压力感受器和化学感受器反射的呼吸调节通过交感神经系统影响心率。
Respiratory modulation of baroreceptor and chemoreceptor reflexes affecting heart rate through the sympathetic nervous system.
作者信息
Davis A L, McCloskey D I, Potter E K
出版信息
J Physiol. 1977 Nov;272(3):691-703. doi: 10.1113/jphysiol.1977.sp012067.
Abstract
- Brief stimuli were delivered to the carotid body chemoreceptors or the carotid sinus baroreceptors at different phases of the respiratory cycle in anaesthetized dogs. Chemoreceptor stimulation was achieved by injecting small volumes (0.2-0.5 ml.) of warmed saline equilibrated with CO(2) near to the carotid bodies on both sides. Baroreceptor stimulation was achieved by injecting larger volumes (2-5 ml.) of saline equilibrated with air into the region of the carotid bifurcation on both sides, after first clamping the common carotid arteries.2. When the vagus nerves were intact, but sympathetic nervous effects on heart rate were blocked by administration of propranolol, there was a prompt and pronounced bradycardia evoked when either baroreceptor or chemoreceptor stimuli were given in expiration, but little or no change in heart rate when they were given in inspiration.3. When the vagus nerves were cut, but sympathetic nervous function was intact, respiratory modulation of both baroreceptor and chemoreceptor reflex effects on heart rate could still be demonstrated. The bradycardia evoked by either stimulus was more marked for stimuli given in expiration than for stimuli given in inspiration. A complementary response pattern for brief decreases in baroreceptor stimulation (carotid occlusions) was demonstrated: the tachycardia evoked by occlusions timed during inspiration was greater than that evoked by occlusions timed during expiration. All the reflex effects were mediated by the sympathetic system because they were abolished by administration of propranolol.4. Typically, the sympathetic reflex effects were slight in comparison with the vagal reflexes evoked by either chemoreceptor or baroreceptor stimuli.
摘要
在麻醉犬的呼吸周期不同阶段,向颈动脉体化学感受器或颈动脉窦压力感受器施加短暂刺激。化学感受器刺激通过在双侧颈动脉体附近注射少量(0.2 - 0.5毫升)与二氧化碳平衡的温热盐水来实现。压力感受器刺激通过在首先钳夹双侧颈总动脉后,向双侧颈动脉分叉区域注射大量(2 - 5毫升)与空气平衡的盐水来实现。
当迷走神经完整,但通过给予普萘洛尔阻断交感神经对心率的影响时,在呼气时给予压力感受器或化学感受器刺激会诱发迅速且明显的心动过缓,而在吸气时给予刺激则心率几乎没有变化。
当切断迷走神经,但交感神经功能完整时,仍可证明压力感受器和化学感受器对心率的反射效应存在呼吸调制。两种刺激诱发的心动过缓在呼气时给予的刺激比在吸气时给予的刺激更明显。对于压力感受器刺激短暂降低(颈动脉闭塞),呈现出一种互补的反应模式:在吸气时定时进行的闭塞诱发的心动过速大于在呼气时定时进行的闭塞诱发的心动过速。所有反射效应均由交感神经系统介导,因为给予普萘洛尔后这些效应消失。
通常,与化学感受器或压力感受器刺激诱发的迷走神经反射相比,交感神经反射效应轻微。
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