Glycopyrrolate abolishes the exercise-induced increase in cerebral perfusion in humans. - Test2 - elhamkhani - TriplyDB

Glycopyrrolate abolishes the exercise-induced increase in cerebral perfusion in humans.

Glycopyrrolate abolishes the exercise-induced increase in cerebral perfusion in humans.

http://www.wikidata.org/entity/Q42957608

about

Hyperventilation, cerebral perfusion, and syncope.Face cooling with mist water increases cerebral blood flow during exercise: effect of changes in facial skin blood flow.Venous cerebral blood volume increase during voluntary locomotion reflects cardiovascular changes.Vagolytic atropine attenuates cerebral vasodilation response during acute orthostatic hypotension.Integrative physiological and computational approaches to understand autonomic control of cerebral autoregulation Cerebral blood flow, sympathetic nerve activity and stroke risk in obstructive sleep apnoea. Is there a direct link?Cerebral Vascular Control and Metabolism in Heat Stress.Cardiovascular control during whole body exercise.Glycopyrrolate does not influence the visual or motor-induced increase in regional cerebral perfusion.Parasympathetic control of blood flow to the activated human brain.Differential responses to sympathetic stimulation in the cerebral and brachial circulations during rhythmic handgrip exercise in humans.Integration of Central and Peripheral Regulation of the Circulation during Exercise: Acute and Chronic Adaptations.A cholinergic contribution to the circulatory responses evoked at the onset of handgrip exercise in humans.Influence of muscle metaboreceptor stimulation on middle cerebral artery blood velocity in humans.Regulation of cerebral blood flow and metabolism during exercise.The impact of age on cerebral perfusion, oxygenation and metabolism during exercise in humans.Effect of an acute increase in central blood volume on cerebral hemodynamics.The Effects of Moderate Physical Exercise on Adult Cognition: A Systematic Review.Peripheral vasodilatation determines cardiac output in exercising humans: insight from atrial pacing Cerebral oxygenation during the Richalet hypoxia sensitivity test and cycling time-trial performance in severe hypoxia

P2860

Q33163545-58C1AAC8-CD9E-4096-9EFC-8656D292D7F2 Q34397865-8C559628-F663-4650-BDAA-6004416794D7 Q36012576-5BA8E2A7-C954-44DE-AFF1-08A0E634155D Q36339891-CDBA7BE0-A6D6-4688-8398-5C7156DCFCDC Q37626313-BB62CECB-0F79-4B8A-B947-3CC9817F16CE Q38045946-025E6B84-9745-4324-9459-69A8A227A0A0 Q38542457-9D9BD6BA-6FFA-41AB-AD8C-6248F9DC4D19 Q38867261-BBA24C16-792E-4A56-9CC9-7E70309EDEF1 Q41897741-5199327C-532D-4E00-A0DC-6626BF8113B8 Q42905381-5759FA7F-BDF9-4EBF-BC0C-E9188AB33AFE Q46309567-695B176F-BB20-4412-8471-18725941A65A Q47651108-364941FB-30D3-46DE-BD1D-1A80A0FDE4D6 Q47762338-1AD9F796-D83E-454A-BFD3-7E41ABEA9C02 Q47814850-D6A5C917-6B48-4F8C-AE7F-C889C25BD6B1 Q48162488-62B0029C-080C-4C37-86B5-1BAF308141F1 Q48729521-03DC45C8-8D5C-4D11-A229-B3B0DA7BC1AC Q51794404-7E85FAEA-3C59-48D5-B46C-74FCA549ECE7 Q55282844-B8DC6683-16B0-4DC9-96CA-AE2AB3DB0BDF Q57806557-5BBD2970-115B-4832-8C4C-6D76489A2994 Q58808957-4D61AFF4-8EF6-4D84-B51F-901715EBAE75

P2860

Glycopyrrolate abolishes the exercise-induced increase in cerebral perfusion in humans.

http://www.wikidata.org/entity/Q42957608

description

2010 nî lūn-bûn

@nan

2010年の論文

@ja

2010年論文

@yue

2010年論文

@zh-hant

2010年論文

@zh-hk

2010年論文

@zh-mo

2010年論文

@zh-tw

2010年论文

@wuu

2010年论文

@zh

2010年论文

@zh-cn

name

Glycopyrrolate abolishes the exercise-induced increase in cerebral perfusion in humans.

@en

Glycopyrrolate abolishes the exercise-induced increase in cerebral perfusion in humans.

@nl

type

label

Glycopyrrolate abolishes the exercise-induced increase in cerebral perfusion in humans.

@en

Glycopyrrolate abolishes the exercise-induced increase in cerebral perfusion in humans.

