Waldron M A, Connelly B J, Fisher J T
Department of Physiology, Queen's University, Kingston, Ontario, Canada.
J Appl Physiol (1985). 1989 Apr;66(4):1995-2000. doi: 10.1152/jappl.1989.66.4.1995.
Vagal, nonadrenergic inhibitory system (NAIS) innervation to airway smooth muscle has been demonstrated in adults of several species, including humans. However, the functional status of this system in newborns is not known. The NAIS of intestinal smooth muscle has been demonstrated in newborns and develops in parallel with cholinergic innervation (14). Since the lung is derived embryologically from the foregut and cholinergic innervation is operative at birth, we tested the hypothesis that NAIS innervation to the airways is functional in newborn cats. Nineteen cats (2-11 days of age) were anesthetized with chloralose-urethan, and a tracheal cannula was inserted. The chest was opened and the animals were mechanically ventilated. The cervical vagus nerves were separated from the sympathetics, cut, and placed on stimulating electrodes. Mean inspiratory resistance (RL, I) and dynamic compliance (Cdyn, L) were measured on a breath-by-breath basis. Atropine and propranolol were administered (2 mg/kg iv) to block cholinergic and adrenergic pathways, respectively. Subsequently, serotonin infusion was used to increase RL, I approximately 150%. Stimulation (10 s) at frequencies ranging from 2 to 20/s caused a slow-onset (30 s to peak) long-lasting decrease in RL, I and a much smaller increase in Cdyn, L. The magnitude and duration of the bronchodilation increased with stimulus frequency to a plateau at approximately 15/s. At a stimulus frequency of 2/s, RL, I decreased 11 +/- 1.9 vs 36 +/- 4.8% (SE) at 20/s, whereas Cdyn, L increased 2 +/- 1.1 vs. 6 +/- 1.7%, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
在包括人类在内的多个物种的成年个体中,已证实存在支配气道平滑肌的迷走神经非肾上腺素能抑制系统(NAIS)。然而,该系统在新生儿中的功能状态尚不清楚。新生儿肠道平滑肌的NAIS已得到证实,且与胆碱能神经支配同步发育(14)。由于肺在胚胎学上起源于前肠,且胆碱能神经支配在出生时就起作用,我们测试了这样一个假设:支配气道的NAIS在新生猫中具有功能。19只猫(2 - 11日龄)用氯醛糖 - 乌拉坦麻醉,插入气管插管。打开胸腔,对动物进行机械通气。将颈迷走神经与交感神经分离、切断,并置于刺激电极上。逐次呼吸测量平均吸气阻力(RL,I)和动态顺应性(Cdyn,L)。分别给予阿托品和普萘洛尔(2 mg/kg静脉注射)以阻断胆碱能和肾上腺素能途径。随后,输注5 - 羟色胺使RL,I增加约150%。以2至20次/秒的频率刺激(10秒)导致RL,I缓慢起效(30秒至峰值)并持续下降,而Cdyn,L的增加则小得多。支气管舒张的幅度和持续时间随刺激频率增加,在约15次/秒时达到平台期。在2次/秒的刺激频率下,RL,I下降11±1.9%,而在20次/秒时为36±4.8%(标准误),而Cdyn,L分别增加2±1.1%和6±1.7%。(摘要截断于250字)
