Perception of effort during exercise is independent of afferent feedback from skeletal muscles, heart, and lungs.
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On the Origin of InteroceptionThe Central Governor Model of Exercise Regulation Teaches Us Precious Little about the Nature of Mental Fatigue and Self-Control FailureUpdate in the understanding of altitude-induced limitations to performance in team-sport athletesFatigue Induced by Physical and Mental Exertion Increases Perception of Effort and Impairs Subsequent Endurance PerformanceIs it time to turn our attention toward central mechanisms for post-exertional recovery strategies and performance?Are There Critical Fatigue Thresholds? Aggregated vs. Individual Data.High-intensity interval training, solutions to the programming puzzle: Part I: cardiopulmonary emphasis.Group III and IV muscle afferents contribute to ventilatory and cardiovascular response to rhythmic exercise in humans.Frowning and jaw clenching muscle activity reflects the perception of effort during incremental workload cyclingNon-conscious visual cues related to affect and action alter perception of effort and endurance performanceMental fatigue impairs physical performance in humans.Mental fatigue induced by prolonged self-regulation does not exacerbate central fatigue during subsequent whole-body endurance exercise.How the brain decides when to work and when to rest: dissociation of implicit-reactive from explicit-predictive computational processes.Can Pacing Be Regulated by Post-Activation Potentiation? Insights from a Self-Paced 30 km Trial in Half-Marathon Runners.Rate dependent influence of arterial desaturation on self-selected exercise intensity during cycling.Peripheral fatigue limits endurance exercise via a sensory feedback-mediated reduction in spinal motoneuronal output.Superior Inhibitory Control and Resistance to Mental Fatigue in Professional Road Cyclists.Effects of caffeine on neuromuscular fatigue and performance during high-intensity cycling exercise in moderate hypoxia.The relevance of central command for the neural cardiovascular control of exercise.Can neuromuscular fatigue explain running strategies and performance in ultra-marathons?: the flush model.Role of Ratings of Perceived Exertion during Self-Paced Exercise: What are We Actually Measuring?The role of sense of effort on self-selected cycling power output.Perception of effort in Exercise Science: Definition, measurement and perspectives.The Effects of Mental Fatigue on Physical Performance: A Systematic Review.The Manipulation of Pace within Endurance Sport.Lower-volume muscle-damaging exercise protects against high-volume muscle-damaging exercise and the detrimental effects on endurance performance.The effects of elevated pain inhibition on endurance exercise performance.Fatigue is a pain-the use of novel neurophysiological techniques to understand the fatigue-pain relationship.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.That Escalated Quickly-Planning to Ignore RPE Can BackfireDevelopment and Validity of the Rating-of-Fatigue Scale.Influence of exercise duration on cardiorespiratory responses, energy cost and tissue oxygenation within a 6 hour treadmill run.Mechanisms of dyspnea in healthy subjects.Perception of effort: it is what we think we know that keeps us from learning.Six weeks of aerobic training improves VO2max and MLSS but does not improve the time to fatigue at the MLSS.Session-RPE Method for Training Load Monitoring: Validity, Ecological Usefulness, and Influencing Factors.Ability to predict repetitions to momentary failure is not perfectly accurate, though improves with resistance training experience.The Relationships Between Internal and External Measures of Training Load and Intensity in Team Sports: A Meta-Analysis.The effects of mental fatigue on cricket-relevant performance among elite players.Respiratory Frequency during Exercise: The Neglected Physiological Measure.
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Perception of effort during exercise is independent of afferent feedback from skeletal muscles, heart, and lungs.
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on 15 May 2008
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vedecký článok
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vetenskaplig artikel
@sv
videnskabelig artikel
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vědecký článek
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name
Perception of effort during ex ...... tal muscles, heart, and lungs.
@en
Perception of effort during ex ...... tal muscles, heart, and lungs.
@nl
type
label
Perception of effort during ex ...... tal muscles, heart, and lungs.
@en
Perception of effort during ex ...... tal muscles, heart, and lungs.
@nl
prefLabel
Perception of effort during ex ...... tal muscles, heart, and lungs.
@en
Perception of effort during ex ...... tal muscles, heart, and lungs.
@nl
P2860
P1476
Perception of effort during ex ...... etal muscles, heart, and lungs
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P2093
Samuele Marcora
P2860
P304
P356
10.1152/JAPPLPHYSIOL.90378.2008
P407
P577
2008-05-15T00:00:00Z