狗和猫气管与肺的副交感神经和交感神经传出纤维中的动作电位。
Action potentials in parasympathetic and sympathetic efferent fibres to the trachea and lungs of dogs and cats.
作者信息
Widdicombe J G
出版信息
J Physiol. 1966 Sep;186(1):56-88. doi: 10.1113/jphysiol.1966.sp008020.
Abstract
- Action potentials were recorded from seventy-four single and twenty-nine small multifibre nerve strands efferent to the trachea and lungs of cats and dogs. From the pathway (vagal or sympathetic), spontaneous activity, conduction velocity and responses to various interventions the efferent fibres were classified in the following way.2. Group I, vagal. These had a mean conduction velocity of 9.7 m/sec, and had a respiratory but seldom a cardiac rhythm. Their discharge was inhibited during hypertension caused by injections of adrenaline and during inflation of the lungs, but was increased during tracheal occlusion, stimulation of peripheral chemoreceptors and irritation of the larynx. The fibres are thought to be constrictor to the airways.3. Group II, sympathetic. These had a mean conduction velocity of 0.85 m/sec and usually had inspiratory and cardiac rhythms. Their discharge usually responded qualitatively as that of group I fibres to the various interventions, but with clear quantitative differences. They are divided into three subgroups on the basis of their responses to injections of adrenaline and to asphyxial stimuli.4. Group III, vagal and sympathetic. These had a mean conduction velocity of 9.0 m/sec, very slow discharge rates and often an expiratory and cardiac modulation. They were activated during hypertension due to adrenaline and often by tracheal occlusion, chemoreceptor stimulation, laryngeal irritation and lung inflation. Their motor action is unknown.5. Group IV, vagal and sympathetic. These had conspicuous cardiac rhythms resembling those of vascular baroreceptors, but their discharge could not be correlated with arterial blood pressure. Their mean conduction velocity was 6.6 m/sec. Some were active after combined vagotomy and sympathectomy. Together with some unclassified fibres, those of group IV are thought to be aberrant afferent nerves or collateral afferent branches, and possibly to subserve local reflexes.6. The results are discussed in relation to nervous control of effector tissues in the airways and autonomic nervous control generally.
摘要
从猫和狗的气管及肺部传出的74根单纤维和29根小多纤维神经束记录动作电位。根据神经通路(迷走神经或交感神经)、自发活动、传导速度以及对各种干预的反应,将传出纤维按以下方式分类。
第一组,迷走神经纤维。其平均传导速度为9.7米/秒,具有呼吸节律,但很少有心脏节律。在注射肾上腺素引起的高血压期间以及肺部充气时,它们的放电受到抑制,但在气管阻塞、外周化学感受器刺激和喉部刺激时放电增加。这些纤维被认为对气道起收缩作用。
第二组,交感神经纤维。其平均传导速度为0.85米/秒,通常具有吸气和心脏节律。它们的放电通常在对各种干预的反应上与第一组纤维在性质上相似,但有明显的数量差异。根据它们对注射肾上腺素和窒息刺激的反应,它们被分为三个亚组。
第三组,迷走神经和交感神经纤维。其平均传导速度为9.0米/秒,放电速率非常慢,且常有呼气和心脏调制。在肾上腺素引起的高血压期间,以及经常在气管阻塞、化学感受器刺激、喉部刺激和肺部充气时,它们被激活。它们的运动作用尚不清楚。
第四组,迷走神经和交感神经纤维。它们具有明显的心脏节律,类似于血管压力感受器的节律,但它们的放电与动脉血压无关。其平均传导速度为6.6米/秒。一些在迷走神经切断术和交感神经切除术联合后仍有活动。与一些未分类的纤维一起,第四组纤维被认为是异常传入神经或侧支传入分支,可能参与局部反射。
结合气道效应器组织的神经控制以及一般自主神经控制对结果进行了讨论。
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