to their inactivation. Unlike other organisms, [viruses] can have four different [genome types] (double- or [single-stranded RNA] or [DNA]), and the [viruses] studied herein represent all four types. [Genome type] appeared to be the major determinant for persistence. [Single-stranded RNA viruses] are the most labile, because this [genome type] is susceptible to degradation in [HEAM]. In contrast, the other [genome types] are more stable; therefore, inactivation is slower and mainly driven by the degradation of [viral proteins]. Overall, this study allows us to better understand the behavior of [viruses] in [HEAM].	[Ammonia]{Chemicals & Drugs} is Ammonia [human]{Living Beings} is Human [In Situ]{Concepts & Ideas} is In situ [excreta]{Anatomy} is Body Excretions [animal]{Living Beings} is Animal [HEAM]{Anatomy} is Body Excretions [Virus]{Living Beings} is Virus [Genome Type]{Genes & Molecular Sequences} is Genome [enteric]{Concepts & Ideas} is Enteral [viruses]{Living Beings} is Virus [extent]{Concepts & Ideas} is Extent [virus inactivation]{Procedures} is Virus Inactivation [HEAM]{Anatomy} is Body Excretions [virus]{Living Beings} is Virus [genome type]{Genes & Molecular Sequences} is Genome [viruses]{Living Beings} is Virus [genome types]{Genes & Molecular Sequences} is Genome [HEAM]{Anatomy} is Body Excretions [digestion]{Physiology} is Digestion [HEAM]{Anatomy} is Body Excretions [viruses]{Living Beings} is Virus [viral genome types]{Genes & Molecular Sequences} is Viral Genome [single-stranded RNA]{Chemicals & Drugs} is Single-Stranded RNA [ssRNA]{Chemicals & Drugs} is Single-Stranded RNA [double-stranded RNA]{Chemicals & Drugs} is Double-Stranded RNA [dsRNA]{Chemicals & Drugs} is Double-Stranded RNA [single-stranded DNA]{Chemicals & Drugs} is Single-stranded DNA [ssDNA]{Chemicals & Drugs} is Single-stranded DNA [double-stranded DNA]{Chemicals & Drugs} is Double-Stranded DNA [dsDNA]{Chemicals & Drugs} is Double-Stranded DNA [ammonia]{Chemicals & Drugs} is Ammonia [NH3]{Chemicals & Drugs} is Ammonia [DNA]{Chemicals & Drugs} is DNA [dsRNA]{Chemicals & Drugs} is Double-Stranded RNA [viruses]{Living Beings} is Virus [ssRNA viruses]{Living Beings} is SsRNA viruses [DNA viruses]{Living Beings} is DNA Viruses [stability]{Procedures} is DNA Stability [DNA]{Chemicals & Drugs} is DNA [ssRNA]{Chemicals & Drugs} is Single-Stranded RNA [HEAM]{Anatomy} is Body Excretions [digestion]{Physiology} is Digestion [ssRNA]{Chemicals & Drugs} is Single-Stranded RNA [viruses]{Living Beings} is Virus [genome type]{Genes & Molecular Sequences} is Genome [protein]{Chemicals & Drugs} is Protein [viruses]{Living Beings} is Virus [MS2]{Living Beings} is MS2 Phage [ssRNA viruses]{Living Beings} is SsRNA viruses [ΦX174]{Living Beings} is Phi X174 [dsDNA]{Chemicals & Drugs} is Double-Stranded DNA [phages]{Living Beings} is Phage [viruses]{Living Beings} is Virus [Viruses]{Living Beings} is Virus [environmentally]{Concepts & Ideas} is Environmental [present]{Disorders} is Present [human]{Living Beings} is Human [excreta]{Anatomy} is Body Excretions [animal]{Living Beings} is Animal [HEAM]{Anatomy} is Body Excretions [HEAM]{Anatomy} is Body Excretions [discharge]{Anatomy} is Body Substance Discharge [environment]{Concepts & Ideas} is Environmental [viruses]{Living Beings} is Virus [HEAM]{Anatomy} is Body Excretions [viruses]{Living Beings} is Virus [genome types]{Genes & Molecular Sequences} is Genome [single-stranded RNA]{Chemicals & Drugs} is Single-Stranded RNA [DNA]{Chemicals & Drugs} is DNA [viruses]{Living Beings} is Virus [Genome type]{Genes & Molecular Sequences} is Genome [Single-stranded RNA viruses]{Living Beings} is SsRNA viruses [genome type]{Genes & Molecular Sequences} is Genome [HEAM]{Anatomy} is Body Excretions [genome types]{Genes & Molecular Sequences} is Genome [viral proteins]{Chemicals & Drugs} is Viral Proteins [viruses]{Living Beings} is Virus [HEAM]{Anatomy} is Body Excretions
An [electrochemical] genosensor for [Leishmania major] [detection] based on dual effect of [immobilization] and electrocatalysis of [cobalt-zinc ferrite] quantum dots Identification of [Leishmania] [parasites] is important in [diagnosis] and [clinical studies] of [leishmaniasis]. Although [epidemiological] and clinical [methods] are available, they are not sufficient for identification of [causative agents] of [leishmaniasis]. In the present [study], quantum dots of magnetic [cobalt-zinc ferrite] ([Co0.5Zn0.5Fe2O4]) were synthesized and characterized by physicochemical methods. The quantum dots were then employed as an [electrode] [modifier] to immobilize a 24-mer specific [single stranded] [DNA probe], and fabrication of a label-free, PCR-free and signal-on [electrochemical] genosensor for the [detection] of [Leishmania major]. [Hybridization] of the [complementary] [single stranded] [DNA sequence] with the [probe] under the selected conditions was explored using [methylene blue] as a [redox marker], utilizing the electrocatalytic effect of the quantum dots on the [methylene blue] electroreduction process. The genosensor could [detect] a [synthetic single stranded DNA target] in a range of 1.0×10(-11) to 1.0×10(-18)molL(-1) with a limit of detection of 2.0×10(-19)molL(-1), and [genomic DNA] in a range of 7.31×10(-14) to 7.31×10(-6)ngμL(-1) with a limit of detection of 1.80×10(-14)ngμL(-1) with a high selectivity and sensitivity.	[electrochemical]{Procedures} is Electrochemical Technic [Leishmania]{Living Beings} is Leishmania sp. [parasites]{Living Beings} is Parasites [Leishmania major]{Living Beings} is Leishmania major, Leishmania [detection]{Procedures} is Detection [diagnosis]{Disorders} is Diagnosis [clinical studies]{Procedures} is Clinical Studies [immobilization]{Procedures} is Immobilization test [leishmaniasis]{Disorders} is Leishmaniasis [epidemiological]{Procedures} is Epidemiological Method [cobalt-zinc ferrite]{Chemicals & Drugs} is Inorganic compound [methods]{Concepts & Ideas} is Methods [causative agents]{Disorders} is Causative agent [leishmaniasis]{Disorders} is Leishmaniasis [study]{Procedures} is Clinical Studies [cobalt-zinc ferrite]{Chemicals & Drugs} is Inorganic compound [Co0.5Zn0.5Fe2O4]{Chemicals & Drugs} is Inorganic compound [electrode]{Devices} is Electrode [modifier]{Devices} is Transformer [single stranded]{Chemicals & Drugs} is Single Stranded DNA [DNA probe]{Chemicals & Drugs} is DNA Probes [electrochemical]{Procedures} is Electrochemical Technic [detection]{Procedures} is Detection [Leishmania major]{Living Beings} is Leishmania major, Leishmania [Hybridization]{Procedures} is DNA hybridization [complementary]{Chemicals & Drugs} is Complementary DNA [single stranded]{Chemicals & Drugs} is Single Stranded DNA [DNA sequence]{Genes & Molecular Sequences} is DNA Sequence [probe]{Chemicals & Drugs} is DNA Probes [methylene blue]{Chemicals & Drugs} is Methylene blue [redox marker]{Physiology} is Marker [methylene blue]{Chemicals & Drugs} is Methylene blue [detect]{Procedures} is Detection [synthetic single stranded DNA target]{Chemicals & Drugs} is Synthetic construct [genomic DNA]{Chemicals & Drugs} is Genomic DNA
The [N-Methyl d-Aspartate Glutamate Receptor Antagonist] [Ketamine] Disrupts the Functional State of the [Corticothalamic] Pathway The non-competitive [N-methyl d-aspartate glutamate receptor (NMDAR) antagonist] [ketamine] elicits a [brain] state resembling [high-risk] states for developing [psychosis] and early stages of [schizophrenia] characterized by [sensory] and [cognitive deficits] and aberrant ongoing [gamma oscillations] (30-80 Hz)in [cortical] and subcortical [structures], including the [thalamus]. The underlying mechanisms are unknown. The [goal] of the present [study] was to determine whether a [ketamine] - induced [psychotic] - relevant state disturbs the functional state of the [corticothalamic] ([CT]) pathway. [Multisite field recordings] were performed in the somatosensory CT system of the [sedated] [rat]. Baseline activity was challenged by activation of [vibrissa] - related [prethalamic] inputs. The sensory - [evoked thalamic response] was characterized by a short - latency (∼4 ms) [prethalamic] -mediated negative sharp [potential] and a longer latency (∼10 ms) [CT] -mediated negative [potential]. Following a single subcutaneous injection of [ketamine] (2.5 mg/kg), spontaneously occurring and sensory - [evoked thalamic gamma oscillations] increased and decreased in power, respectively. The power of the sensory -related [gamma oscillations] was [positively] correlated with both the [amplitude] and the area under the curve of the corresponding [CT] [potential] but not with the [prethalamic] [potential]. The present results show that the [layer VI] [CT] pathway significantly contributes in [thalamic] [gamma oscillations], and they support the hypothesis that reduced [NMDAR] [activation] disturbs the functional state of [CT] and [corticocortical] [networks].	[N-Methyl d-Aspartate Glutamate Receptor Antagonist]{Chemicals & Drugs} is N-methyl-D-aspartate receptor antagonist [N-methyl d-aspartate glutamate receptor (NMDAR) antagonist]{Chemicals & Drugs} is N-methyl-D-aspartate receptor antagonist [Ketamine]{Chemicals & Drugs} is Ketamine [ketamine]{Chemicals & Drugs} is Ketamine [brain]{Anatomy} is Brains [Corticothalamic]{Anatomy} is Corticothalamic fibres [high-risk]{Disorders} is HIGH RISK [psychosis]{Disorders} is (X) Psychosis [schizophrenia]{Disorders} is Schizophrenia [sensory]{Disorders} is Sensory deficit [cognitive deficits]{Disorders} is Cognitive disorder [gamma oscillations]{Physiology} is Brainwaves [cortical]{Anatomy} is Cortical Plate [structures]{Concepts & Ideas} is Structure [thalamus]{Anatomy} is THALAMUS [goal]{Concepts & Ideas} is Goal [study]{Procedures} is Study [ketamine]{Chemicals & Drugs} is Ketamine [psychotic]{Disorders} is (X) Psychosis [corticothalamic]{Anatomy} is Corticothalamic fibres [CT]{Anatomy} is Corticothalamic fibres [Multisite field recordings]{Procedures} is Diagnostic Technique [sedated]{Disorders} is Sedated [rat]{Living Beings} is Rat (organism) [vibrissa]{Anatomy} is Vibrissae [prethalamic]{Anatomy} is Subthalamic region [evoked thalamic response]{Physiology} is Evoked Potential [prethalamic]{Anatomy} is Subthalamic region [potential]{Physiology} is Action potential [CT]{Anatomy} is Corticothalamic fibres [potential]{Physiology} is Action potential [ketamine]{Chemicals & Drugs} is Ketamine [evoked thalamic gamma oscillations]{Physiology} is Evoked Potential [gamma oscillations]{Physiology} is Brainwaves [positively]{Disorders} is Positive for [amplitude]{Concepts & Ideas} is Amplitude [CT]{Anatomy} is Corticothalamic fibres [potential]{Physiology} is Action potential [prethalamic]{Anatomy} is Subthalamic region [potential]{Physiology} is Action potential [layer VI]{Anatomy} is Type VI layer of cerebral cortex [CT]{Anatomy} is Corticothalamic fibres [thalamic]{Anatomy} is THALAMUS [gamma oscillations]{Physiology} is Brainwaves [NMDAR]{Chemicals & Drugs} is NMDAR [activation]{Physiology} is Receptor Activation [CT]{Anatomy} is Corticothalamic fibres [corticocortical]{Anatomy} is Cortical Plate [networks]{Physiology} is Nerve network
