Dehydration affects cerebral blood flow but not its metabolic rate for oxygen during maximal exercise in trained humans.
about
Heat stress, gastrointestinal permeability and interleukin-6 signaling - Implications for exercise performance and fatigueConsensus recommendations on training and competing in the heatIs it time to turn our attention toward central mechanisms for post-exertional recovery strategies and performance?Cerebral hemodynamics during graded Valsalva maneuversConsensus Recommendations on Training and Competing in the Heat.The effect of dehydration on muscle metabolism and time trial performance during prolonged cycling in males.Thermal and Cardiovascular Strain Mitigate the Potential Benefit of Carbohydrate Mouth Rinse During Self-Paced Exercise in the HeatDehydration accelerates reductions in cerebral blood flow during prolonged exercise in the heat without compromising brain metabolism.Hypohydration and Human Performance: Impact of Environment and Physiological Mechanisms.Role of CO2 in the cerebral hyperemic response to incremental normoxic and hyperoxic exercise.Thermoregulatory responses in exercising rats: methodological aspects and relevance to human physiology.Blood temperature and perfusion to exercising and non-exercising human limbs.Whole body hyperthermia, but not skin hyperthermia, accelerates brain and locomotor limb circulatory strain and impairs exercise capacity in humans.Cerebral Vascular Control and Metabolism in Heat Stress.Cerebrocortical activity during self-paced exercise in temperate, hot and hypoxic conditions.Hypohydration impairs endurance performance: a blinded study.Cross-Adaptation: Heat and Cold Adaptation to Improve Physiological and Cellular Responses to Hypoxia.Voluntary suppression of hyperthermia-induced hyperventilation mitigates the reduction in cerebral blood flow velocity during exercise in the heat.Neural basis of exertional fatigue in the heat: A review of magnetic resonance imaging methods.Effect of hypocapnia on the sensitivity of hyperthermic hyperventilation and the cerebrovascular response in resting heated humans.Anterior cerebral blood velocity and end-tidal CO2 responses to exercise differ in children and adults.Regulation of cerebral blood flow and metabolism during exercise.Restoring heat stress-associated reduction in middle cerebral artery velocity does not reduce fatigue in the heat.Influence of high altitude on cerebral blood flow and fuel utilization during exercise and recovery.On the limits of cerebral oxygen extraction.The impact of age on cerebral perfusion, oxygenation and metabolism during exercise in humans.Sports and environmental temperature: From warming-up to heating-up.Matched increases in cerebral artery shear stress, irrespective of stimulus, induce similar changes in extra-cranial arterial diameter in humans.Heat stress exacerbates the reduction in middle cerebral artery blood velocity during prolonged self-paced exercise.Consensus recommendations on training and competing in the heat
P2860
Q28077718-F3001BA9-6B11-42E1-9DB1-7BE5342C7B24Q28081019-CDE0BE14-1D5D-4AF6-A526-0EF826C654CDQ28260126-3A6115EE-7CE0-4161-AEFD-5CF4A49437C3Q33164854-84C197CC-4F43-486A-BF6D-585B272183B1Q35757880-0C229FA7-D57B-44D4-896C-2E710D77CC50Q36036435-B8AE502A-19A0-45B5-BFE7-2F9DFD6A9F0AQ36316762-A74C44E0-A562-452A-AC85-3EDB6BF10B83Q36348486-2236544B-740B-49C5-84EC-2456CD95B141Q36352766-530B92B4-8CA7-4C19-8B66-517C6E0C529CQ36810670-D528E594-38DB-41BA-AA18-BDF40301288CQ36833033-049EF036-5EB3-4BC5-8944-A851E8CCAB28Q37308947-E33D58DA-9963-4EE9-96F4-4978C9B0FF36Q37609051-59CCCDBB-22CC-4AD1-88DC-FEA420EC4185Q38542457-2DBAB779-C52D-4BA1-B50D-9CE39D1450F1Q38689701-F017EE18-1B47-417E-820D-439AAA0D8CABQ38715091-E059AEF8-948C-4770-A1DA-9462DAD66BCBQ38733278-A030AC95-24A1-4621-BDA3-076FBE0E50FFQ39680509-0DD04EC3-815D-463D-9EBC-158108CBEBE0Q47349981-9822144D-5375-4C4B-9EE2-96D8C37A8B5DQ47756036-B6DBCCB8-A89D-4D1A-B130-08D20544E280Q47925408-731EB047-C9CE-4AD0-B06F-86A7D67171A7Q48162488-5324CDBF-C660-49CC-A523-C58CB172D656Q48192454-67C6A97C-1012-4BF6-83D3-F96E51B63A9CQ48468855-ED7EB954-85E7-4BC5-B9BF-6BC6CB1C220EQ48657933-65480452-099A-4290-9728-4986992DB420Q48729521-8502FD7A-EC33-4317-8E16-E946C73D32CDQ49862970-94A630F1-94B6-413E-8E7E-E6AD1B7E0DE6Q50072325-3780B4E9-E532-41DC-B5BC-15DA83640535Q53516709-A611DEBA-C580-45A8-9067-0EEE8B7EEEB1Q58026334-FEF2E254-64F3-4FEC-AFE2-CE5E7A98419E
P2860
Dehydration affects cerebral blood flow but not its metabolic rate for oxygen during maximal exercise in trained humans.
description
2014 nî lūn-bûn
@nan
2014年の論文
@ja
2014年学术文章
@wuu
2014年学术文章
@zh-cn
2014年学术文章
@zh-hans
2014年学术文章
@zh-my
2014年学术文章
@zh-sg
2014年學術文章
@yue
2014年學術文章
@zh
2014年學術文章
@zh-hant
name
Dehydration affects cerebral b ...... al exercise in trained humans.
@en
Dehydration affects cerebral b ...... al exercise in trained humans.
@nl
type
label
Dehydration affects cerebral b ...... al exercise in trained humans.
@en
Dehydration affects cerebral b ...... al exercise in trained humans.
@nl
prefLabel
Dehydration affects cerebral b ...... al exercise in trained humans.
@en
Dehydration affects cerebral b ...... al exercise in trained humans.
@nl
P2093
P2860
P1476
Dehydration affects cerebral b ...... mal exercise in trained humans
@en
P2093
Christopher G Stock
José González-Alonso
Kameljit K Kalsi
Niels H Secher
P2860
P304
P356
10.1113/JPHYSIOL.2014.272104
P407
P577
2014-05-16T00:00:00Z