about
From catastrophe to complexity: a novel model of integrative central neural regulation of effort and fatigue during exercise in humans: summary and conclusionsAre There Critical Fatigue Thresholds? Aggregated vs. Individual Data.Relationship between resting ventilatory chemosensitivity and maximal oxygen uptake in moderate hypobaric hypoxia.Effects of sleep deprivation on cognitive and physical performance in university students.Effect of acute hypoxia on respiratory muscle fatigue in healthy humans.Interactive processes link the multiple symptoms of fatigue in sport competition.Organ-specific physiological responses to acute physical exercise and long-term training in humans.Short- and long-term modulation of the exercise ventilatory response.Mental fatigue impairs physical performance in humans.Rate dependent influence of arterial desaturation on self-selected exercise intensity during cycling.Thermal and Cardiovascular Strain Mitigate the Potential Benefit of Carbohydrate Mouth Rinse During Self-Paced Exercise in the HeatHyperthermia and voluntary exhaustion: integrating models and future challenges.Control and sensation of breathing during cycling exercise in hypoxia under naloxone: a randomised controlled crossover trial.Increases in Brain 1H-MR Glutamine and Glutamate Signals Following Acute Exhaustive Endurance Exercise in the RatCan neuromuscular fatigue explain running strategies and performance in ultra-marathons?: the flush model.Dehydration: physiology, assessment, and performance effects.Unlocking the Energy Dynamics of Executive Functioning: Linking Executive Functioning to Brain Glycogen.Integrative Conductance of Oxygen During Exercise at Altitude.Multiple Models Can Concurrently Explain Fatigue During Human Performance.Effect of hot versus cold climates on power output, muscle activation, and perceived fatigue during a dynamic 100-km cycling trial.Effect of Expiratory Muscle Fatigue on the Respiratory Response during Exercise.Task Failure during Exercise to Exhaustion in Normoxia and Hypoxia Is Due to Reduced Muscle Activation Caused by Central Mechanisms While Muscle Metaboreflex Does Not Limit Performance.Movement-Related Cortical Potential Amplitude Reduction after Cycling Exercise Relates to the Extent of Neuromuscular FatigueRegulating PPARδ signaling as a potential therapeutic strategy for skeletal muscle disorders in heart failure.Dexamethasone but not tadalafil improves exercise capacity in adults prone to high-altitude pulmonary edema.Changes in Muscle and Cerebral Deoxygenation and Perfusion during Repeated Sprints in Hypoxia to Exhaustion.The rate of heat storage mediates an anticipatory reduction in exercise intensity during cycling at a fixed rating of perceived exertion.The effect of sweetness on the efficacy of carbohydrate supplementation during exercise in the heat.The dose-dependent antioxidant effects of physical exercise in the hippocampus of mice.During hypoxic exercise some vasoconstriction is needed to match O2 delivery with O2 demand at the microcirculatory level.Deep Ocean Mineral Supplementation Enhances the Cerebral Hemodynamic Response during Exercise and Decreases Inflammation Postexercise in Men at Two Age Levels.Low-carbohydrate diet induces metabolic depression: a possible mechanism to conserve glycogen.Danes with brains.Effects of acute hypoxia on cerebral and muscle oxygenation during incremental exercise.Predominance of central motor command in the regulation of exercise.Severity of arterial hypoxaemia affects the relative contributions of peripheral muscle fatigue to exercise performance in healthy humans.Alterations in cerebral autoregulation and cerebral blood flow velocity during acute hypoxia: rest and exercise.What limits [V(·)]O(2max)? A symposium held at the BASES Conference, 6 September 2010.Go rinse your mouth: a novel way to improve endurance performance?Effect of exercise on cerebral perfusion in humans at high altitude.
P2860
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P2860
description
2003 nî lūn-bûn
@nan
2003 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Exercise starts and ends in the brain.
@ast
Exercise starts and ends in the brain.
@en
type
label
Exercise starts and ends in the brain.
@ast
Exercise starts and ends in the brain.
@en
prefLabel
Exercise starts and ends in the brain.
@ast
Exercise starts and ends in the brain.
@en
P1476
Exercise starts and ends in the brain
@en
P2093
Bengt Kayser
P2888
P304
P356
10.1007/S00421-003-0902-7
P50
P577
2003-07-19T00:00:00Z