Novel [immunotherapeutic strategies] to target [alloantibody] -producing [B] and [plasma cells] in [transplantation] There is an unmet need for [immunotherapeutic agents] that target humoral alloimmunity in [solid organ transplantation]. This includes sensitized patients with preformed [donor] -specific [human leucocyte antigen] [antibodies] and patients who develop de-novo [donor] -specific [antibodies], both of which are associated with acute and chronic [antibody-mediated rejection] and [allograft] loss. In this [review], we discuss recent progress in the generation of [B-cell] and [plasma cell] -targeted [therapeutics], with an emphasis on novel [agents]. To deplete or inhibit [B cells], [B-cell] -specific [mAbs] have been developed, including [CD20], [CD22], [CD19] and bi-specific [antibodies] that target two [B-cell] [antigens]. In addition, inhibition of [B-cell] - [activating] [cytokines], such as [B cell-activating factor], may also reduce [allo-B-cell activation]. [Plasma cells] remain a difficult [therapeutic] target, but inhibition of [germinal centre] responses via costimulatory blockade or [IL21] neutralization, induction of [plasma cell] [apoptosis] using [proteasome inhibitors] or disruption of the [plasma cell] niche are potential avenues being explored. The ultimate aim of these [animal] and [human studies] is to develop agents that efficiently target [humoral effectors], whilst sparing [B] and [plasma cells] with a regulatory [capacity] to promote long-term [allograft] [survival], but we remain some distance away from this [goal].	[immunotherapeutic strategies]{Procedures} is Immunotherapies [immunotherapeutic agents]{Chemicals & Drugs} is Immunotherapeutic agent [alloantibody]{Chemicals & Drugs} is Alloantibodies [B]{Anatomy} is B cell [plasma cells]{Anatomy} is Plasma Cells [solid organ transplantation]{Procedures} is Organ Transplantation [transplantation]{Procedures} is Transplantation [donor]{Living Beings} is Organ donor [human leucocyte antigen]{Chemicals & Drugs} is Human leucocyte antigen [antibodies]{Chemicals & Drugs} is Antibodies [donor]{Living Beings} is Organ donor [antibodies]{Chemicals & Drugs} is Antibodies [antibody-mediated rejection]{Disorders} is Antibody-mediated rejection [allograft]{Procedures} is Allograft [review]{Concepts & Ideas} is Review [B-cell]{Anatomy} is B cell [plasma cell]{Anatomy} is Plasma Cells [therapeutics]{Procedures} is Therapeutics [agents]{Chemicals & Drugs} is Agent (attribute) [B cells]{Anatomy} is B cell [B-cell]{Anatomy} is B cell [mAbs]{Chemicals & Drugs} is MAb [CD20]{Chemicals & Drugs} is Antigen, CD20 [CD22]{Chemicals & Drugs} is CD22 antigen [CD19]{Chemicals & Drugs} is CD19 Antigen [antibodies]{Chemicals & Drugs} is Antibodies [B-cell]{Anatomy} is B cell [antigens]{Chemicals & Drugs} is Antigens [B-cell]{Anatomy} is B cell [activating]{Physiology} is Cell activation [cytokines]{Chemicals & Drugs} is Cytokine [B cell-activating factor]{Chemicals & Drugs} is B-Cell-Activating Factor [allo-B-cell activation]{Physiology} is Activation of B cell activation [Plasma cells]{Anatomy} is Plasma Cells [therapeutic]{Procedures} is Therapeutics [germinal centre]{Anatomy} is Germinal center [IL21]{Chemicals & Drugs} is IL21 [plasma cell]{Anatomy} is Plasma Cells [apoptosis]{Physiology} is Apoptosis [proteasome inhibitors]{Chemicals & Drugs} is Proteasome Inhibitors [plasma cell]{Anatomy} is Plasma Cells [animal]{Living Beings} is Animal [human studies]{Procedures} is Human study [humoral effectors]{Anatomy} is Effector cell [B]{Anatomy} is B cell [plasma cells]{Anatomy} is Plasma Cells [capacity]{Disorders} is Endurance capacity [allograft]{Procedures} is Allograft [survival]{Physiology} is Graft Survival [goal]{Concepts & Ideas} is Goal
[Survival status] and functional outcome of children who required prolonged [intensive care] after [cardiac surgery] Children who require prolonged [intensive care] after [cardiac surgery] are at risk of high mortality. The long-term [survival] and functional outcome of these children have not been studied in detail. Children who [stayed] in [intensive care] for >28 days after [cardiac surgery] from 1997 to 2012 were studied in a single [institution]. A total of 116 patients were identified; 107 (92%) were <1 year of age and 63 (54%) had [univentricular physiology]. The incidence of children requiring prolonged [intensive care] increased from 1.01/100 undergoing [cardiac surgery] in 1997 to 2000 to 2.66/100 in 2009 to 2012 (P trend = .002). This increase coincided with an increase in the number of children with [hypoplastic left heart syndrome] having prolonged [intensive care] during the same period (0.13/100 in 1997-2000 to 1.0/100 in 2009-2012; P trend = .001). [Survival] to [pediatric intensive care unit] ([PICU]) [discharge] was 74% (95% confidence interval (CI), 65-82) and 51% (95% CI, 41-59) at 3 years. Factors associated with mortality were [univentricular repair] (hazard ratio (HR), 2.12; 95% CI, 1.21-3.70; P = .008) and [acute renal failure] (HR, 3.01; 95% CI, 1.77-5.12; P < .001), but era did not influence mortality (1997-2005 vs 2006-2012; log-rank P = .66). Among [PICU] survivors, 3- year [survival] in those who did not need early [reoperation] was 81% (95% CI, 66-90), compared with 58% (95% CI, 42-71) in those who required early [reoperation] (log-rank P = .01). Among survivors, 36% had either [moderate] or [severe disability] and 13% had poor quality of life. The incidence of children requiring prolonged [intensive care] after [cardiac surgery] has increase d in our [institution]. Our data suggest that the long-term outcome for most of these children is poor, especially after [univentricular repair].	[Survival status]{Disorders} is Survival Status [intensive care]{Procedures} is Intensive care [cardiac surgery]{Procedures} is Cardiac Surgery procedures [intensive care]{Procedures} is Intensive care [cardiac surgery]{Procedures} is Cardiac Surgery procedures [survival]{Disorders} is Survival Status [stayed]{Disorders} is Medicare stay [intensive care]{Procedures} is Intensive care [cardiac surgery]{Procedures} is Cardiac Surgery procedures [institution]{Organizations} is Institution [univentricular physiology]{Disorders} is Functionally univentricular heart [intensive care]{Procedures} is Intensive care [cardiac surgery]{Procedures} is Cardiac Surgery procedures [hypoplastic left heart syndrome]{Disorders} is Hypoplastic left heart syndrome [intensive care]{Procedures} is Intensive care [Survival]{Disorders} is Survival Status [pediatric intensive care unit]{Organizations} is Pediatric intensive care unit [PICU]{Organizations} is Pediatric intensive care unit [discharge]{Procedures} is Patient discharge [univentricular repair]{Procedures} is Repair of univentricular heart [acute renal failure]{Disorders} is Renal failure acute [PICU]{Organizations} is Pediatric intensive care unit [survival]{Disorders} is Survival Status [reoperation]{Procedures} is Re-operation [reoperation]{Procedures} is Re-operation [moderate]{Disorders} is Disability - moderate [severe disability]{Disorders} is Disability - severe [intensive care]{Procedures} is Intensive care [cardiac surgery]{Procedures} is Cardiac Surgery procedures [institution]{Organizations} is Institution [univentricular repair]{Procedures} is Repair of univentricular heart
Haptic [feedback] helps [bipedal] [coordination] The present [study] investigated whether special haptic or [visual feedback] would facilitate the [coordination] of in-phase, cyclical [feet] [movements] of different [amplitudes]. Seventeen [healthy participants] sat with their [feet] on sliding panels that were moved [externally] over the same or different [amplitudes]. The [participants] were asked to generate simultaneous [knee] [flexion-extension] [movements], or to let their [feet] be [dragged], resulting in reference [foot] [displacements] of 150 mm and experimental [foot] [displacements] of 150, 120, or 90 mm. Four types of [feedback] were given: (1) special haptic [feedback], involving actively following the motions of the [sliders] [manipulated] by two [confederates], (2) haptic [feedback] resulting from [passive motion], (3) veridical [visual feedback], and (4) enhanced [visual feedback]. Both with respect to [amplitude] assimilation effects, correlations and standard deviation of relative phase, the [results] showed that enhanced [visual feedback] did not facilitate [bipedal] independence, but haptic [feedback] with [active movement] did. Implications of the [findings] for [movement] [rehabilitation] contexts are discussed.	[feedback]{Physiology} is Feedback [study]{Procedures} is Study [bipedal]{Anatomy} is Pedal [coordination]{Physiology} is Coordination [visual feedback]{Physiology} is Visual Feedback [coordination]{Physiology} is Coordination [feet]{Anatomy} is Pedal [movements]{Physiology} is Movements [amplitudes]{Concepts & Ideas} is Amplitude [healthy participants]{Living Beings} is Healthy Participants [feet]{Anatomy} is Pedal [externally]{Concepts & Ideas} is Externally [amplitudes]{Concepts & Ideas} is Amplitude [participants]{Living Beings} is Participant [knee]{Anatomy} is Bone structure of knee [flexion-extension]{Concepts & Ideas} is Flexion/extension [movements]{Physiology} is Movements [feet]{Anatomy} is Pedal [dragged]{Disorders} is Investigation Finding [foot]{Anatomy} is Pedal [displacements]{Procedures} is Displacements [foot]{Anatomy} is Pedal [displacements]{Procedures} is Displacements [feedback]{Physiology} is Feedback [feedback]{Physiology} is Feedback [sliders]{Devices} is MED DEVICE [manipulated]{Procedures} is Manipulate [confederates]{Living Beings} is Group (social concept) [feedback]{Physiology} is Feedback [passive motion]{Physiology} is Passive motion [visual feedback]{Physiology} is Visual Feedback [visual feedback]{Physiology} is Visual Feedback [amplitude]{Concepts & Ideas} is Amplitude [results]{Phenomena} is Clinical Test Result [visual feedback]{Physiology} is Visual Feedback [bipedal]{Anatomy} is Pedal [feedback]{Physiology} is Feedback [active movement]{Physiology} is Active movement [findings]{Disorders} is Investigation Finding [movement]{Physiology} is Movements [rehabilitation]{Disorders} is Rehabilitation proc
Synthesis and in vitro [bone cell] activity of [analogues] of the [cyclohexapeptide dianthin G] The [cyclohexapeptide natural product dianthin G] promotes [osteoblast (bone-forming cell) proliferation] in vitro at nanomolar concentrations, and is therefore considered a promising candidate for the treatment of [osteoporosis]. An N(α)-methyl amide bond scan of [dianthin G] was performed to probe the effect of modifying amide bonds on [osteoblast proliferation]. In addition, to provide greater [structural] diversity, a series of [dicarba dianthin G analogues] was synthesised using ring closing metathesis. [Dianthin G] and one novel [dicarba analogue] increased the number of [human] [osteoblasts] and importantly they did not increase [osteoclast (bone-resorbing cell) differentiation] in [bone marrow cells].	[cyclohexapeptide natural product dianthin G]{Chemicals & Drugs} is Pharmacologic Substance [bone cell]{Anatomy} is Bone cell [analogues]{Chemicals & Drugs} is Analogues/Derivatives [osteoblast (bone-forming cell) proliferation]{Physiology} is Osteoblast proliferation [cyclohexapeptide dianthin G]{Chemicals & Drugs} is Pharmacologic Substance [osteoporosis]{Disorders} is OP - Osteoporosis [dianthin G]{Chemicals & Drugs} is Pharmacologic Substance [osteoblast proliferation]{Physiology} is Osteoblast proliferation [structural]{Concepts & Ideas} is Structural [dicarba dianthin G analogues]{Chemicals & Drugs} is Analogues/Derivatives [Dianthin G]{Chemicals & Drugs} is Pharmacologic Substance [dicarba analogue]{Chemicals & Drugs} is Analogues/Derivatives [human]{Living Beings} is Human [osteoblasts]{Anatomy} is Osteoblasts [osteoclast (bone-resorbing cell) differentiation]{Physiology} is Osteoclast cell differentiation [bone marrow cells]{Anatomy} is Bone Marrow Cells
Effects of [grazing cow] [diet] on [volatile compounds] as well as physicochemical and sensory characteristics of 12- month - [ripened Montasio cheese] The aim of this [study] was to [evaluate] the effects of [pasture] type and [cow] feeding [supplementation] level on a 12- mo - [ripened Montasio] [protected designation of origin] ([PDO]) [cheese], which is one of the most important [PDO] [cheeses] produced in [northeast Italy]. [Cheeses] were characterized for [volatile compounds], color, mechanical variables, and sensory [descriptors]. [Pasture] type significantly affected most of the instrumental variables considered and, as a consequence, sensory properties were affected as well. [Cheeses] from the [pasture] characterized by a [nutrient-rich] [vegetation] type were higher in [protein] and lower in [fat] content. Furthermore, such [cheeses], [evaluated] by a [sensory panel], were more intense in color with a more pungent and less cow-like odor, in agreement with what found through instrumental [analyses]. [Supplementation] level resulted in less pronounced effects, limited to [volatile compounds] and texture properties, which were not detected by sensory [analysis]. The characterization of the 12- mo [ripened Montasio cheese] reported here is an important step for the valorization of this [PDO] product.	[grazing cow]{Physiology} is Animal Grazing [study]{Procedures} is Study [diet]{Objects} is Diet [evaluate]{Procedures} is Evaluate [volatile compounds]{Chemicals & Drugs} is Volatile compound [pasture]{Concepts & Ideas} is Meadows [cow]{Living Beings} is Cow (organism) [supplementation]{Objects} is Nutrient supplementation [ripened Montasio]{Objects} is Cheese [ripened Montasio cheese]{Objects} is Cheese [protected designation of origin]{Concepts & Ideas} is Scheme [PDO]{Concepts & Ideas} is Scheme [cheese]{Objects} is Cheese [PDO]{Concepts & Ideas} is Scheme [cheeses]{Objects} is Cheese [northeast Italy]{Geographic Areas} is Italy [Cheeses]{Objects} is Cheese [volatile compounds]{Chemicals & Drugs} is Volatile compound [descriptors]{Concepts & Ideas} is Descriptors [Pasture]{Concepts & Ideas} is Meadows [Cheeses]{Objects} is Cheese [pasture]{Concepts & Ideas} is Meadows [nutrient-rich]{Objects} is Nutrient [vegetation]{Objects} is Edible Plant [protein]{Chemicals & Drugs} is Protein [fat]{Chemicals & Drugs} is Dietary fat [cheeses]{Objects} is Cheese [evaluated]{Procedures} is Evaluate [sensory panel]{Living Beings} is Occupational Cohort [analyses]{Procedures} is Analyzed [Supplementation]{Objects} is Nutrient supplementation [volatile compounds]{Chemicals & Drugs} is Volatile compound [analysis]{Procedures} is Analyzed [ripened Montasio cheese]{Objects} is Cheese [PDO]{Concepts & Ideas} is Scheme
