Sensorimotor circuitry involved in the higher brain control of coughing.

Stuart B Mazzone, Alice E McGovern, Seung-Kwon Yang, Ariel Woo, Simon Phipps, Ayaka Ando, Jennifer Leech, Michael J Farrell
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引用次数: 67

Abstract

There is an overwhelming body of evidence to support the existence of higher brain circuitries involved in the sensory detection of airways irritation and the motor control of coughing. The concept that cough is purely a reflex response to airways irritation is now superseded by the recognition that perception of an urge-to-cough and altered behavioral modification of coughing are key elements of cough disorders associated with airways disease. Understanding the pathways by which airway sensory nerves ascend into the brain and the patterns of neural activation associated with airways irritation will undoubtedly provide new insights into disordered coughing. This brief review aims to explore our current understanding of higher order cough networks by summarizing data from recent neuroanatomical and functional studies in animals and humans. We provide evidence for the existence of distinct higher order network components involved in the discrimination of signals arising from the airways and the motor control of coughing. The identification of these network components provides a blueprint for future research and the development of targeted managements for cough and the urge-to-cough.

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感觉运动回路与咳嗽的高级大脑控制有关。
有大量的证据表明,大脑中存在高级回路,参与气道刺激的感觉检测和咳嗽的运动控制。咳嗽纯粹是对气道刺激的反射反应的概念现在被这样一种认识所取代,即咳嗽冲动的感知和咳嗽行为的改变是与气道疾病相关的咳嗽障碍的关键因素。了解气道感觉神经进入大脑的途径,以及与气道刺激相关的神经激活模式,无疑将为无序咳嗽提供新的见解。这篇简短的综述旨在通过总结最近动物和人类神经解剖学和功能研究的数据来探讨我们目前对高阶咳嗽网络的理解。我们提供的证据表明,存在明显的高阶网络组成部分,涉及从气道产生的信号的辨别和咳嗽的运动控制。这些网络组成部分的识别为未来的研究和针对咳嗽和咳嗽急症的针对性管理的发展提供了蓝图。
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