二氧化碳的中枢呼吸效应,以及颈动脉窦神经和肌肉传入神经
Central respiratory effects of carbon dioxide, and carotid sinus nerve and muscle afferents.
作者信息
Eldridge F L, Gill-Kumar P
出版信息
J Physiol. 1980 Mar;300:75-87. doi: 10.1113/jphysiol.1980.sp013152.
Abstract
- In anaesthetized and paralysed cats, artificially ventilated and with the vagi and carotid sinus nerves cut, the effects of (a) changing end-tidal CO2, (b) stimulation of carotid sinus nerves, and (c) squeezing the calf muscles, on neural respiratory output have been studied. 2. The peak value of integrated phrenic activity, which is the neural equivalent of tidal volume (VTn), the rate of rise of integrated phrenic activity (Slope), inspiratory duration (TI), expiratory duration (TE), and total cycle length (Ttot) were measured. It was found that Slope-VTn, VTn-Ttot and VTn-TE relationships were similar whether respiration was stimulated by carotid sinus nerve stimulation or by increasing end-tidal CO2. However, when respiration was stimulated by squeezing the calf muscles, a given Slope was associated with a smaller VTn and a given VTn was associated with smaller Ttot and TE values than obtained with the other two inputs. 3. It is concluded that these results are compatible with the hypotheses that (1) inputs from central and peripheral chemoreceptors have similar actions at various sites in the respiratory centre complex, and (2) afferents activated by squeezing the limb muscles have additional facilitatory actions on mechanisms terminating inspiration and expiration.
摘要
- 在麻醉并麻痹的猫身上,进行人工通气,切断迷走神经和颈动脉窦神经,研究了以下因素对神经呼吸输出的影响:(a) 改变呼气末二氧化碳分压;(b) 刺激颈动脉窦神经;(c) 挤压小腿肌肉。2. 测量了膈神经活动积分的峰值(其相当于潮气量的神经等效值,即VTn)、膈神经活动积分的上升速率(斜率)、吸气持续时间(TI)、呼气持续时间(TE)和总周期长度(Ttot)。结果发现,无论是通过刺激颈动脉窦神经还是增加呼气末二氧化碳分压来刺激呼吸,斜率-VTn、VTn-Ttot和VTn-TE之间的关系都是相似的。然而,当通过挤压小腿肌肉来刺激呼吸时,与其他两种输入相比,给定的斜率对应较小的VTn,给定的VTn对应较小的Ttot和TE值。3. 得出的结论是,这些结果与以下假设相符:(1) 来自中枢和外周化学感受器的输入在呼吸中枢复合体的各个部位具有相似的作用;(2) 挤压肢体肌肉激活的传入神经对终止吸气和呼气的机制具有额外的促进作用。
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