The biological effect of [metal] [ions] on the [granulation] of aerobic granular activated sludge As a special [biofilm] structure, microbial attachment is believed to play an important role in the [granulation] of aerobic granular activated sludge (AGAS). This experiment was to investigate the biological effect of [Ca(2+),] [Mg(2+)], [Cu(2+)], [Fe(2+)], [Zn(2+)], and [K(+)] which are the most common [ions] present in biological wastewater treatment systems, on the microbial attachment of AGAS and [flocculent] activated sludge (FAS), from which AGAS is always derived, in order to provide a new strategy for the rapid cultivation and stability control of AGAS. The result showed that attachment biomass of AGAS was about 300% higher than that of FAS without the addition of [metal] [ions]. Different [metal] [ions] had different effects on the process of microbial attachment. FAS and AGAS reacted differently to the [metal] [ions] as well, and in fact, AGAS was more sensitive to the [metal] [ions]. Specifically, [Ca(2+)], [Mg(2+)], and [K(+)] could increase the microbial attachment ability of both AGAS and FAS under appropriate concentrations, [Cu(2+)], [Fe(2+)], and [Zn(2+)] were also beneficial to the microbial attachment of FAS at low concentrations, but [Cu(2+)], [Fe(2+)], and [Zn(2+)] greatly inhibited the attachment process of AGAS even at extremely low concentrations. In addition, the [acylated homoserine lactone] ([AHL])-based [quorum sensing system], the content of [extracellular] [polymeric substances] and the relative hydrophobicity of the sludges were greatly influenced by [metal] [ions]. As all these parameters had close relationships with the microbial attachment process, the microbial attachment may be affected by changes of these parameters.	[biofilm]{Living Beings} is Biofilm [metal]{Chemicals & Drugs} is Metal [ions]{Chemicals & Drugs} is Ions [granulation]{Procedures} is Granulation [granulation]{Procedures} is Granulation [Ca(2+),]{Chemicals & Drugs} is Calcium Cation [Mg(2+)]{Chemicals & Drugs} is Mg(II) [Cu(2+)]{Chemicals & Drugs} is Cu(II) [Fe(2+)]{Chemicals & Drugs} is Iron(2+) [Zn(2+)]{Chemicals & Drugs} is Zn(II) [K(+)]{Chemicals & Drugs} is K+ [ions]{Chemicals & Drugs} is Ions [flocculent]{Physiology} is Flocculation [metal]{Chemicals & Drugs} is Metal [ions]{Chemicals & Drugs} is Ions [metal]{Chemicals & Drugs} is Metal [ions]{Chemicals & Drugs} is Ions [metal]{Chemicals & Drugs} is Metal [ions]{Chemicals & Drugs} is Ions [metal]{Chemicals & Drugs} is Metal [ions]{Chemicals & Drugs} is Ions [Ca(2+)]{Chemicals & Drugs} is Calcium Cation [Mg(2+)]{Chemicals & Drugs} is Mg(II) [K(+)]{Chemicals & Drugs} is K+ [Cu(2+)]{Chemicals & Drugs} is Cu(II) [Fe(2+)]{Chemicals & Drugs} is Iron(2+) [Zn(2+)]{Chemicals & Drugs} is Zn(II) [Cu(2+)]{Chemicals & Drugs} is Cu(II) [Fe(2+)]{Chemicals & Drugs} is Iron(2+) [Zn(2+)]{Chemicals & Drugs} is Zn(II) [acylated homoserine lactone]{Chemicals & Drugs} is Acylated Homoserine Lactone [AHL]{Chemicals & Drugs} is Acylated Homoserine Lactone [quorum sensing system]{Physiology} is Quorum sensing system [extracellular]{Anatomy} is Extracellular [polymeric substances]{Chemicals & Drugs} is POLYMER SUBSTANCE [metal]{Chemicals & Drugs} is Metal [ions]{Chemicals & Drugs} is Ions
[Rh(III)] - Catalyzed Oxidative Annulation Leading to [Substituted Indolizines] by Cleavage of C(sp(2))-H/C(sp(3))-H Bonds [Rhodium(III)] - catalyzed oxidative annulation reactions of [pyridinium trifluoromethanesulfonate salts] with [alkynes] leading to [substituted indolizines] by cleavage of C(sp(2))-H/C(sp(3))-H bonds are developed. The starting materials are readily available, and the reactions have a [broad] substrate scope. This reaction overcomes some drawbacks of the previous [indolizine] synthetic methods and provides a new efficient [route] to [indolizine derivatives].	[Rh(III)]{Chemicals & Drugs} is Rhodium AND/OR rhodium compound [Rhodium(III)]{Chemicals & Drugs} is Rhodium AND/OR rhodium compound [Substituted Indolizines]{Chemicals & Drugs} is Indolizines [pyridinium trifluoromethanesulfonate salts]{Chemicals & Drugs} is PYRIDINIUM CPDS [alkynes]{Chemicals & Drugs} is Alkynes [substituted indolizines]{Chemicals & Drugs} is Indolizines [broad]{Concepts & Ideas} is Broad [indolizine]{Chemicals & Drugs} is Indolizines [route]{Concepts & Ideas} is Route [indolizine derivatives]{Chemicals & Drugs} is Indolizines
[Pyomyositis] in childhood - [systemic lupus erythematosus] [Pyomyositis] is a [pyogenic infection] of [skeletal muscle] that arises from [hematogenous spread] and usually presents with [localized] [abscess]. This muscle infection has been rarely reported in [adult-onset] [systemic lupus erythematous] and, to the best of our knowledge, [has not been diagnosed] in pediatric [lupus population]. Among our [childhood-onset] [systemic lupus erythematous] [population], including 289 patients, one presented [pyomyositis]. This patient was [diagnosed] with [childhood-onset] [systemic lupus erythematous] at the age of 10 years-old. After six years, while being treated with [prednisone], [azathioprine] and [hydroxychloroquine], she was [hospitalized] due to a 30-day history of insidious pain in the [left thigh] and no apparent [trauma] or [fever] were reported. Her [physical examination] showed [muscle tenderness] and [woody induration]. [Laboratory tests] revealed [anemia], increased [acute phase reactants] and [normal muscle enzymes]. Computer tomography of the left thigh showed collection on the [middle third] of the [vastus intermedius], suggesting purulent stage of [pyomyositis]. [Treatment] with [broad-spectrum antibiotic] was initiated, leading to a complete clinical resolution. In conclusion, we described the first case of [pyomyositis] during childhood in pediatric [lupus population]. This [report] reinforces that the presence of [localized muscle pain] in [immunocompromised patients], even without elevation of [muscle enzymes], should raise the [suspicion] of [pyomyositis]. A prompt [antibiotic therapy] is strongly recommended.	[Pyomyositis]{Disorders} is Pyomyositis (Disease/Finding) [pyogenic infection]{Disorders} is Infection pyogenic [systemic lupus erythematosus]{Disorders} is Systemic Lupus Erythematosus [skeletal muscle]{Anatomy} is MUSCLE SKELETAL [hematogenous spread]{Disorders} is Hematogenous spread [localized]{Concepts & Ideas} is Localized [abscess]{Disorders} is Abscess [adult-onset]{Disorders} is Adult-onset [systemic lupus erythematous]{Disorders} is Systemic Lupus Erythematosus [has not been diagnosed]{Disorders} is No diagnosis [lupus population]{Living Beings} is Population [childhood-onset]{Disorders} is Childhood-onset [systemic lupus erythematous]{Disorders} is Systemic Lupus Erythematosus [population]{Living Beings} is Population [pyomyositis]{Disorders} is Pyomyositis (Disease/Finding) [diagnosed]{Disorders} is Diagnosed [childhood-onset]{Disorders} is Childhood-onset [systemic lupus erythematous]{Disorders} is Systemic Lupus Erythematosus [prednisone]{Chemicals & Drugs} is PredniSONE [azathioprine]{Chemicals & Drugs} is AzaTHIOprine [hydroxychloroquine]{Chemicals & Drugs} is Oxychloroquine [hospitalized]{Disorders} is Patient in hospital [left thigh]{Anatomy} is Left Thigh [trauma]{Disorders} is Trauma [fever]{Disorders} is Fever [physical examination]{Procedures} is Physical Examination [muscle tenderness]{Disorders} is Tenderness muscle [woody induration]{Disorders} is Induration (morphologic abnormality) [Laboratory tests]{Procedures} is Laboratory Test [anemia]{Disorders} is Anemia [acute phase reactants]{Chemicals & Drugs} is Acute Phase Reactants [normal muscle enzymes]{Disorders} is Muscle enzyme increased [middle third]{Concepts & Ideas} is Middle third [vastus intermedius]{Anatomy} is Vastus Intermedius [pyomyositis]{Disorders} is Pyomyositis (Disease/Finding) [Treatment]{Procedures} is Treatments [broad-spectrum antibiotic]{Chemicals & Drugs} is Antibiotic [pyomyositis]{Disorders} is Pyomyositis (Disease/Finding) [lupus population]{Living Beings} is Population [report]{Concepts & Ideas} is Case report [localized muscle pain]{Disorders} is Localized muscle pain [immunocompromised patients]{Disorders} is Immunocompromised Patients [muscle enzymes]{Procedures} is Muscle enzyme [suspicion]{Physiology} is Suspicion [pyomyositis]{Disorders} is Pyomyositis (Disease/Finding) [antibiotic therapy]{Procedures} is Antibiotic Therapy
Quantitative fetal fibronectin and [cervical length] to predict [preterm birth] in [asymptomatic] [women] with previous cervical surgery Quantitative fetal fibronectin testing has demonstrated accuracy for prediction of [spontaneous preterm birth] in [asymptomatic] [women] with a [history] of [preterm birth]. Predictive accuracy in [women] with previous cervical surgery (a potentially different risk mechanism) is not known. We sought to compare the predictive accuracy of [cervicovaginal fluid] quantitative fetal fibronectin and [cervical length testing] in [asymptomatic] [women] with previous cervical surgery to that in [women] with 1 previous [preterm birth]. We conducted a [prospective] [blinded] secondary [analysis] of a larger [observational study] of [cervicovaginal fluid] quantitative fetal fibronectin concentration in [asymptomatic] [women] measured with a [Hologic 10Q system] ([Hologic], [Marlborough], [MA]). Prediction of [spontaneous preterm birth] (<30, <34, and <37 weeks) with [cervicovaginal fluid] quantitative fetal fibronectin concentration in [primiparous] [women] who had undergone at least 1 invasive [cervical procedure] (n = 473) was compared with prediction in [women] who had previous [spontaneous preterm birth], [preterm prelabor rupture of membranes], or [late miscarriage] (n = 821). Relationship with [cervical] length was explored. The rate of [spontaneous preterm birth] <34 weeks in the cervical surgery group was 3% compared with 9% in previous [spontaneous preterm birth] group. Receiver operating characteristic curves comparing quantitative fetal fibronectin for prediction at all 3 gestational end points were comparable between the cervical surgery and previous [spontaneous preterm birth] groups (34 weeks: area under the curve, 0.78 (95% confidence interval 0.64-0.93) vs 0.71 (95% confidence interval 0.64-0.78); P = .39). Prediction of [spontaneous preterm birth] using [cervical length] compared with quantitative fetal fibronectin for prediction of [preterm birth] <34 weeks of [gestation] offered similar prediction (area under the curve, 0.88 (95% confidence interval 0.79-0.96) vs 0.77 (95% confidence interval 0.62-0.92), P = .12 in the cervical surgery group; and 0.77 (95% confidence interval 0.70-0.84) vs 0.74 (95% confidence interval 0.67-0.81), P = .32 in the previous [spontaneous preterm birth] group). Prediction of [spontaneous preterm birth] using [cervicovaginal fluid] quantitative fetal fibronectin in [asymptomatic] [women] with cervical surgery is valid, and has comparative accuracy to that in [women] with a [history] of [spontaneous preterm birth].	[cervical length]{Procedures} is Cervical Length Measurement [preterm birth]{Disorders} is Preterm Birth [asymptomatic]{Disorders} is Asymptomatic [spontaneous preterm birth]{Disorders} is Spontaneous Preterm Birth [women]{Living Beings} is Women [asymptomatic]{Disorders} is Asymptomatic [women]{Living Beings} is Women [history]{Disorders} is Medical History [preterm birth]{Disorders} is Preterm Birth [women]{Living Beings} is Women [cervicovaginal fluid]{Anatomy} is Vaginal secretions [cervical length testing]{Procedures} is Cervical Length Measurement [asymptomatic]{Disorders} is Asymptomatic [women]{Living Beings} is Women [women]{Living Beings} is Women [preterm birth]{Disorders} is Preterm Birth [prospective]{Procedures} is Study, Prospective [blinded]{Procedures} is Blinded [analysis]{Procedures} is Analyzed [observational study]{Procedures} is Observational Study [cervicovaginal fluid]{Anatomy} is Vaginal secretions [asymptomatic]{Disorders} is Asymptomatic [women]{Living Beings} is Women [Hologic 10Q system]{Concepts & Ideas} is Intellectual Product [Hologic]{Concepts & Ideas} is Manufacturer [Marlborough]{Geographic Areas} is Geographic Region [MA]{Geographic Areas} is Massachusetts (geographic location) [spontaneous preterm birth]{Disorders} is Spontaneous Preterm Birth [cervicovaginal fluid]{Anatomy} is Vaginal secretions [primiparous]{Disorders} is Primiparous [women]{Living Beings} is Women [cervical procedure]{Procedures} is Cervical biopsy (procedure) [women]{Living Beings} is Women [spontaneous preterm birth]{Disorders} is Spontaneous Preterm Birth [preterm prelabor rupture of membranes]{Disorders} is Prelabor Rupture of Membranes [late miscarriage]{Disorders} is Miscarriage [cervical]{Concepts & Ideas} is Cervical [spontaneous preterm birth]{Disorders} is Spontaneous Preterm Birth [spontaneous preterm birth]{Disorders} is Spontaneous Preterm Birth [spontaneous preterm birth]{Disorders} is Spontaneous Preterm Birth [spontaneous preterm birth]{Disorders} is Spontaneous Preterm Birth [cervical length]{Procedures} is Cervical Length Measurement [preterm birth]{Disorders} is Preterm Birth [gestation]{Physiology} is Pregnancy, function [spontaneous preterm birth]{Disorders} is Spontaneous Preterm Birth [spontaneous preterm birth]{Disorders} is Spontaneous Preterm Birth [cervicovaginal fluid]{Anatomy} is Vaginal secretions [asymptomatic]{Disorders} is Asymptomatic [women]{Living Beings} is Women [women]{Living Beings} is Women [history]{Disorders} is Medical History [spontaneous preterm birth]{Disorders} is Spontaneous Preterm Birth
