气道感受器在人类吸气肌对气道阻塞的反射反应中的作用。
Role of airway receptors in the reflex responses of human inspiratory muscles to airway occlusion.
作者信息
Butler J E, McKenzie D K, Crawford M R, Gandevia S C
机构信息
Prince of Wales Medical Research Institute, Prince of Wales Hospital, University of New South Wales, Sydney, Australia.
出版信息
J Physiol. 1995 Aug 15;487(1):273-81. doi: 10.1113/jphysiol.1995.sp020878.
Abstract
- This study was designed to investigate the role of airway receptors in the responses of a range of inspiratory muscles to airway occlusion. The occlusion had a rapid onset (< 10 ms), lasted 250 ms and produced only a slight impediment to inspiration. 2. Based on analysis of single trials and averaged rectified electromyographic responses (EMG) in six subjects, there was a major inhibition (IR) with an onset at 34 +/- 2 ms and a trough at 65 +/- 2 ms, and an excitation (ER) with a peak at 105 +/- 2 ms. These two responses are reflex given that voluntary reaction times to a tap on the chest wall occurred at latencies longer than the peak of ER. 3. The responses to airway occlusion did not appear in limb muscles which contracted phasically with inspiration. 4. Anaesthesia of the surface receptors of the upper airway did not attenuate the responses to occlusion. Because this procedure does not eliminate the inputs from muscle and deep laryngeal pressure receptors, two subjects were tested when intubated with a cuffed endotracheal tube so that the occlusion was delivered only to structures below the level of the trachea. Responses to airway occlusion were preserved when all upper airway receptors were 'bypassed'. 5. Responses to airway occlusion also remained after prolonged inhalation of nebulized lidocaine (lignocaine) sufficient to block the cough reflex. 6. The receptors mediating the responses to airway occlusion are therefore likely to reside in inspiratory muscles acting on the chest wall. If so, the short-latency inhibition contrasts with the excitatory stretch reflex responses observed in limb muscles.
摘要
- 本研究旨在探讨气道感受器在一系列吸气肌对气道阻塞反应中的作用。该阻塞起效迅速(<10毫秒),持续250毫秒,且仅对吸气产生轻微阻碍。2. 根据对6名受试者单次试验和平均整流肌电图反应(EMG)的分析,存在一种主要抑制(IR),其起始时间为34±2毫秒,波谷时间为65±2毫秒,以及一种兴奋(ER),其峰值时间为105±2毫秒。鉴于对胸壁轻拍的自主反应时间发生在比ER峰值更长的潜伏期,这两种反应是反射性的。3. 对气道阻塞的反应未出现在与吸气同步收缩的肢体肌肉中。4. 对上呼吸道表面感受器进行麻醉并未减弱对阻塞的反应。由于该操作并未消除来自肌肉和深部喉压感受器的输入,因此对两名受试者进行了测试,他们在插入带气囊的气管内导管后,阻塞仅施加于气管水平以下的结构。当所有上呼吸道感受器被“绕过”时,对气道阻塞的反应得以保留。5. 在长时间吸入足以阻断咳嗽反射的雾化利多卡因(赛罗卡因)后,对气道阻塞的反应仍然存在。6. 因此,介导对气道阻塞反应的感受器可能存在于作用于胸壁的吸气肌中。如果是这样,这种短潜伏期抑制与在肢体肌肉中观察到的兴奋性牵张反射反应形成对比。
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