Effect of muscle acidity on muscle metabolism and fatigue during intense exercise in man
about
Lactate metabolism: a new paradigm for the third millenniumFatigue Induced by Physical and Mental Exertion Increases Perception of Effort and Impairs Subsequent Endurance PerformanceLactate as a Metabolite and a Regulator in the Central Nervous SystemPhysiological and Health-Related Adaptations to Low-Volume Interval Training: Influences of Nutrition and SexThe influence of intracellular lactate and H+ on cell volume in amphibian skeletal muscle.Caffeine and Bicarbonate for Speed. A Meta-Analysis of Legal Supplements Potential for Improving Intense Endurance Exercise Performance.Pre-exercise arginine supplementation increases time to exhaustion in elite male wrestlersEffect of swimming intensity on subsequent cycling and overall triathlon performanceMetabolic limitations of performance and fatigue in football.Combined, but not individual, blockade of ASIC3, P2X, and EP4 receptors attenuates the exercise pressor reflex in rats with freely perfused hindlimb musclesComprehensive phenotyping of group III and IV muscle afferents in mouse.The effects of compression garments and electrostimulation on athletes' muscle soreness and recovery.Fatigue-enhanced hyperalgesia in response to muscle insult: induction and development occur in a sex-dependent manner.Limitations in intense exercise performance of athletes - effect of speed endurance training on ion handling and fatigue development.Lactate is a potent inhibitor of the capsaicin receptor TRPV1.Sodium bicarbonate intake improves high-intensity intermittent exercise performance in trained young men.Effect of Two Types of Active Recovery on Fatigue and Climbing Performance.Ergogenic effects of caffeine and sodium bicarbonate supplementation on intermittent exercise performance preceded by intense arm cranking exercise.ATP and heat production in human skeletal muscle during dynamic exercise: higher efficiency of anaerobic than aerobic ATP resynthesis.Effects of high-intensity intermittent training on potassium kinetics and performance in human skeletal muscle.Metabolic alkalosis reduces exercise-induced acidosis and potassium accumulation in human skeletal muscle interstitium.Dorsal root ganglion neurons innervating skeletal muscle respond to physiological combinations of protons, ATP, and lactate mediated by ASIC, P2X, and TRPV1.Alkalosis increases muscle K+ release, but lowers plasma [K+] and delays fatigue during dynamic forearm exercise.Limited oxygen diffusion accelerates fatigue development in mouse skeletal muscle.Effects of acidification and increased extracellular potassium on dynamic muscle contractions in isolated rat muscles.β2-adrenergic stimulation enhances Ca2+ release and contractile properties of skeletal muscles, and counteracts exercise-induced reductions in Na+-K+-ATPase Vmax in trained men.Locomotor muscle fatigue modifies central motor drive in healthy humans and imposes a limitation to exercise performance.
P2860
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P2860
Effect of muscle acidity on muscle metabolism and fatigue during intense exercise in man
description
article
@en
im September 1996 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована у вересні 1996
@uk
name
Effect of muscle acidity on muscle metabolism and fatigue during intense exercise in man
@en
Effect of muscle acidity on muscle metabolism and fatigue during intense exercise in man
@nl
type
label
Effect of muscle acidity on muscle metabolism and fatigue during intense exercise in man
@en
Effect of muscle acidity on muscle metabolism and fatigue during intense exercise in man
@nl
prefLabel
Effect of muscle acidity on muscle metabolism and fatigue during intense exercise in man
@en
Effect of muscle acidity on muscle metabolism and fatigue during intense exercise in man
@nl
P2093
P2860
P1476
Effect of muscle acidity on muscle metabolism and fatigue during intense exercise in man
@en
P2093
P2860
P304
P407
P478
495 ( Pt 2)
P577
1996-09-01T00:00:00Z