[Proteome] changes in [rat] [serum] after a [chronic ingestion] of enriched [uranium]: Toward a [biological signature] of internal contamination and radiological effect The civilian and [military] use of [uranium] results in an increased risk of [human] exposure. The [toxicity] of [uranium] results from both its chemical and radiological properties that vary with isotopic [composition]. Validated [biomarkers] of health effects associated with exposure to [uranium] are neither sensitive nor specific to [uranium] [radiotoxicity] and/or radiological effect. This study aimed at investigating if [serum proteins] could be useful as [biomarkers] of both uranium exposure and radiological effect. Male [Sprague-Dawley rats] were chronically exposed through drinking water to low levels (40mg/L, corresponding to 1mg of [uranium] per [animal] per day) of either 4% (235) [U-enriched uranium] ([EU]) or 12% [EU] during 6 weeks. A [proteomics] approach based on two-dimensional electrophoresis ([2D-DIGE]) and [mass spectrometry] ([MS]) was used to establish [protein expression] [profiles] that could be relevant for discriminating between groups, and to identify some differentially [expressed proteins] following [uranium] [ingestion]. It demonstrated that the [expressions] of 174 [protein spots] over 1045 quantified [spots] were altered after uranium exposure (p<0.05). Using both inferential and [non-supervised multivariate statistics], we show sets of [spots] features that lead to a clear discrimination between controls and EU exposed groups on the one hand (21 [spots]), and between 4% [EU] and 12% [EU] on the other hand (7 [spots]), showing that investigation of the [serum] [proteome] may possibly be of relevance to address both [uranium] contamination and radiological effect. Finally, using bioinformatics tools, [pathway analyses] of differentially [expressed] [MS] - identified [proteins] find that acute phase, inflammatory and [immune responses] as well as [oxidative stress] are likely involved in the response to contamination, suggesting a physiological perturbation, but that does not necessarily lead to a [toxic effect].	[Proteome]{Chemicals & Drugs} is Proteome [military]{Living Beings} is Military <retired military> [rat]{Living Beings} is Rat (organism) [serum]{Anatomy} is Serum [uranium]{Chemicals & Drugs} is Uranium [chronic ingestion]{Phenomena} is Ingestion (function) [uranium]{Chemicals & Drugs} is Uranium [human]{Living Beings} is Human [biological signature]{Physiology} is Biological Marker [toxicity]{Disorders} is Toxicity [uranium]{Chemicals & Drugs} is Uranium [composition]{Physiology} is Composition [biomarkers]{Physiology} is Biological Marker [uranium]{Chemicals & Drugs} is Uranium [uranium]{Chemicals & Drugs} is Uranium [radiotoxicity]{Disorders} is Radiotoxicity [serum proteins]{Chemicals & Drugs} is Serum proteins [biomarkers]{Physiology} is Biological Marker [Sprague-Dawley rats]{Living Beings} is Sprague-Dawley [uranium]{Chemicals & Drugs} is Uranium [animal]{Living Beings} is Animal [U-enriched uranium]{Chemicals & Drugs} is Uranium [EU]{Chemicals & Drugs} is Uranium [EU]{Chemicals & Drugs} is Uranium [proteomics]{Occupations} is Proteomics [2D-DIGE]{Procedures} is 2-Dimensional Difference Gel Electrophoresis [mass spectrometry]{Procedures} is Mass Spectrometry [MS]{Procedures} is Mass Spectrometry [protein expression]{Physiology} is Protein expression [profiles]{Procedures} is Profile (lab procedure) [expressed proteins]{Physiology} is Protein expression [uranium]{Chemicals & Drugs} is Uranium [ingestion]{Phenomena} is Ingestion (function) [expressions]{Physiology} is Protein expression [protein spots]{Chemicals & Drugs} is Protein [spots]{Chemicals & Drugs} is Protein [non-supervised multivariate statistics]{Procedures} is Statistical Correlation [spots]{Chemicals & Drugs} is Protein [spots]{Chemicals & Drugs} is Protein [EU]{Chemicals & Drugs} is Uranium [EU]{Chemicals & Drugs} is Uranium [spots]{Chemicals & Drugs} is Protein [serum]{Anatomy} is Serum [proteome]{Chemicals & Drugs} is Proteome [uranium]{Chemicals & Drugs} is Uranium [pathway analyses]{Concepts & Ideas} is Pathway Analysis [expressed]{Physiology} is Protein expression [MS]{Procedures} is Mass Spectrometry [proteins]{Chemicals & Drugs} is Protein [immune responses]{Physiology} is Immune Response [oxidative stress]{Disorders} is Oxidative stress [toxic effect]{Disorders} is Toxicity
Prediction of [extravasation] in [pelvic fracture] using [coagulation] [biomarkers] To evaluate the usefulness of [coagulation] [biomarkers], which are easy and quick to analyze in emergency settings, for prediction of [arterial] [extravasation] due to [pelvic fracture]. The [medical records] of [pelvic fracture] patients transferred to the emergency department of Gunma University Hospital between December 2009 and May 2015 were reviewed. Patients were divided into two groups, those with ([Extra(+)]) and without ([Extra(-)]) [arterial] [extravasation] on enhanced [CT] or [angiography]. Levels of [fibrin degradation products] ([FDP]), [D-dimer], [fibrinogen], the [ratio of FDP to fibrinogen], the [ratio of D-dimer to fibrinogen], [systolic blood pressure], [heart rate], the [Glasgow Coma Scale], pH, [base excess], [hemoglobin] and [lactate] levels, the pattern of [pelvic injury], and [injury severity score] were measured at [hospital admission], and compared between the two groups. Parameters with a significant difference between the two groups were used to construct receiver operating characteristic (ROC) curves. The study included 29 patients with [pelvic fracture]. [FDP], [D-dimer], the ratio of FDP to fibrinogen and the ratio of D-dimer to fibrinogen were the most useful parameters for predicting [arterial] [extravasation] due to [pelvic fracture]. [FDP], [D-dimer], the ratio of FDP to fibrinogen, the ratio of D-dimer to fibrinogen, and [hemoglobin] and [lactate levels] were significantly higher in the [Extra(+)] group than in the [Extra(-)] group ([FDP], 354.8μg/mL (median) versus 96.6μg/mL; [D-dimer], 122.3μg/mL versus 42.1μg/mL; the ratio of FDP to fibrinogen, 3.39 versus 0.42; the ratio of D-dimer to fibrinogen, 1.14 versus 0.18; [hemoglobin], 10.5g/dL versus 13.5g/dL; [lactate], 3.5mmol/L versus 1.7mmol/L). The area under the ROC curves for [FDP], [D-dimer], the ratio of FDP to fibrinogen, the ratio of D-dimer to fibrinogen, [hemoglobin] and [lactate levels] were 0.900, 0.882, 0.918, 0.900, 0.815 and 0.765, respectively. [Coagulation] [biomarkers], and [hemoglobin] and [lactate levels] could be useful to predict the [existence] of [arterial] [extravasation] due to [pelvic fracture]. The ratio of FDP to fibrinogen and the ratio of D-dimer to fibrinogen were the most [accurate markers]. [Coagulation] [biomarkers] may enable more rapid and specific treatment for [pelvic fracture].	[extravasation]{Disorders} is Extravasation [coagulation]{Physiology} is Coagulation process [pelvic fracture]{Disorders} is Pelvic fracture [biomarkers]{Physiology} is Biomarkers [coagulation]{Physiology} is Coagulation process [biomarkers]{Physiology} is Biomarkers [arterial]{Anatomy} is Arterial [extravasation]{Disorders} is Extravasation [pelvic fracture]{Disorders} is Pelvic fracture [medical records]{Concepts & Ideas} is Medical Records [pelvic fracture]{Disorders} is Pelvic fracture [Extra(+)]{Disorders} is Ruled in [Extra(-)]{Disorders} is Negative (qualifier value) [arterial]{Anatomy} is Arterial [extravasation]{Disorders} is Extravasation [CT]{Procedures} is CT XRAY [angiography]{Procedures} is Angiography [fibrin degradation products]{Procedures} is Fibrin Degradation Products [FDP]{Procedures} is Fibrin Degradation Products [D-dimer]{Procedures} is D-Dimer assay [fibrinogen]{Procedures} is Fibrinogen [ratio of FDP to fibrinogen]{Procedures} is Ratio measurement [ratio of D-dimer to fibrinogen]{Procedures} is Ratio measurement [systolic blood pressure]{Physiology} is Systolic blood pressure [heart rate]{Physiology} is Heart Rate [Glasgow Coma Scale]{Concepts & Ideas} is Glasgow Coma Scale [base excess]{Procedures} is Base Excess [hemoglobin]{Procedures} is Hemoglobin [lactate]{Procedures} is Lactate [pelvic injury]{Disorders} is Pelvic fracture [injury severity score]{Concepts & Ideas} is Injury Severity Score [hospital admission]{Procedures} is Hospital Admission [pelvic fracture]{Disorders} is Pelvic fracture [FDP]{Chemicals & Drugs} is FFDP [D-dimer]{Chemicals & Drugs} is D-dimer [arterial]{Anatomy} is Arterial [extravasation]{Disorders} is Extravasation [pelvic fracture]{Disorders} is Pelvic fracture [FDP]{Chemicals & Drugs} is FFDP [D-dimer]{Chemicals & Drugs} is D-dimer [hemoglobin]{Phenomena} is Hemoglobin Level [lactate levels]{Phenomena} is Lactate level result [Extra(+)]{Disorders} is Ruled in [Extra(-)]{Disorders} is Negative (qualifier value) [FDP]{Chemicals & Drugs} is FFDP [D-dimer]{Chemicals & Drugs} is D-dimer [hemoglobin]{Phenomena} is Hemoglobin Level [lactate]{Phenomena} is Lactate level result [FDP]{Chemicals & Drugs} is FFDP [D-dimer]{Chemicals & Drugs} is D-dimer [hemoglobin]{Phenomena} is Hemoglobin Level [lactate levels]{Phenomena} is Lactate level result [Coagulation]{Physiology} is Coagulation process [biomarkers]{Physiology} is Biomarkers [hemoglobin]{Phenomena} is Hemoglobin Level [lactate levels]{Phenomena} is Lactate level result [existence]{Disorders} is Presence [arterial]{Anatomy} is Arterial [extravasation]{Disorders} is Extravasation [pelvic fracture]{Disorders} is Pelvic fracture [accurate markers]{Devices} is Markers (device) [Coagulation]{Physiology} is Coagulation process [biomarkers]{Physiology} is Biomarkers [pelvic fracture]{Disorders} is Pelvic fracture
