Hukuhara T
Acta Neurobiol Exp (Wars). 1973;33(1):219-44.
In order to obtain basic evidence on the neuronal organization and localization of the central respiratory mechanism in the brain stem of the cat, the following experiments were undertaken: reexamination of the physiological meaning of apneusis and the gasp; differences in stability of spontaneous burst activity of respiratory neurons in the brain stem reticular formation; changes of spontaneous firing pattern of bulbar respiratory neurons in the isolated brain stem of the cat; changes of firing pattern of a pontine and a bulbar respiratory neuron during continuous recording of both unitary activities after brain stem transection at the pontomedullary junction; responses of respiratory neurons to electrical stimulation of the spinal cord; responses of respiratory neurons to electrical stimulation of the central cut end of the vagus nerve; effects of pentobarbitone on unitary activity of pontine and bulbar respiratory neurons. Based on the experimental result a preliminary scheme of a neuronal network of the central respiratory mechanism consisting of four subsystems of respiratory neurons: a primary neuron system; a satellite neuron system; an input neuron system; an output neuron system.
为了获取有关猫脑干中中枢呼吸机制的神经元组织和定位的基础证据,进行了以下实验:重新审视长吸式呼吸和喘息的生理意义;脑干网状结构中呼吸神经元自发爆发活动稳定性的差异;猫离体脑干中延髓呼吸神经元自发放电模式的变化;在脑桥延髓交界处进行脑干横断后,连续记录两个单位活动期间脑桥和延髓呼吸神经元的放电模式变化;呼吸神经元对脊髓电刺激的反应;呼吸神经元对迷走神经中枢切断端电刺激的反应;戊巴比妥对脑桥和延髓呼吸神经元单位活动的影响。基于实验结果,提出了一个由呼吸神经元的四个子系统组成的中枢呼吸机制神经元网络的初步方案:初级神经元系统;卫星神经元系统;输入神经元系统;输出神经元系统。