通过刺激来自外周肌肉的传入神经对膈运动神经元进行脊髓抑制。
Spinal inhibition of phrenic motoneurones by stimulation of afferents from peripheral muscles.
作者信息
Eldridge F L, Gill-Kumar P, Millhorn D E, Waldrop T G
出版信息
J Physiol. 1981 Feb;311:67-79. doi: 10.1113/jphysiol.1981.sp013573.
Abstract
- Phrenic nerve responses to stimulation of calf muscle receptors or their afferents were studied in two groups of cats. One consisted of paralysed, vagotomized and functionally glomectomized animals with intact central nervous systems. The other included paralysed high (C1) spinal animals whose phrenic nerve activity was either spontaneously tonic or phasic, or evoked by activation of the intercostal-to-phrenic reflex. In both groups, end-tidal PCO2 was maintained at a constant level by means of a servo-controller. 2. Physical stimulation of calf muscles in animals with intact central respiratory controller and a generally facilitatory effect on frequency, with appropriate changes of both inspiratory and expiratory durations, and on peak magnitude of phrenic (neural tidal) activity. However, for the first few sec after onset of the stimulus, neural tidal activity was inhibited. 3. Physical stimulation of calf muscles or electrical stimulation of the tibial nerve in high spinal animals uniformly caused inhibition of spontaneous phrenic activity and that evoked by facilitatory conditioning stimuli. The degree of inhibition gradually decreased as muscle stimulation continued. Following offset of muscle stimulation, post-stimulus augmentation of phrenic activity occurred, with subsequent gradual return to control level over a period of 20-25 sec. 4. We conclude that stimulation of muscle afferents in the leg has a predominantly facilitatory respiratory effect when acting through brain stem controller mechanisms, but also has a purely inhibitory effect on phrenic motoneurones when acting via spinal mechanisms. 5. In addition, the findings are consistent with (1) progressive accommodation of phrenic motoneurones during continued inhibitory input, and (2) with a large and prolonged post-inhibitory rebound of excitability.
摘要
- 在两组猫中研究了膈神经对小腿肌肉感受器或其传入神经刺激的反应。一组由中枢神经系统完整、瘫痪、迷走神经切断且功能上肾小球切除的动物组成。另一组包括高位(C1)脊髓瘫痪的动物,其膈神经活动要么是自发的紧张性或阶段性活动,要么是由肋间 - 膈反射激活所诱发。在两组中,通过伺服控制器将呼气末PCO₂维持在恒定水平。2. 对中枢呼吸控制器完整的动物的小腿肌肉进行物理刺激,通常对频率有促进作用,吸气和呼气持续时间会有适当变化,并且对膈神经(神经潮气量)活动的峰值幅度也有促进作用。然而,在刺激开始后的最初几秒内,神经潮气量活动受到抑制。3. 对高位脊髓动物的小腿肌肉进行物理刺激或对胫神经进行电刺激,均会一致地抑制自发膈神经活动以及由促进性条件刺激所诱发的膈神经活动。随着肌肉刺激的持续,抑制程度逐渐降低。在肌肉刺激停止后,膈神经活动出现刺激后增强,随后在20 - 25秒的时间内逐渐恢复到对照水平。4. 我们得出结论,腿部肌肉传入神经的刺激通过脑干控制机制起作用时,对呼吸主要有促进作用,但通过脊髓机制起作用时,对膈运动神经元也有纯粹的抑制作用。5. 此外,这些发现与以下两点一致:(1)在持续抑制性输入期间膈运动神经元的逐渐适应,以及(2)兴奋性的大幅且长时间的抑制后反弹。
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