Social security status and [mortality] in [Belgian] and [Spanish] [male] [workers] To assess differences in mortality rates between social security statuses in two independent [samples] of [Belgian] and [Spanish] [male] [workers]. [Study of two retrospective cohorts] ([Belgium], n=23,607; [Spain], n=44,385) of 50-60 year old [male] [employees] with 4 years of [follow-up]. Mortality rate ratios (MRR) were estimated using [Poisson regression] [models]. [Mortality] for [subjects] with permanent [disability] was higher than for the [employed], for both [Belgium] (MRR =4.56 (95% CI: 2.88-7.21)) and [Spain] (MRR =7.15 (95% CI: 5.37-9.51)). For the [unemployed] / early [retirees], [mortality] was higher in [Spain] (MRR =1.64 (95% CI: 1.24-2.17)) than in [Belgium] (MRR =0.88 (95% CI: 0.46-1.71)). MRR differences between [Belgium] and [Spain] for [unemployed] [workers] could be partly explained because of differences between the two social security systems. Future [studies] should further explore [mortality] differences between [countries] with different social security systems.	[mortality]{Disorders} is O/E - dead - condition fatal [Belgian]{Living Beings} is Belgians [Spanish]{Living Beings} is Spanish [male]{Living Beings} is Human, Male [workers]{Living Beings} is Workers [samples]{Living Beings} is Group (social concept) [Belgian]{Living Beings} is Belgians [Spanish]{Living Beings} is Spanish [male]{Living Beings} is Human, Male [workers]{Living Beings} is Workers [Study of two retrospective cohorts]{Procedures} is Retrospective Cohort Study [Belgium]{Geographic Areas} is Belgium [Spain]{Geographic Areas} is Spain [male]{Living Beings} is Human, Male [employees]{Living Beings} is Employee [follow-up]{Procedures} is Follow-up [Poisson regression]{Concepts & Ideas} is ANAL REGRESSION [models]{Concepts & Ideas} is Models [Mortality]{Disorders} is O/E - dead - condition fatal [subjects]{Living Beings} is Subject [disability]{Disorders} is Disability [employed]{Disorders} is Employed [Belgium]{Geographic Areas} is Belgium [Spain]{Geographic Areas} is Spain [unemployed]{Disorders} is Unemployed [retirees]{Living Beings} is Retiree [mortality]{Disorders} is O/E - dead - condition fatal [Spain]{Geographic Areas} is Spain [Belgium]{Geographic Areas} is Belgium [Belgium]{Geographic Areas} is Belgium [Spain]{Geographic Areas} is Spain [unemployed]{Disorders} is Unemployed [workers]{Living Beings} is Workers [studies]{Procedures} is Study [mortality]{Disorders} is O/E - dead - condition fatal [countries]{Geographic Areas} is Countries
Evaluation of the [Prostate Imaging Reporting and Data System] for [Magnetic Resonance Imaging] [Diagnosis] of [Prostate Cancer] in Patients with [Prostate-specific Antigen] <20 ng/ml The [European Society of Urogenital Radiology] has built the [Prostate Imaging Reporting and Data System] ([PI-RADS]) for standardizing the [diagnosis] of [prostate cancer] ([PCa]). This [study] evaluated the [PI-RADS] [diagnosis method] in patients with [prostate-specific antigen] ([PSA]) <20 ng/ml. A total of 133 patients with [PSA] <20 ng/ml were prospectively recruited. [T2-weighted] ([T2WI]) and [diffusion-weighted (DWI) magnetic resonance images] of the [prostate] were acquired before a [12-core transrectal prostate biopsy]. Each patient's [peripheral zone] was divided into six regions on the [images]; each region corresponded to two of the 12 biopsy cores. [T2WI], [DWI], and [T2WI] + [DWI] scores were computed according to [PI-RADS]. The diagnostic accuracy of the [PI-RADS] score was evaluated using [histopathology] of [prostate biopsies] as the reference standard. [PCa] was histologically diagnosed in 169 (21.2%) regions. Increased [PI-RADS] score correlated positively with increased [cancer detection] rate. The [cancer detection] rate for scores 1 to 5 was 2.8%, 15.0%, 34.6%, 52.6%, and 88.9%, respectively, using [T2WI] and 12.0%, 20.2%, 48.0%, 85.7%, and 93.3%, respectively, using [DWI]. For [T2WI] + [DWI], the [cancer detection] rate was 1.5% (score 2), 13.5% (scores 3-4), 41.3% (scores 5-6), 75.9% (scores 7-8), and 92.3% (scores 9-10). The area under the curve for [cancer detection] was 0.700 ([T2WI]), 0.735 ([DWI]) and 0.749 ([T2WI] + [DWI]). The sensitivity and specificity were 53.8% and 89.2%, respectively, when using scores 5-6 as the cutoff value for [T2WI] + [DWI]. The [PI-RADS] score correlates with the [PCa detection] rate in patients with [PSA] <20 ng/ml. The summed score of [T2WI] + [DWI] has the highest accuracy in detection of [PCa]. However, the sensitivity should be further improved.	[European Society of Urogenital Radiology]{Organizations} is HCO [Prostate Imaging Reporting and Data System]{Concepts & Ideas} is NCI_PI-RADS [Prostate Imaging Reporting and Data System]{Concepts & Ideas} is NCI_PI-RADS [Magnetic Resonance Imaging]{Procedures} is Magnetic resonance imaging [Diagnosis]{Procedures} is DIAGNOSIS [PI-RADS]{Concepts & Ideas} is NCI_PI-RADS [Prostate Cancer]{Disorders} is PROSTATE CANCER [diagnosis]{Procedures} is DIAGNOSIS [Prostate-specific Antigen]{Chemicals & Drugs} is Prostate-specific antigen [prostate cancer]{Disorders} is PROSTATE CANCER [PCa]{Disorders} is PROSTATE CANCER [study]{Procedures} is Study [PI-RADS]{Concepts & Ideas} is NCI_PI-RADS [diagnosis method]{Procedures} is Diagnostic Method [prostate-specific antigen]{Chemicals & Drugs} is Prostate-specific antigen [PSA]{Chemicals & Drugs} is Prostate-specific antigen [PSA]{Chemicals & Drugs} is Prostate-specific antigen [T2-weighted]{Procedures} is Diagnostic imaging, not elsewhere classified [T2WI]{Procedures} is Diagnostic imaging, not elsewhere classified [diffusion-weighted (DWI) magnetic resonance images]{Procedures} is Diffusion-Weighted Magnetic Resonance Imaging [prostate]{Anatomy} is Prostates [12-core transrectal prostate biopsy]{Procedures} is Transrectal Prostate Biopsy [peripheral zone]{Anatomy} is Peripheral Zone of Prostate [images]{Concepts & Ideas} is Medical Image [T2WI]{Procedures} is Diagnostic imaging, not elsewhere classified [DWI]{Procedures} is Diffusion-Weighted Magnetic Resonance Imaging [T2WI]{Procedures} is Diagnostic imaging, not elsewhere classified [DWI]{Procedures} is Diffusion-Weighted Magnetic Resonance Imaging [PI-RADS]{Concepts & Ideas} is NCI_PI-RADS [PI-RADS]{Concepts & Ideas} is NCI_PI-RADS [histopathology]{Occupations} is Histopathology [prostate biopsies]{Procedures} is Prostate Biopsy [PCa]{Disorders} is PROSTATE CANCER [PI-RADS]{Concepts & Ideas} is NCI_PI-RADS [cancer detection]{Procedures} is Cancer Detection [cancer detection]{Procedures} is Cancer Detection [T2WI]{Procedures} is Diagnostic imaging, not elsewhere classified [DWI]{Procedures} is Diffusion-Weighted Magnetic Resonance Imaging [T2WI]{Procedures} is Diagnostic imaging, not elsewhere classified [DWI]{Procedures} is Diffusion-Weighted Magnetic Resonance Imaging [cancer detection]{Procedures} is Cancer Detection [cancer detection]{Procedures} is Cancer Detection [T2WI]{Procedures} is Diagnostic imaging, not elsewhere classified [DWI]{Procedures} is Diffusion-Weighted Magnetic Resonance Imaging [T2WI]{Procedures} is Diagnostic imaging, not elsewhere classified [DWI]{Procedures} is Diffusion-Weighted Magnetic Resonance Imaging [T2WI]{Procedures} is Diagnostic imaging, not elsewhere classified [DWI]{Procedures} is Diffusion-Weighted Magnetic Resonance Imaging [PI-RADS]{Concepts & Ideas} is NCI_PI-RADS [PCa detection]{Procedures} is Prostate cancer early detection [PSA]{Chemicals & Drugs} is Prostate-specific antigen [T2WI]{Procedures} is Diagnostic imaging, not elsewhere classified [DWI]{Procedures} is Diffusion-Weighted Magnetic Resonance Imaging [PCa]{Disorders} is PROSTATE CANCER
Efficacy and safety of [asenapine] in [Asian] patients with an acute exacerbation of [schizophrenia]: a [multicentre], [randomized], [double-blind], 6- week, placebo-controlled study [Asenapine] is a second generation [anti-psychotic] approved in the [USA] in 2009 for the [treatment] of [schizophrenia], but its efficacy has not been proven in [Asian] patients. The [objectives] of this [study] are to evaluate the efficacy and tolerability of [asenapine] in [Asian] patients experiencing an acute exacerbation of [schizophrenia]. In this prospective, [double-blind study], patients in [Japan], [Korea], and [Taiwan] were [randomized] (1:1:1) to [asenapine] 5 mg twice daily (bid), 10 mg bid or [placebo] for 6 weeks after a 3- to 7- day washout / screening period. The [primary endpoint] was the mean change in the [positive and negative syndrome scale] ([PANSS]) total score from baseline to day 42/ [treatment] end. Of the 532 [participants] [randomized], 530 received [treatment]. The [primary endpoint] was significantly greater with [asenapine] 5 and 10 mg bid than with [placebo] (-12.24 and -14.17 vs. -0.95; p < 0.0001). The results of secondary endpoints including [PANSS] negative subscale scores and [PANSS] responders at the end of [treatment] supported the results of the [primary endpoint]. There were no significant differences in the incidence of [treatment] -emergent [adverse events] reported with [asenapine] 5 and 10 mg bid and [placebo] (84.6, 80.7, and 81.6 %). There was a mean (± standard deviation) change in weight of -1.76 ± 2.45 kg for [placebo], +0.42 ± 2.65 kg for [asenapine] 5 mg bid, and +0.81 ± 2.89 kg for [asenapine] 10 mg bid group. [Asenapine] was effective and generally well tolerated when used for the [treatment] of acute exacerbations of [schizophrenia] in [Asian] patients.	[Asenapine]{Chemicals & Drugs} is Asenapine [asenapine]{Chemicals & Drugs} is Asenapine [anti-psychotic]{Chemicals & Drugs} is Anti-psychotic agent [Asian]{Living Beings} is Asian [USA]{Geographic Areas} is US [schizophrenia]{Disorders} is Schizophrenia [treatment]{Procedures} is Treatments [schizophrenia]{Disorders} is Schizophrenia [multicentre]{Procedures} is Multicentre Trial [randomized]{Procedures} is CLIN TRIALS RANDOMIZED [double-blind]{Procedures} is Double-Blinded [Asian]{Living Beings} is Asian [objectives]{Concepts & Ideas} is Objective [study]{Procedures} is Study [asenapine]{Chemicals & Drugs} is Asenapine [Asian]{Living Beings} is Asian [schizophrenia]{Disorders} is Schizophrenia [double-blind study]{Procedures} is Double-Blinded [Japan]{Geographic Areas} is Japan [Korea]{Geographic Areas} is Korea [Taiwan]{Geographic Areas} is Taiwan [randomized]{Procedures} is Randomized [asenapine]{Chemicals & Drugs} is Asenapine [placebo]{Procedures} is PLACEBO [primary endpoint]{Chemicals & Drugs} is Primary Endpoint [positive and negative syndrome scale]{Concepts & Ideas} is Positive and negative syndrome scale [PANSS]{Concepts & Ideas} is Positive and negative syndrome scale [treatment]{Procedures} is Treatments [participants]{Living Beings} is Participant [randomized]{Procedures} is Randomized [treatment]{Procedures} is Treatments [primary endpoint]{Chemicals & Drugs} is Primary Endpoint [asenapine]{Chemicals & Drugs} is Asenapine [placebo]{Procedures} is PLACEBO [PANSS]{Concepts & Ideas} is Positive and negative syndrome scale [PANSS]{Concepts & Ideas} is Positive and negative syndrome scale [treatment]{Procedures} is Treatments [primary endpoint]{Chemicals & Drugs} is Primary Endpoint [treatment]{Procedures} is Treatments [adverse events]{Disorders} is Adverse Event [asenapine]{Chemicals & Drugs} is Asenapine [placebo]{Procedures} is PLACEBO [placebo]{Procedures} is PLACEBO [asenapine]{Chemicals & Drugs} is Asenapine [asenapine]{Chemicals & Drugs} is Asenapine [Asenapine]{Chemicals & Drugs} is Asenapine [treatment]{Procedures} is Treatments [schizophrenia]{Disorders} is Schizophrenia [Asian]{Living Beings} is Asian
Effect of target animacy on [hand preference] in [Sichuan snub-nosed monkeys] ([Rhinopithecus roxellana]) Twenty-eight captive [Sichuan snub-nosed monkeys] ([Rhinopithecus roxellana]) were involved in the current [study]. Many individuals showed handedness, with a modest tendency toward [left-hand use] especially for animate targets, although no group-level handedness was [found]. There was [no significant] gender difference in the [direction] and strength of [hand preference] for both targets. Females showed a significantly higher overall rate of actions toward animate targets than inanimate targets for both [hands], whereas males displayed almost the reversed pattern. There were [no significant] interactions between [lateral] [hand use] and target animacy for either males or females. Most individuals showed rightward or leftward laterality shift trends between inanimate and animate targets. These [findings] to some extent support the existence of a potential trend concerning a categorical neural distinction between targets demanding functional [manipulation] (inanimate objects) and those demanding social [manipulation] (animate objects), even though specialized [hand preference] based on target animacy has not been fully established in this [arboreal Old World monkey species].	[Sichuan snub-nosed monkeys]{Living Beings} is Pygathrix roxellana [hand preference]{Disorders} is Hand preference [Sichuan snub-nosed monkeys]{Living Beings} is Pygathrix roxellana [Rhinopithecus roxellana]{Living Beings} is Pygathrix roxellana [Rhinopithecus roxellana]{Living Beings} is Pygathrix roxellana [study]{Procedures} is Study [left-hand use]{Disorders} is Left-handedness [found]{Disorders} is Found [no significant]{Disorders} is Not significant [direction]{Concepts & Ideas} is Direction [hand preference]{Disorders} is Hand preference [hands]{Anatomy} is Hands [no significant]{Disorders} is Not significant [lateral]{Concepts & Ideas} is Lateral [hand use]{Physiology} is Using hands [findings]{Disorders} is Finding (finding) [manipulation]{Disorders} is Handling [manipulation]{Disorders} is Handling [hand preference]{Disorders} is Hand preference [arboreal Old World monkey species]{Living Beings} is Pygathrix roxellana
