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哺乳动物中运动-呼吸协调的神经机制。

Neurogenic mechanisms for locomotor-respiratory coordination in mammals.

作者信息

Juvin Laurent, Colnot Eloïse, Barrière Grégory, Thoby-Brisson Muriel, Morin Didier

机构信息

University of Bordeaux, Centre National de la Recherche Scientifique, Institut de Neurosciences Cognitives et Intégratives d'Aquitaine, Unité Mixte de Recherche 5287, Bordeaux, France.

Department of Health, Safety & Environment, Bordeaux Institute of Technology, Bordeaux, France.

出版信息

Front Neuroanat. 2022 Jul 28;16:953746. doi: 10.3389/fnana.2022.953746. eCollection 2022.

Abstract

Central motor rhythm-generating networks controlling different functions are generally considered to operate mostly independently from one another, each controlling the specific behavioral task to which it is assigned. However, under certain physiological circumstances, central pattern generators (CPGs) can exhibit strong uni- or bidirectional interactions that render them closely inter-dependent. One of the best illustrations of such an inter-CPG interaction is the functional relationship that may occur between rhythmic locomotor and respiratory functions. It is well known that in vertebrates, lung ventilatory rates accelerate at the onset of physical exercise in order to satisfy the accompanying rapid increase in metabolism. Part of this acceleration is sustained by a coupling between locomotion and ventilation, which most often results in a periodic drive of the respiratory cycle by the locomotor rhythm. In terrestrial vertebrates, the likely physiological significance of this coordination is that it serves to reduce the mechanical interference between the two motor systems, thereby producing an energetic benefit and ultimately, enabling sustained aerobic activity. Several decades of studies have shown that locomotor-respiratory coupling is present in most species, independent of the mode of locomotion employed. The present article aims to review and discuss mechanisms engaged in shaping locomotor-respiratory coupling (LRC), with an emphasis on the role of sensory feedback inputs, the direct influences between CPG networks themselves, and finally on spinal cellular candidates that are potentially involved in the coupling of these two vital motor functions.

摘要

控制不同功能的中枢运动节律生成网络通常被认为彼此之间大多独立运作,各自控制分配给它的特定行为任务。然而,在某些生理情况下,中枢模式发生器(CPG)可表现出强烈的单向或双向相互作用,使它们紧密相互依赖。这种CPG间相互作用的最佳例证之一是节律性运动和呼吸功能之间可能出现的功能关系。众所周知,在脊椎动物中,体育锻炼开始时肺通气率会加快,以满足随之而来的新陈代谢快速增加。这种加速的一部分是由运动和通气之间的耦合维持的,这最常导致呼吸周期由运动节律进行周期性驱动。在陆生脊椎动物中,这种协调的可能生理意义在于它有助于减少两个运动系统之间的机械干扰,从而产生能量效益,并最终实现持续的有氧活动。几十年的研究表明,运动-呼吸耦合存在于大多数物种中,与所采用的运动方式无关。本文旨在回顾和讨论塑造运动-呼吸耦合(LRC)的机制,重点是感觉反馈输入的作用、CPG网络本身之间的直接影响,以及最终可能参与这两种重要运动功能耦合的脊髓细胞候选者。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/abda/9365938/237f5042c871/fnana-16-953746-g0001.jpg

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