犬吸气时迷走神经对压力感受器和化学感受器刺激反应的抑制作用。
Inspiratory inhibition of vagal responses to baroreceptor and chemoreceptor stimuli in the dog.
作者信息
Potter E K
出版信息
J Physiol. 1981 Jul;316:177-90. doi: 10.1113/jphysiol.1981.sp013781.
Abstract
- Single and few-fibre cardiac efferent filaments were dissected from the cervical vagus nerve of dogs anaesthetized with chloralose and paralysed with pancuronium. 2. Brief selective baroreceptor or chemoreceptor stimuli, given during the expiratory phase of the central respiratory cycle and while the lungs were motionless, evoked trains of action potentials in cardiac vagal efferent fibres. These vagal responses outlasted the duration of the stimuli by 1-3 s. 3. Brief selective baroreceptor or chemoreceptor stimuli given during the inspiratory phase of the central respiratory cycle (monitored as phrenic discharge) but while the lungs were motionless, failed to evoke reflex increases in discharge. Background vagal discharge was also inhibited during central inspiratory activity. 4. Brief baroreceptor or chemoreceptor stimuli given during lung inflation but in the expiratory phase of the central respiratory cycle (phrenic silence), also failed to evoke any reflex increase in discharge, but left resting vagal tone relatively unaffected. Only when vagal tone was high was it markedly inhibited by lung inflation, in the absence of central inspiratory activity. 5. A point of contrast between the inhibitory effects of lung inflation and of central inspiratory activity is that both tonic and reflexly evoked vagal discharge are inhibited during central inspiratory activity, but lung inflation more markedly inhibits reflexly evoked vagal discharge than tonic vagal discharge. 6. A model is suggested to explain the different mechanisms of inhibition by lung inflation and by central inspiratory activity.
摘要
- 从用氯醛糖麻醉并用潘库溴铵麻痹的犬的颈迷走神经中分离出单根和少量纤维的心脏传出细丝。2. 在中枢呼吸周期的呼气期且肺部静止时给予短暂的选择性压力感受器或化学感受器刺激,可诱发心脏迷走神经传出纤维的动作电位序列。这些迷走神经反应比刺激持续时间长1 - 3秒。3. 在中枢呼吸周期的吸气期(以膈神经放电监测)但肺部静止时给予短暂的选择性压力感受器或化学感受器刺激,未能诱发放电的反射性增加。在中枢吸气活动期间,背景迷走神经放电也受到抑制。4. 在肺部充气期间但在中枢呼吸周期的呼气期(膈神经静息)给予短暂的压力感受器或化学感受器刺激,也未能诱发任何放电的反射性增加,但相对未影响静息迷走神经张力。只有当迷走神经张力较高时,在没有中枢吸气活动时才会被肺部充气明显抑制。5. 肺部充气和中枢吸气活动的抑制作用之间的一个对比点是,在中枢吸气活动期间,紧张性和反射性诱发的迷走神经放电均受到抑制,但肺部充气对反射性诱发的迷走神经放电的抑制比对紧张性迷走神经放电的抑制更明显。6. 提出了一个模型来解释肺部充气和中枢吸气活动的不同抑制机制。
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