Association of [Autoimmune Encephalitis] With Combined [Immune Checkpoint Inhibitor] Treatment for [Metastatic Cancer] [Paraneoplastic encephalitides] usually precede a [diagnosis of cancer] and are often refractory to [immunosuppressive therapy]. Conversely, [autoimmune encephalitides] are reversible conditions that can occur in the [presence] or absence of [cancer]. To report the induction of [autoimmune encephalitis] in 2 patients after treatment of [metastatic cancer] with a combination of the [immune checkpoint inhibitors] [nivolumab] and [ipilimumab]. A [retrospective case study] was conducted of the [clinical and management] course of 2 patients with progressive, treatment - [refractory metastatic cancer] who were [treated with] a single dose each (concomitantly) of the [immune checkpoint inhibitors] [nivolumab], 1 mg/kg, and [ipilimumab], 3 mg/kg. [Nivolumab] and [ipilimumab]. The [clinical response] to [immunosuppressive therapy] in suspected [autoimmune encephalitis] in the setting of [immune checkpoint inhibitor] use. [Autoantibody testing] [confirmed] identification of [anti-N-methyl-D-aspartate receptor antibodies] in the [cerebrospinal fluid] of 1 patient. Withdrawal of [immune checkpoint inhibitors] and initiation of [immunosuppressive therapy], consisting of intravenous methylprednisolone sodium succinate equivalent to 1000 mg of methylprednisolone for 5 days, 0.4 mg/kg/d of [intravenous immunoglobulin] for 5 days, and 2 doses of [rituximab], 1000 mg, in 1 patient and oral prednisone, 60 mg/d, in the other patient, resulted in [improved] [neurologic symptoms]. [Immune checkpoint inhibition] may favor the development of [immune responses] against neuronal antigens, leading to [autoimmune encephalitis]. Early recognition and treatment of [autoimmune encephalitis] in patients receiving [immune checkpoint blockade therapy] will likely be essential for maximizing clinical recovery and minimizing the effect of drug-related toxic effects. The mechanisms by which [immune checkpoint inhibition] may contribute to [autoimmune encephalitis] require further study.	[Paraneoplastic encephalitides]{Disorders} is Encephalitides, Paraneoplastic Limbic [Autoimmune Encephalitis]{Disorders} is Autoimmune Encephalitis [diagnosis of cancer]{Procedures} is Cancer Diagnosis [Immune Checkpoint Inhibitor]{Chemicals & Drugs} is Pharmacologic Agent [Metastatic Cancer]{Disorders} is Metastasize [immunosuppressive therapy]{Procedures} is Immunosuppressive Therapy [autoimmune encephalitides]{Disorders} is Autoimmune Encephalitis [presence]{Disorders} is Presence [cancer]{Disorders} is CA - Cancer [autoimmune encephalitis]{Disorders} is Autoimmune Encephalitis [metastatic cancer]{Disorders} is Metastasize [immune checkpoint inhibitors]{Chemicals & Drugs} is Pharmacologic Agent [nivolumab]{Chemicals & Drugs} is Nivolumab [ipilimumab]{Chemicals & Drugs} is Ipilimumab [retrospective case study]{Procedures} is Retrospective Study [clinical and management]{Procedures} is Clinical Management [refractory metastatic cancer]{Disorders} is Refractory Cancer [treated with]{Procedures} is Treated with [immune checkpoint inhibitors]{Chemicals & Drugs} is Pharmacologic Agent [nivolumab]{Chemicals & Drugs} is Nivolumab [ipilimumab]{Chemicals & Drugs} is Ipilimumab [Nivolumab]{Chemicals & Drugs} is Nivolumab [ipilimumab]{Chemicals & Drugs} is Ipilimumab [clinical response]{Disorders} is Clinical Response [immunosuppressive therapy]{Procedures} is Immunosuppressive Therapy [autoimmune encephalitis]{Disorders} is Autoimmune Encephalitis [immune checkpoint inhibitor]{Chemicals & Drugs} is Pharmacologic Agent [Autoantibody testing]{Procedures} is Autoantibody test [confirmed]{Disorders} is Confirmed [anti-N-methyl-D-aspartate receptor antibodies]{Chemicals & Drugs} is Anti-N-methyl-D-aspartate receptor antibody [cerebrospinal fluid]{Anatomy} is Cerebrospinal Fluid [immune checkpoint inhibitors]{Chemicals & Drugs} is Pharmacologic Agent [immunosuppressive therapy]{Procedures} is Immunosuppressive Therapy [intravenous immunoglobulin]{Chemicals & Drugs} is Intravenous Immunoglobulin [rituximab]{Chemicals & Drugs} is Rituximab [improved]{Disorders} is Improved [neurologic symptoms]{Disorders} is Neurologic Symptoms [Immune checkpoint inhibition]{Physiology} is Inhibition of immune response [immune responses]{Physiology} is Immune Response [autoimmune encephalitis]{Disorders} is Autoimmune Encephalitis [autoimmune encephalitis]{Disorders} is Autoimmune Encephalitis [immune checkpoint blockade therapy]{Procedures} is Immunosuppressive Therapy [immune checkpoint inhibition]{Physiology} is Inhibition of immune response [autoimmune encephalitis]{Disorders} is Autoimmune Encephalitis
[Intron] Derived [Size] [Polymorphism] in the [Mitochondrial Genomes] of Closely Related [Chrysoporthe Species] In this study, the complete [mitochondrial (mt) genomes] of [Chrysoporthe austroafricana] (190,834 bp), [C. cubensis] (89,084 bp) and [C. deuterocubensis] (124,412 bp) were determined. Additionally, the [mitochondrial genome] of another member of the [Cryphonectriaceae], namely [Cryphonectria parasitica] (158,902 bp), was retrieved and annotated for comparative purposes. These [genomes] showed high levels of [synteny], especially in regions including [genes] involved in [oxidative phosphorylation] and [electron transfer], [unique open reading frames] [(uORFs)], [ribosomal RNAs] [(rRNAs)] and [transfer RNAs] [(tRNAs)], as well as [intron] [positions]. Comparative analyses revealed signatures of [duplication] events, [intron] number and length variation, and varying [intronic] [ORFs] which highlighted the genetic diversity of [mt genomes] among the [Cryphonectriaceae]. These [mt genomes] showed remarkable [size] [polymorphism]. The [size] [polymorphism] in the [mt genomes] of these closely related [Chrysoporthe species] was attributed to the varying number and length of [introns], [coding sequences] and to a lesser [extent], [intergenic sequences]. Compared to publicly available fungal [mt genomes], the [C. austroafricana] [mt genome] is the second largest in the [Ascomycetes] thus far.	[Intron]{Chemicals & Drugs} is Intron [Size]{Concepts & Ideas} is Size [Polymorphism]{Physiology} is Polymorphism [mitochondrial (mt) genomes]{Genes & Molecular Sequences} is Mitochondrial Genomes [Mitochondrial Genomes]{Genes & Molecular Sequences} is Mitochondrial Genomes [Chrysoporthe austroafricana]{Living Beings} is Chrysoporthe austroafricana [Chrysoporthe Species]{Living Beings} is Chrysoporthe [C. cubensis]{Living Beings} is Chrysoporthe cubensis [C. deuterocubensis]{Living Beings} is Chrysoporthe deuterocubensis [mitochondrial genome]{Genes & Molecular Sequences} is Mitochondrial Genomes [Cryphonectriaceae]{Living Beings} is Cryphonectriaceae [Cryphonectria parasitica]{Living Beings} is Cryphonectria parasitica [genomes]{Genes & Molecular Sequences} is Genomes [synteny]{Physiology} is Synteny [genes]{Genes & Molecular Sequences} is Genes [oxidative phosphorylation]{Physiology} is Oxidative phosphorylation [electron transfer]{Physiology} is Electron transfer (function) [unique open reading frames]{Genes & Molecular Sequences} is Open Reading Frames [(uORFs)]{Genes & Molecular Sequences} is Open Reading Frames [ribosomal RNAs]{Chemicals & Drugs} is Ribosomal RNA [(rRNAs)]{Chemicals & Drugs} is Ribosomal RNA [transfer RNAs]{Chemicals & Drugs} is Transfer RNA [(tRNAs)]{Chemicals & Drugs} is Transfer RNA [intron]{Chemicals & Drugs} is Intron [positions]{Concepts & Ideas} is Positioning [duplication]{Physiology} is Gene Duplication [intron]{Chemicals & Drugs} is Intron [intronic]{Chemicals & Drugs} is Intron [ORFs]{Genes & Molecular Sequences} is Open Reading Frames [mt genomes]{Genes & Molecular Sequences} is Mitochondrial Genomes [Cryphonectriaceae]{Living Beings} is Cryphonectriaceae [mt genomes]{Genes & Molecular Sequences} is Mitochondrial Genomes [size]{Concepts & Ideas} is Size [polymorphism]{Physiology} is Polymorphism [size]{Concepts & Ideas} is Size [polymorphism]{Physiology} is Polymorphism [mt genomes]{Genes & Molecular Sequences} is Mitochondrial Genomes [Chrysoporthe species]{Living Beings} is Chrysoporthe [introns]{Chemicals & Drugs} is Intron [coding sequences]{Genes & Molecular Sequences} is Open Reading Frames [extent]{Concepts & Ideas} is Extent [intergenic sequences]{Chemicals & Drugs} is Intergenic Sequences [mt genomes]{Genes & Molecular Sequences} is Mitochondrial Genomes [C. austroafricana]{Living Beings} is Chrysoporthe austroafricana [mt genome]{Genes & Molecular Sequences} is Mitochondrial Genomes [Ascomycetes]{Living Beings} is Genus Ascomycetes
The [flavivirus] [dengue] induces [hypertrophy] of [white matter] [astrocytes] [Flaviviruses], including [Zika] and [dengue] ([DENV]), pose a serious global threat to [human] health. Of the 50+ million [humans] [infected] with [DENV] annually, approximately 1-3 % progress to severe disease manifestations, [dengue hemorrhagic fever] ([DHF]) or [dengue shock syndrome] ([DSS]). Several factors are suspected to mediate the course of [infection] and [pathogenesis] of [DENV] [infection]. [DHF] and [DSS] are associated with vascular leakage and [neurological sequelae]. Our hypothesis was that altered [astrocyte activation] and morphology would alter the dynamics of the [extracellular space] and hence, neuronal and [vascular function]. We investigated the mechanisms of [neuropathogenesis] [DENV] [infection] in [rhesus macaques]. There were [decreased numbers] of GFAP [immunopositive astrocytes] per unit area, although those that remained had increased arbor length and [complexity]. This was combined with [structural] [hypertrophy] of [white matter] [astrocytes] in the absence of increased vascular leakage. Combined, these studies show how even low-grade [infection] with [DENV] induces measurable changes within the [parenchyma] of [infected] [individuals].	[Flaviviruses]{Living Beings} is Flavivirus [flavivirus]{Living Beings} is Flavivirus [dengue]{Living Beings} is Dengue virus [Zika]{Living Beings} is Zika virus [hypertrophy]{Disorders} is Hypertrophy [dengue]{Living Beings} is Dengue virus [DENV]{Living Beings} is Dengue virus [white matter]{Anatomy} is White Matter [astrocytes]{Anatomy} is Astrocytes [human]{Living Beings} is Human [humans]{Living Beings} is Human [infected]{Disorders} is Infected [DENV]{Living Beings} is Dengue virus [dengue hemorrhagic fever]{Disorders} is Dengue hemorrhagic fever [DHF]{Disorders} is Dengue hemorrhagic fever [dengue shock syndrome]{Disorders} is Dengue Shock Syndrome [DSS]{Disorders} is Dengue Shock Syndrome [infection]{Disorders} is Infected [pathogenesis]{Disorders} is Pathogenesis [DENV]{Living Beings} is Dengue virus [infection]{Disorders} is Infected [DHF]{Disorders} is Dengue hemorrhagic fever [DSS]{Disorders} is Dengue Shock Syndrome [neurological sequelae]{Disorders} is Sequelae of neurological disorders [astrocyte activation]{Physiology} is Astrocyte activation [extracellular space]{Anatomy} is Extracellular Space [vascular function]{Physiology} is Vascular function [neuropathogenesis]{Disorders} is Neuropathogenesis [DENV]{Living Beings} is Dengue virus [infection]{Disorders} is Infected [rhesus macaques]{Living Beings} is Rhesus macaques [decreased numbers]{Disorders} is Investigation Finding [immunopositive astrocytes]{Anatomy} is Astrocytes [complexity]{Disorders} is Investigation Finding [structural]{Concepts & Ideas} is Structural [hypertrophy]{Disorders} is Hypertrophy [white matter]{Anatomy} is White Matter [astrocytes]{Anatomy} is Astrocytes [infection]{Disorders} is Infected [DENV]{Living Beings} is Dengue virus [parenchyma]{Anatomy} is Parenchyma [infected]{Disorders} is Infected [individuals]{Living Beings} is Individual (person)
