人类自主咳嗽和反射性咳嗽的运动激活差异。
Differences in motor activation of voluntary and reflex cough in humans.
作者信息
Lasserson D, Mills K, Arunachalam R, Polkey M, Moxham J, Kalra L
机构信息
Department of Stroke Medicine, King's College London School of Medicine, Denmark Hill Campus, Bessemer Road, London SE5 9PJ, UK.
出版信息
Thorax. 2006 Aug;61(8):699-705. doi: 10.1136/thx.2005.057901. Epub 2006 Apr 6.
OBJECTIVES
To study motor activation patterns of voluntary and reflex cough adjusted for cough flow rates.
METHODS
Surface electromyography (EMG) and cough flow rate were measured in 10 healthy volunteers. Voluntary cough was assessed for 20 efforts in each quintile of increasing cough flow rate. Reflex cough was assessed for 25 efforts produced by nebulised l-tartaric acid. EMG was recorded over the expiratory (rectus abdominis, obliques, lower intercostals) and accessory (trapezius, pectoralis major, deltoid, latissimus dorsi) muscles. EMG activity, burst duration and onset were compared for each quintile of voluntary cough, and between voluntary and reflex cough matched for cough flow rate.
RESULTS
EMG activity and burst duration of expiratory and accessory muscles during voluntary cough increased in proportion to cough flow. Expiratory muscles had longer EMG burst duration (difference 68 ms (95% CI 34 to 102), p<0.01) and earlier onset of EMG activity (difference 44 ms (95% CI 20 to 68), p<0.0001) compared with accessory muscles. EMG activity in all muscles was increased (mean 110.2% v 56.1%, p<0.001) and burst duration (mean 206 ms v 280 ms, p = 0.013) decreased in reflex cough compared with voluntary cough of equal flow rate. There were no differences in EMG onset (difference 8 ms (95% CI 25 to -9) or burst duration (difference 27 ms (95% CI 58 to -4) between expiratory and accessory muscles.
CONCLUSIONS
Functional organisation of motor activity differs between voluntary and reflex cough. Voluntary cough is characterised by sequential activation whereas reflex cough is associated with early and simultaneous activation of expiratory and accessory muscles.
目的
研究根据咳嗽流速调整后的自主咳嗽和反射性咳嗽的运动激活模式。
方法
对10名健康志愿者进行表面肌电图(EMG)和咳嗽流速测量。在咳嗽流速增加的每个五分位数中,对自主咳嗽进行20次测试。通过雾化左旋酒石酸产生25次测试来评估反射性咳嗽。在呼气肌(腹直肌、腹斜肌、下肋间肌)和辅助肌(斜方肌、胸大肌、三角肌、背阔肌)上记录EMG。比较自主咳嗽每个五分位数的EMG活动、爆发持续时间和起始时间,以及匹配咳嗽流速的自主咳嗽和反射性咳嗽之间的上述指标。
结果
自主咳嗽期间呼气肌和辅助肌的EMG活动和爆发持续时间与咳嗽流速成比例增加。与辅助肌相比,呼气肌的EMG爆发持续时间更长(差异68毫秒(95%可信区间34至102),p<0.01),EMG活动起始更早(差异44毫秒(95%可信区间20至68),p<0.0001)。与同等流速的自主咳嗽相比,反射性咳嗽时所有肌肉的EMG活动增加(平均110.2%对56.1%,p<0.001),爆发持续时间缩短(平均206毫秒对280毫秒,p = 0.013)。呼气肌和辅助肌之间的EMG起始时间(差异8毫秒(95%可信区间25至 -9))或爆发持续时间(差异27毫秒(95%可信区间58至 -4))没有差异。
结论
自主咳嗽和反射性咳嗽的运动活动功能组织不同。自主咳嗽的特征是顺序激活,而反射性咳嗽与呼气肌和辅助肌的早期同时激活有关。
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