Motor unit involvement of diaphragm and intercostal muscles in eupneatachypnea and bradypnea of young female sedentary adults

Progress in Health Sciences Pub Date : 2023-06-01 DOI:10.5604/01.3001.0053.7428

P. Saha, R Pathak, P Chatterjee, A. Bandyopadhyay

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Abstract

Purpose: The involvement of motor units duringtheir activities in primary and secondary musclesrapidly becomes prominent as a diagnostic tool forpathological conditions. But no research has beenpublished so far indicating the involvement of motorunits during physiological circumstances likeEupnea, Bradypnea, and Tachypnea. These findingswould help to determine the neuromuscularmechanism of respiratory mechanics inphysiological situations and to compare it withclinical conditions related to respiratory muscles.Aim of the study: The experimental findings wouldhelp to determine the neuromuscular mechanism ofrespiratory mechanics in physiological situationsand to compare it with clinical conditions related torespiratory muscles.Materials and methods: Thirty healthy sedentaryadult females participated in this investigation. TheTachypnea and Bradypnea were deliberatelyachieved by asking them to hyperventilate withshallow breaths and to hold their breath for a periodin a supine posture accordingly. The participation ofmotor units and force generated in the diaphragmand intercostal muscles were assessed by surfaceelectromyography (sEMG).Results: The motor unit activities for three varioussituations such as silent breathing reduced breathing,and fast breathing rates significantly vary with eachother in both the primary respiratory muscles(p<0.05). But there was insignificant variation inmotor unit discharges between Eupnea andbradypnea of both muscles.Conclusions: In supine posture during Tachypnea,the quick and enhanced expansion of the thoraciccavity requires more motor unit activation in thediaphragm and intercostal muscle thus suggestinghigher involvement. In Eupnea and Bradypneavirtually equal participation of both muscles wasdiscovered. The modest increase in intercostal motorunit discharge in bradypnea than Eupnea might beowing to the larger extension of the intercostalmuscle during bradypnea than the diaphragm does.

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运动单元累及膈肌和肋间肌在年轻女性久坐成人呼吸急促和呼吸迟缓中的作用

目的:运动单元在原发性和继发性肌肉活动期间的参与迅速成为病理条件的诊断工具。但是到目前为止，还没有发表的研究表明运动单元在呼吸急促、呼吸缓慢和呼吸急促等生理情况下的作用。这些发现将有助于确定生理情况下呼吸力学的神经肌肉机制，并将其与与呼吸肌相关的临床情况进行比较。研究目的:实验结果有助于确定呼吸力学在生理情况下的神经肌肉机制，并将其与呼吸肌肉相关的临床情况进行比较。材料与方法:30名健康久坐的成年女性参与本研究。呼吸急促和呼吸缓慢是通过要求他们以浅呼吸过度呼吸，并相应地以仰卧姿势屏住呼吸一段时间来实现的。通过表面肌电图(sEMG)评估膈肌和肋间肌中运动单元的参与和产生的力。结果:静息呼吸、呼吸减少和快速呼吸三种不同情况下，两种初级呼吸肌的运动单元活动量差异均有统计学意义(p < 0.05)。但两组肌肉的运动单位放电差异不显著。结论:在仰卧位呼吸急促时，胸腔快速和增强的扩张需要更多的膈肌和肋间肌运动单元的激活，从而提示更高的受累程度。在呼吸急促和呼吸缓慢中，两种肌肉的参与几乎相等。呼吸缓慢时肋间运动单元放电的适度增加可能是由于呼吸缓慢时肋间肌的伸展比横膈膜的伸展更大。

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Progress in Health Sciences

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