A DANGEROUS MUDDYING OF THE WATERS? THE ' SIGNIFICANT HARM ' OF RE B AND G (CHILDREN) (CARE PROCEEDINGS)(2015) EWFC 3 The academic debate [rages] on as to whether [male circumcision] really is in the best [interests] of the child or if it constitutes an abusive practice. This [commentary] discusses the recent case of Re B and G (children) (care proceedings) (2015) EWFC 3, delivered by the current [President] of the [Family Division of the High court], Sir James Munby. Two key [issues] are raised by this [judgment]. First, that [President] Munby's obiter [comments] constitute an attack on the legally accepted act of [male circumcision] by suggesting a similar nature between the illegal act of female genital mutilation (FGM) and that of [male circumcision] as well as the suggestion that [male circumcision] can be classed as a significant harm. Second, that this case [reflects] the woefully [unprepared] condition of the [UK] medical profession in dealing with FGM.	[rages]{Physiology} is Rages [male circumcision]{Procedures} is Male Circumcision [interests]{Physiology} is Interest [commentary]{Concepts & Ideas} is Commentary [President]{Living Beings} is Professional occupation status [Family Division of the High court]{Organizations} is Organization [issues]{Disorders} is Issue [judgment]{Disorders} is Judgement - finding [President]{Living Beings} is Professional occupation status [comments]{Concepts & Ideas} is Comment [male circumcision]{Procedures} is Male Circumcision [male circumcision]{Procedures} is Male Circumcision [male circumcision]{Procedures} is Male Circumcision [reflects]{Physiology} is Reflecting [unprepared]{Concepts & Ideas} is Unprepared [UK]{Geographic Areas} is UK
[Zinc transporter] [ZIP10] forms a heteromer with [ZIP6] which [regulates] [embryonic development] and [cell migration] There is growing evidence that [zinc] and its [transporters] are involved in [cell migration] during [development] and in [cancer]. In the present [study], we show that [zinc transporter] [ZIP10] ([SLC39A10]) stimulates [cell motility] and [proliferation], both in [mammalian cells] and in the [zebrafish] [embryo]. This is associated with [inactivation] of [GSK-3α] and [-3ß] and [downregulation] of [E-cadherin] ([CDH1]). [Morpholino] -mediated [knock-down] of [zip10] causes delayed [epiboly] and deformities of the [head], [eye], [heart] and [tail]. Furthermore, [zip10] deficiency results in [overexpression] of [cdh1], [zip6] and [stat3], the latter [gene product] driving [transcription] of both [zip6] and [zip10] The non-reduntant requirement of [Zip6] and [Zip10] for [epithelial to mesenchymal transition] ([EMT]) is consistent with our [finding] that they exist as a heteromer. We postulate that a [subset] of [ZIPs] carrying [PrP-like ectodomains], including [ZIP6] and [ZIP10], are integral to [cellular] [pathways] and [plasticity] programs, such as [EMT].	[Zinc transporter]{Chemicals & Drugs} is Zinc transporter [ZIP10]{Chemicals & Drugs} is ZIP10 protein, human [zinc]{Chemicals & Drugs} is Zn - Zinc [transporters]{Chemicals & Drugs} is Zinc transporter [ZIP6]{Chemicals & Drugs} is Zinc Transporter ZIP6 [regulates]{Phenomena} is Regulation [embryonic development]{Physiology} is Embryonic Development [cell migration]{Physiology} is Cell Migration [cell migration]{Physiology} is Cell Migration [development]{Physiology} is Developmental [cancer]{Disorders} is CA - Cancer [study]{Procedures} is Study [zinc transporter]{Chemicals & Drugs} is Zinc transporter [ZIP10]{Chemicals & Drugs} is ZIP10 protein, human [SLC39A10]{Chemicals & Drugs} is ZIP10 protein, human [cell motility]{Physiology} is Cell Motility [proliferation]{Physiology} is Cell proliferation [mammalian cells]{Anatomy} is Mammalian Cell [zebrafish]{Living Beings} is Zebrafish [embryo]{Anatomy} is Embryos [inactivation]{Physiology} is Molecular inactivation [GSK-3α]{Chemicals & Drugs} is GSK-3 Alpha [-3ß]{Chemicals & Drugs} is GSK3B [downregulation]{Physiology} is Downregulation [E-cadherin]{Chemicals & Drugs} is E-cadherin [CDH1]{Chemicals & Drugs} is CDH1 [Morpholino]{Chemicals & Drugs} is Morpholino [knock-down]{Procedures} is Gene Knock-Down [zip10]{Genes & Molecular Sequences} is SLC39A10 [epiboly]{Physiology} is Epiboly [head]{Anatomy} is Heads [eye]{Anatomy} is Eyes [heart]{Anatomy} is Hearts [tail]{Anatomy} is Tail [zip10]{Chemicals & Drugs} is ZIP10 protein, human [overexpression]{Physiology} is Overexpression [cdh1]{Chemicals & Drugs} is CDH1 [zip6]{Chemicals & Drugs} is Zinc Transporter ZIP6 [stat3]{Chemicals & Drugs} is STAT3 [gene product]{Chemicals & Drugs} is Protein [transcription]{Physiology} is Gene Transcription [zip6]{Chemicals & Drugs} is Zinc Transporter ZIP6 [zip10]{Chemicals & Drugs} is ZIP10 protein, human [Zip6]{Chemicals & Drugs} is Zinc Transporter ZIP6 [Zip10]{Chemicals & Drugs} is ZIP10 protein, human [epithelial to mesenchymal transition]{Physiology} is Mesenchymal to epithelial transition [EMT]{Physiology} is Mesenchymal to epithelial transition [finding]{Disorders} is Finding (finding) [subset]{Concepts & Ideas} is Subset [ZIPs]{Chemicals & Drugs} is ZIP protein, human [PrP-like ectodomains]{Genes & Molecular Sequences} is Protein Domains [ZIP6]{Chemicals & Drugs} is Zinc Transporter ZIP6 [ZIP10]{Chemicals & Drugs} is ZIP10 protein, human [cellular]{Procedures} is Cellular [pathways]{Physiology} is Pathways [plasticity]{Physiology} is Cell Plasticity [EMT]{Physiology} is Mesenchymal to epithelial transition
Demographics, Health, and Risk Behaviors of Young Adults Who [Drink] [Energy Drinks] and [Coffee] [Beverages] [Objective]: The [present] [study] investigates risk behaviors, sleep habits, and mental health factors associated with caffeinated beverage use in young adults. Materials and [Methods]: [Students] from a [midsize private university] (n = 159) completed a 15- minute anonymous [questionnaire], including questions on risk behaviors, sleep habits, alcohol, and caffeine consumption. We compared behaviors between the top ∼15% ("high end") of [energy drink] [users] (≥3/ month) and [coffee] [users] (≥16/ month) to those with less frequent or no caffeine consumption. Results: Caffeine consumption was frequent among young adults. In the last month, 36% of [students] had an [energy drink], 69% had [coffee] or [espresso], and 86% reported having any [caffeine]; however, the majority of [students] were unaware of the [caffeine] content in these [beverages]. High-end [energy drink] [consumers] reported more risk-taking behaviors (increased drug and alcohol use and less frequent [seat belt use]), [sleep disturbances] (later bedtimes, [harder time falling asleep], and more all-nighters), and higher frequency of [mental illness] [diagnoses] than those who consumed fewer [energy drinks]. In contrast, the frequency of most risk behaviors, [sleep disturbances], and [mental illness] [diagnoses] was not significantly different between the [high-end and general population] of [coffee] [drinkers]. Conclusion: [Students] with delayed [sleep patterns], [mental illness], and higher frequency of [substance use] and risk behaviors were more likely to be regular [energy drink] [users] but not [regular coffee drinkers]. It is unclear whether the [psychoactive] content in [energy drinks] results in different behavioral effects than just [caffeine] in [coffee], and/or different [personality] / [health populations] are drawn to the two types of [beverages].	[Objective]{Concepts & Ideas} is Objective [present]{Disorders} is Present [study]{Procedures} is Study [Drink]{Objects} is Drink [Energy Drinks]{Objects} is Energy Drinks [Coffee]{Objects} is Coffee [Beverages]{Objects} is Beverages [Methods]{Concepts & Ideas} is Methods [Students]{Living Beings} is Students [midsize private university]{Organizations} is University [questionnaire]{Concepts & Ideas} is Questionnaire [energy drink]{Objects} is Energy Drinks [users]{Living Beings} is Users [coffee]{Objects} is Coffee [users]{Living Beings} is Users [students]{Living Beings} is Students [energy drink]{Objects} is Energy Drinks [coffee]{Objects} is Coffee [espresso]{Objects} is Food Product [caffeine]{Chemicals & Drugs} is Caffeine [students]{Living Beings} is Students [caffeine]{Chemicals & Drugs} is Caffeine [beverages]{Objects} is Beverages [energy drink]{Objects} is Energy Drinks [consumers]{Living Beings} is Group (social concept) [seat belt use]{Disorders} is Wearing seat belt [sleep disturbances]{Disorders} is Sleep disturbances [harder time falling asleep]{Disorders} is Trouble falling asleep [mental illness]{Disorders} is Mental illness [diagnoses]{Disorders} is Diagnoses [energy drinks]{Objects} is Energy Drinks [sleep disturbances]{Disorders} is Sleep disturbances [mental illness]{Disorders} is Mental illness [diagnoses]{Disorders} is Diagnoses [high-end and general population]{Living Beings} is Group (social concept) [coffee]{Objects} is Coffee [drinkers]{Disorders} is Drinker [Students]{Living Beings} is Students [sleep patterns]{Disorders} is Abnormal sleep patterns [mental illness]{Disorders} is Mental illness [substance use]{Disorders} is Substance use [energy drink]{Objects} is Energy Drinks [users]{Living Beings} is Users [regular coffee drinkers]{Disorders} is Excessive coffee drinker [psychoactive]{Chemicals & Drugs} is Psychoactive Drugs [energy drinks]{Objects} is Energy Drinks [caffeine]{Chemicals & Drugs} is Caffeine [coffee]{Objects} is Coffee [personality]{Physiology} is Personality [health populations]{Living Beings} is Group (social concept) [beverages]{Objects} is Beverages
[Phytoplankton] production and taxon - specific growth rates in the [Costa Rica Dome] During summer 2010, we investigated [phytoplankton] production and growth rates at 19 stations in the eastern tropical Pacific, where winds and strong opposing currents generate the [Costa Rica Dome] ([CRD]), an [open] - [ocean] upwelling feature. Primary production ([(14)C] - incorporation) and group-specific [growth] and net growth rates (two-treatment seawater [dilution method]) were estimated from [samples] [incubated] [in situ] at eight [depths]. Our cruise coincided with a mild El Niño event, and only weak upwelling was observed in the [CRD]. Nevertheless, the highest [phytoplankton] abundances were found near the dome [center]. However, [mixed-layer] growth rates were lowest in the dome [center] (∼0.5-0.9 day(-1)), but higher on the edge of the dome (∼0.9-1.0 day(-1)) and in [adjacent] [coastal waters] (0.9-1.3 day(-1)). We found good agreement between independent methods to estimate growth rates. [Mixed-layer] growth rates of [Prochlorococcus] and [Synechococcus] were largely balanced by mortality, whereas [eukaryotic phytoplankton] showed [positive] [net growth] (∼0.5-0.6 day(-1)), that is, [growth] available to support larger ([mesozooplankton]) consumer biomass. These are the first group-specific [phytoplankton] rate estimates in this [region], and they demonstrate that integrated primary production is high, exceeding 1 g C m(-2) day(-1) on average, even during a period of reduced upwelling.	[Phytoplankton]{Living Beings} is Phytoplankton [phytoplankton]{Living Beings} is Phytoplankton [Costa Rica Dome]{Geographic Areas} is Costa Rica [Costa Rica Dome]{Geographic Areas} is Costa Rica [CRD]{Geographic Areas} is Costa Rica [open]{Concepts & Ideas} is Open [ocean]{Geographic Areas} is Oceans [(14)C]{Chemicals & Drugs} is C-14 [growth]{Physiology} is Developments, Plant [dilution method]{Procedures} is Dilution [samples]{Living Beings} is Kingdom Viridiplantae (organism) [incubated]{Procedures} is Incubated [in situ]{Concepts & Ideas} is In situ [depths]{Concepts & Ideas} is Depth [CRD]{Geographic Areas} is Costa Rica [phytoplankton]{Living Beings} is Phytoplankton [center]{Concepts & Ideas} is Center [mixed-layer]{Concepts & Ideas} is Space - property [center]{Concepts & Ideas} is Center [adjacent]{Concepts & Ideas} is Adjacent [coastal waters]{Geographic Areas} is Coastal water [Mixed-layer]{Concepts & Ideas} is Space - property [Prochlorococcus]{Living Beings} is Genus Prochlorococcus [Synechococcus]{Living Beings} is Synechococcus [eukaryotic phytoplankton]{Living Beings} is Phytoplankton [positive]{Disorders} is Positive for [net growth]{Physiology} is 'growth' [growth]{Physiology} is Developments, Plant [mesozooplankton]{Living Beings} is Zooplankton [phytoplankton]{Living Beings} is Phytoplankton [region]{Geographic Areas} is Region
