The ‘sensory tolerance limit’: A hypothetical construct determining exercise performance?

IF 2.4 3区医学 Q2 SPORT SCIENCES

European Journal of Sport Science Pub Date : 2018-01-02 DOI:10.1080/17461391.2016.1252428

T. Hureau, L. Romer, M. Amann

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引用次数: 150

Abstract

Abstract Neuromuscular fatigue compromises exercise performance and is determined by central and peripheral mechanisms. Interactions between the two components of fatigue can occur via neural pathways, including feedback and feedforward processes. This brief review discusses the influence of feedback and feedforward mechanisms on exercise limitation. In terms of feedback mechanisms, particular attention is given to group III/IV sensory neurons which link limb muscle with the central nervous system. Central corollary discharge, a copy of the neural drive from the brain to the working muscles, provides a signal from the motor system to sensory systems and is considered a feedforward mechanism that might influence fatigue and consequently exercise performance. We highlight findings from studies supporting the existence of a ‘critical threshold of peripheral fatigue’, a previously proposed hypothesis based on the idea that a negative feedback loop operates to protect the exercising limb muscle from severe threats to homeostasis during whole-body exercise. While the threshold theory remains to be disproven within a given task, it is not generalisable across different exercise modalities. The ‘sensory tolerance limit’, a more theoretical concept, may address this issue and explain exercise tolerance in more global terms and across exercise modalities. The ‘sensory tolerance limit’ can be viewed as a negative feedback loop which accounts for the sum of all feedback (locomotor muscles, respiratory muscles, organs, and muscles not directly involved in exercise) and feedforward signals processed within the central nervous system with the purpose of regulating the intensity of exercise to ensure that voluntary activity remains tolerable.

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“感觉耐受极限”:一个决定运动表现的假设性构想?

神经肌肉疲劳影响运动表现，由中枢和外周机制决定。疲劳的两个组成部分之间的相互作用可以通过神经通路发生，包括反馈和前馈过程。本文简要讨论了反馈和前馈机制对运动限制的影响。在反馈机制方面，特别关注的是连接肢体肌肉和中枢神经系统的III/IV组感觉神经元。中枢必然放电是神经驱动从大脑到工作肌肉的复制，从运动系统向感觉系统提供信号，被认为是一种前馈机制，可能影响疲劳，从而影响运动表现。我们强调了支持“外周疲劳临界阈值”存在的研究结果，这是一个先前提出的假设，该假设基于负反馈回路的运作，以保护运动的肢体肌肉免受全身运动过程中对体内平衡的严重威胁。虽然阈值理论在给定的任务中仍有待证明，但它不能推广到不同的运动模式。“感觉耐受性极限”是一个更理论化的概念，可以解决这个问题，并从更全面的角度和跨运动模式解释运动耐受性。“感觉耐受极限”可以看作是一个负反馈回路，它包括所有反馈(运动肌、呼吸肌、器官和不直接参与运动的肌肉)和中枢神经系统处理的前馈信号的总和，其目的是调节运动强度，以确保自愿活动保持可耐受。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

European Journal of Sport Science 医学-运动科学

CiteScore

6.60

自引率

3.10%

发文量

153

审稿时长

6-12 weeks

期刊介绍： The European Journal of Sport Science (EJSS) is the official Medline- and Thomson Reuters-listed journal of the European College of Sport Science. The editorial policy of the Journal pursues the multi-disciplinary aims of the College: to promote the highest standards of scientific study and scholarship in respect of the following fields: (a) Applied Sport Sciences; (b) Biomechanics and Motor Control; c) Physiology and Nutrition; (d) Psychology, Social Sciences and Humanities and (e) Sports and Exercise Medicine and Health.