@nl

prefLabel

Glycopyrrolate abolishes the exercise-induced increase in cerebral perfusion in humans.

@en

Glycopyrrolate abolishes the exercise-induced increase in cerebral perfusion in humans.

@nl

P1433

Q42957608-A816C9CE-3F4F-4F68-BBA1-927C6E1E1FF0

P1476

Q42957608-1D0BA39D-8EA3-48EE-A9F0-2BF53A77F29F

P2093

Q42957608-0DB43C9F-CC8C-48AF-B78F-BCE954E5629F

Q42957608-2D7396AF-3711-498E-96F6-FE32A1298464

Q42957608-737183E4-C82A-4752-9E2F-943C6DB6EABA

Q42957608-C4AC87C9-6469-42C4-BFFC-055EA1A959F8

Q42957608-D073062E-3DF1-4300-B4FB-20AD9A45084C

Q42957608-DDA24E74-8FA6-4783-9026-50DFE624CC7F

Q42957608-EAC27ED6-FED0-4CC4-9667-AB9FBD3C306E

P2860

Q42957608-06A97F89-00B1-4F14-A1B6-7DBBF4DB85F5

Q42957608-06F8ED38-0833-4CCD-B3AD-C12D18B76DEA

Q42957608-20EEF48F-27F6-480C-833C-0F49D79D6E7C

Q42957608-3173D0B9-FF1D-4362-9A24-D320148BE99D

Q42957608-3701A93C-6051-442B-B439-879393854DD1

Q42957608-4128B528-AF39-4741-97B4-9520B08C2D9E

Q42957608-4461DC6F-FD46-4A30-A821-E3B5ED498D1A

Q42957608-586498E9-8645-4492-8185-686405F8E10F

Q42957608-60BD4AC3-1DCD-45FF-AC62-47FBFFCC6119

Q42957608-7B02B839-85B9-4B11-99DC-8EC4941029F3

P304

Q42957608-228D6726-C6DE-4B1C-A4EC-C8962836FC31

P31

Q42957608-9287103C-D95A-4B3F-A1EC-927698B4FB93

P356

Q42957608-6AE03B5D-D6E4-4AE0-B3DF-0FA22C12983F

P433

Q42957608-3EEE8673-8F49-4362-800C-3BFFCED27504

P478

Q42957608-A0F14093-291B-406C-843F-20FF4BDCA309

P50

Q42957608-A7D42A84-C2F7-44B6-83AA-0492CBB6C483

P577

Q42957608-C47EDC90-815C-4E6F-9AE7-71318261F807

P5875

Q42957608-B80E1280-A69D-4DBE-A5BE-ED77122EF537

P698

Q42957608-8DE385CC-354A-48D1-BE0A-82798CC8A152

P356

EXPPHYSIOL.2010.054346

P1433

Experimental Physiology

P1476

Glycopyrrolate abolishes the exercise-induced increase in cerebral perfusion in humans.

@en

P2093

Colin N Young

http://www.w3.org/2001/XMLSchema#string

Doreen Hartwich

http://www.w3.org/2001/XMLSchema#string

James P Fisher

http://www.w3.org/2001/XMLSchema#string

Niels H Secher

http://www.w3.org/2001/XMLSchema#string

Paul J Fadel

http://www.w3.org/2001/XMLSchema#string

Peter B Raven

http://www.w3.org/2001/XMLSchema#string

Thomas Seifert

http://www.w3.org/2001/XMLSchema#string

P2860

Regulation of middle cerebral artery blood velocity during dynamic exercise in humans: influence of aging

Cerebral blood flow and metabolism during exercise.

Cholinergic dilation of cerebral blood vessels is abolished in M(5) muscarinic acetylcholine receptor knockout mice.

Middle cerebral artery blood velocity during intense static exercise is dominated by a Valsalva maneuver.

Fuelling cerebral activity in exercising man.

Selective electrical stimulation of postganglionic cerebrovascular parasympathetic nerve fibers originating from the sphenopalatine ganglion enhances cortical blood flow in the rat.

Cerebral blood flow and metabolism during exercise: implications for fatigue.

Increased lactate/pyruvate ratio augments blood flow in physiologically activated human brain.

Cerebral perturbations provoked by prolonged exercise.

Non-invasive pulsatile arterial pressure and stroke volume changes from the human finger.

P304

1016-1025

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1113/EXPPHYSIOL.2010.054346

http://www.w3.org/2001/XMLSchema#string

P433

10

http://www.w3.org/2001/XMLSchema#string

P478

95

http://www.w3.org/2001/XMLSchema#string

P50

P577

2010-07-21T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

45365625

http://www.w3.org/2001/XMLSchema#string

P698

20660020

http://www.w3.org/2001/XMLSchema#string