Incidence and Impact of Patient - [Prosthesis] Mismatch in [Isolated Aortic Valve Surgery] The mains topics of this work are the incidence of patient - [prosthesis] mismatch and the influence in the early results of [isolated aortic valve surgery]. In 193 patients [isolated aortic valve surgery] was performed. The [study population] was divided in three [subgroups]: 20 patients with severe, 131 patients with moderate and 42 patients without patient - [prosthesis] mismatch. The [indexed] effective orifice area was used to define the [subgroups]. Operative mortality and [perioperative complications] were considered the indicators of the early results of [aortic valve surgery]. The incidence of severe and moderate patient - [prosthesis] mismatch was respectively 10.3% and 67.8%. Hospital mortality and [perioperative complications] were: mortality 5% vs. 3.1% vs. 2.4% (p = 0.855), [low cardiac output] 5% vs. 6.9% vs. 4.8% (p = 0.861); [pulmonary complications] 5% vs. 3.1 vs. 0.0% (p = 0.430); [exploration] for [bleeding] 5% vs. 0.8% vs. 2.4% (p = 0.319); [atrial fibrillation] 30% vs. 19.8% vs. 11.9% (p = 0.225); [wound infection] 5% vs. 0.8% vs. 0.00% (p = 0.165), respectively for the group with severe, moderate and without patient - [prosthesis] mismatch. Patient - [prosthesis] mismatch is a common occurrence in [aortic valve surgery]. This phenomenon does not affect the early results of [aortic valve surgery].	[Prosthesis]{Devices} is Prosthesis, device [Isolated Aortic Valve Surgery]{Procedures} is Aortic valve replacement [prosthesis]{Devices} is Prosthesis, device [isolated aortic valve surgery]{Procedures} is Aortic valve replacement [isolated aortic valve surgery]{Procedures} is Aortic valve replacement [study population]{Living Beings} is Study Population [subgroups]{Concepts & Ideas} is Subgroup [prosthesis]{Devices} is Prosthesis, device [indexed]{Concepts & Ideas} is Indexes as Topic [subgroups]{Concepts & Ideas} is Subgroup [perioperative complications]{Disorders} is Peroperative Complications [aortic valve surgery]{Procedures} is Aortic valve replacement [prosthesis]{Devices} is Prosthesis, device [perioperative complications]{Disorders} is Peroperative Complications [low cardiac output]{Disorders} is Low Cardiac Output [pulmonary complications]{Disorders} is Pulmonary Complication [exploration]{Procedures} is Exploration [bleeding]{Disorders} is Bleeding [atrial fibrillation]{Disorders} is Fibrillation atrial [wound infection]{Disorders} is Wound infection [prosthesis]{Devices} is Prosthesis, device [prosthesis]{Devices} is Prosthesis, device [aortic valve surgery]{Procedures} is Aortic valve replacement [aortic valve surgery]{Procedures} is Aortic valve replacement
Nutrient Intakes in Early Life and Risk of [Obesity] There is increasing evidence that environmental factors in early life predict later health. The early adiposity rebound recorded in most [obese] [subjects] suggests that factors promoting [body fat] [development] have operated in the first years of life. Birth weight, growth velocity and [body mass index] ([BMI]) trajectories seem to be highly sensitive to the [environmental] conditions [present] during [pregnancy] and in early life ("The first 1000 days "). Particularly, nutritional exposure can have a long-term effect on health in adulthood. The [high protein-low fat diet] often recorded in young children may have contributed to the rapid rise of childhood [obesity] prevalence during the last decades. Metabolic programming by early [nutrition] could explain the [development] of later [obesity] and [adult diseases].	[Obesity]{Disorders} is Obesity (disorder) [obese]{Disorders} is Obesity (disorder) [subjects]{Living Beings} is Subject [body fat]{Physiology} is Body fat [development]{Physiology} is Development aspects [body mass index]{Physiology} is Body mass index [BMI]{Physiology} is Body mass index [environmental]{Concepts & Ideas} is Environmental [present]{Disorders} is Present [pregnancy]{Physiology} is Pregnancy [high protein-low fat diet]{Objects} is Diet [obesity]{Disorders} is Obesity (disorder) [nutrition]{Physiology} is Nutrition [development]{Physiology} is Development aspects [obesity]{Disorders} is Obesity (disorder) [adult diseases]{Disorders} is Adult disease
Characteristics of the fibroplasia and [collagen] [expression] in the [abdominal wall] after [implant] of the [polypropylene mesh] and [polypropylene] / [polyglecaprone mesh] in [rats] To compare fibroplasia and the [resistance] of the [abdominal wall] when [polypropylene meshes] and [polypropylene] / [poliglecaprone] are used. Seventy-seven male [Wistar rats] were divided into three [groups]: Control Group (for [resistance]); [Group E] ([polypropylene mesh]); and [Group U] ([polypropylene] / [poliglecaprone mesh]). The [animals] in [Groups E] and [U] had a standard [muscular] and aponeurotic defect, with [integral] [peritoneum], and correction with the [mesh]. Measurements were taken 4, 7, 14, 28 and 56 days after [surgery]. The [resistance], and [collagen] density were [studied]. [Resistance] on the 56th day was similar in both [meshes]. The gain in [resistance] described an ascending [curve] for the [polypropylene mesh] and was irregular in the case of the [polypropylene] / [poliglecaprone]. Fibroplasia showed a gain in [type I] and [type III collagen] in both [groups] (p<0.001). [Collagen III] [stabilized] in the 14th day and [collagen I] continued to ascend. The gain in [resistance] of the [polypropylene mesh] is regular and ascending, whereas the [polypropylene] / [poliglecaprone] is not regular. The final [resistance] of both [meshes] is similar; the [collagen] density increases over time, and show the same inflammatory potential.	[resistance]{Physiology} is Resistance Process [collagen]{Chemicals & Drugs} is Collagen [expression]{Physiology} is Protein expression [abdominal wall]{Anatomy} is Abdominal Wall [abdominal wall]{Anatomy} is Abdominal Wall [polypropylene meshes]{Chemicals & Drugs} is Polypropylene mesh [implant]{Procedures} is Implant [polypropylene]{Chemicals & Drugs} is Polypropylene mesh [polypropylene mesh]{Chemicals & Drugs} is Polypropylene mesh [poliglecaprone]{Chemicals & Drugs} is Polyglecaprone 25 [polypropylene]{Chemicals & Drugs} is Polypropylene mesh [polyglecaprone mesh]{Chemicals & Drugs} is Polyglecaprone 25 [Wistar rats]{Living Beings} is Wistar Rats [rats]{Living Beings} is RAT [groups]{Living Beings} is Study Population (group) [resistance]{Physiology} is Resistance Process [Group E]{Living Beings} is Study Population (group) [polypropylene mesh]{Chemicals & Drugs} is Polypropylene mesh [Group U]{Living Beings} is Study Population (group) [polypropylene]{Chemicals & Drugs} is Polypropylene mesh [poliglecaprone mesh]{Chemicals & Drugs} is Polyglecaprone 25 [animals]{Living Beings} is Animals [Groups E]{Living Beings} is Study Population (group) [U]{Living Beings} is Study Population (group) [muscular]{Anatomy} is Muscular [integral]{Concepts & Ideas} is Internal [peritoneum]{Anatomy} is Peritoneum [mesh]{Devices} is SURG MESH [surgery]{Procedures} is Surgery [resistance]{Physiology} is Resistance Process [collagen]{Chemicals & Drugs} is Collagen [studied]{Procedures} is Study [Resistance]{Physiology} is Resistance Process [meshes]{Devices} is SURG MESH [resistance]{Physiology} is Resistance Process [curve]{Concepts & Ideas} is Curve [polypropylene mesh]{Chemicals & Drugs} is Polypropylene mesh [polypropylene]{Chemicals & Drugs} is Polypropylene mesh [poliglecaprone]{Chemicals & Drugs} is Polyglecaprone 25 [type I]{Chemicals & Drugs} is Collagen type I [type III collagen]{Chemicals & Drugs} is Type III Collagen [groups]{Living Beings} is Study Population (group) [Collagen III]{Chemicals & Drugs} is Type III Collagen [stabilized]{Disorders} is Stabilized [collagen I]{Chemicals & Drugs} is Collagen type I [resistance]{Physiology} is Resistance Process [polypropylene mesh]{Chemicals & Drugs} is Polypropylene mesh [polypropylene]{Chemicals & Drugs} is Polypropylene mesh [poliglecaprone]{Chemicals & Drugs} is Polyglecaprone 25 [resistance]{Physiology} is Resistance Process [meshes]{Devices} is SURG MESH [collagen]{Chemicals & Drugs} is Collagen
[Clinical evaluation] of the [AutoPulse] [automated chest compression device] for [out-of-hospital cardiac arrest] in the [northern] district of [Shanghai], [China] Whether the [AutoPulse] [automated chest compression device] is worthy of clinical use for [out-of-hospital cardiac arrest] ([OHCA]) remains controversial. A [prospective controlled study] was conducted to [evaluate] the effect of [AutoPulse] versus manual [chest] [compression] for [cardiopulmonary resuscitation] ([CPR]) of [OHCA] patients in the [northern] district of [Shanghai], [China]. A total of 133 patients with [OHCA] who were treated at the [Emergency Medical Center of the Tenth People's Hospital] Affiliated with [Tongji University] between March 2011 and March 2012 were included. The patients were randomly assigned to the Manual [CPR] (n = 64) and [AutoPulse] [CPR] groups (n = 69) in accordance with the approach of [chest] [compression] received. The primary outcome measure was return of spontaneous circulation (ROSC), and the secondary outcome measures included 24-h survival rate, hospital discharge rate, and neurological [prognosis] at [hospital discharge]. The ROSC rate of patients with [OHCA] was significantly higher in the [AutoPulse] [CPR] group than in the Manual [CPR] group (44.9% vs. 23.4%; p = 0.009). The 24-h survival rate of [OHCA] patients was significantly higher in the [AutoPulse] [CPR] group than in the Manual [CPR] group (39.1% vs. 21.9%; p = 0.03). The hospital discharge rate of the patients with [OHCA] was significantly higher in the [AutoPulse] [CPR] group than in the Manual [CPR] group (18.8% vs. 6.3%; p = 0.03). The proportion of patients with [OHCA] and a cerebral performance category score of 1 or 2 points at [hospital discharge] was higher in the [AutoPulse] [CPR] group than in the Manual [CPR] group, but the difference was not statistically significant (16.2% vs. 13.4%, p = 1.00). Use of the [AutoPulse] increases [CPR] success and survival rates in patients with [OHCA], but its ability to [improve] [cerebral] performance requires further [evaluation].	[Clinical evaluation]{Procedures} is Clinical Evaluation [AutoPulse]{Devices} is Cardiopulmonary resuscitator [automated chest compression device]{Devices} is Cardiopulmonary resuscitator [AutoPulse]{Devices} is Cardiopulmonary resuscitator [automated chest compression device]{Devices} is Cardiopulmonary resuscitator [out-of-hospital cardiac arrest]{Disorders} is Out-of-Hospital Cardiac Arrest [out-of-hospital cardiac arrest]{Disorders} is Out-of-Hospital Cardiac Arrest [northern]{Concepts & Ideas} is Northern [OHCA]{Disorders} is Out-of-Hospital Cardiac Arrest [Shanghai]{Geographic Areas} is Geographic Region [China]{Geographic Areas} is China [prospective controlled study]{Procedures} is Study, Prospective [evaluate]{Procedures} is Evaluate [AutoPulse]{Devices} is Cardiopulmonary resuscitator [chest]{Anatomy} is Chest [compression]{Procedures} is Compression [cardiopulmonary resuscitation]{Procedures} is Cardiopulmonary resuscitation [CPR]{Procedures} is Cardiopulmonary resuscitation [OHCA]{Disorders} is Out-of-Hospital Cardiac Arrest [northern]{Concepts & Ideas} is Northern [Shanghai]{Geographic Areas} is Geographic Region [China]{Geographic Areas} is China [OHCA]{Disorders} is Out-of-Hospital Cardiac Arrest [Emergency Medical Center of the Tenth People's Hospital]{Organizations} is Hospital [Tongji University]{Organizations} is University Hospitals [CPR]{Procedures} is Cardiopulmonary resuscitation [AutoPulse]{Devices} is Cardiopulmonary resuscitator [CPR]{Procedures} is Cardiopulmonary resuscitation [chest]{Anatomy} is Chest [compression]{Procedures} is Compression [prognosis]{Procedures} is Prognosis [hospital discharge]{Procedures} is Discharge from hospital [OHCA]{Disorders} is Out-of-Hospital Cardiac Arrest [AutoPulse]{Devices} is Cardiopulmonary resuscitator [CPR]{Procedures} is Cardiopulmonary resuscitation [CPR]{Procedures} is Cardiopulmonary resuscitation [OHCA]{Disorders} is Out-of-Hospital Cardiac Arrest [AutoPulse]{Devices} is Cardiopulmonary resuscitator [CPR]{Procedures} is Cardiopulmonary resuscitation [CPR]{Procedures} is Cardiopulmonary resuscitation [OHCA]{Disorders} is Out-of-Hospital Cardiac Arrest [AutoPulse]{Devices} is Cardiopulmonary resuscitator [CPR]{Procedures} is Cardiopulmonary resuscitation [CPR]{Procedures} is Cardiopulmonary resuscitation [OHCA]{Disorders} is Out-of-Hospital Cardiac Arrest [hospital discharge]{Procedures} is Discharge from hospital [AutoPulse]{Devices} is Cardiopulmonary resuscitator [CPR]{Procedures} is Cardiopulmonary resuscitation [CPR]{Procedures} is Cardiopulmonary resuscitation [AutoPulse]{Devices} is Cardiopulmonary resuscitator [CPR]{Procedures} is Cardiopulmonary resuscitation [OHCA]{Disorders} is Out-of-Hospital Cardiac Arrest [improve]{Disorders} is Improved [cerebral]{Anatomy} is Brains [evaluation]{Procedures} is Evaluate

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