Miller A D, Tan L K, Suzuki I
J Neurophysiol. 1987 Jun;57(6):1854-66. doi: 10.1152/jn.1987.57.6.1854.
The role of ventral respiratory group (VRG) expiratory (E) neurons in the control of abdominal and internal intercostal (expiratory) muscle activity during vomiting was examined in decerebrate cats by recording from these neurons during fictive vomiting in paralyzed animals and comparing abdominal muscle activity during vomiting before and after sectioning the axons of these descending neurons. Fictive vomiting was defined by a series of bursts of coactivation of abdominal and phrenic nerves elicited by either subdiaphragmatic vagus nerve stimulation or emetic drugs. Such coordinated activity would be expected to produce vomiting if the animals were not paralyzed. Data were recorded from 27 VRG E neurons that were antidromically activated from the lower thoracic (T13) or lumbar spinal cord. During fictive vomiting, almost two-thirds of these neurons (17/27) were mainly active in between periods of abdominal and phrenic nerve coactivation, when the internal intercostal motoneurons are known to be active. This group of neurons was termed INT neurons. INT neurons were subdivided according to whether they were active between every burst of phrenic and abdominal nerve coactivation (INTa neurons, n = 10) or only between some bursts (INTb neurons, n = 7). Another one-third of the VRG E neurons had normal or increased levels of activity when the abdominal nerves were active during fictive vomiting (ABD neurons). The one remaining neuron was mainly silent throughout fictive vomiting. ABD neurons were indistinguishable from INT neurons on the basis of their location in the VRG, type of firing pattern (ramp versus step ramp), conduction velocity, or extent of projection in the lumbar cord. However, INTa neurons had a significantly higher discharge rate during respiration than either ABD or INTb neurons. Abdominal muscle EMG and nerve activity were recorded from six unparalyzed cats before and after cutting the axons of VRG E neurons as they cross the midline between C1 and the obex. The lesions abolished or almost eliminated expiratory modulation of abdominal muscle activity. In contrast, the abdominal muscles were always active during vomiting; however, the amplitude of postlesion abdominal activity varied from approximately 70-100% of prelesion values in three cats to 60-70% of normal in a fourth animal to only approximately 20% of prelesion values in two other cats.(ABSTRACT TRUNCATED AT 400 WORDS)
在去大脑猫中,通过在瘫痪动物的模拟呕吐期间记录腹侧呼吸组(VRG)呼气(E)神经元的活动,并比较切断这些下行神经元轴突前后呕吐期间的腹肌活动,研究了VRG呼气神经元在呕吐期间对腹部和肋间内肌(呼气肌)活动控制中的作用。模拟呕吐由膈下迷走神经刺激或催吐药物引发的一系列腹部和膈神经共同激活的爆发来定义。如果动物不瘫痪,这种协调活动预期会引发呕吐。记录了27个从胸段下部(T13)或腰脊髓逆向激活的VRG E神经元的数据。在模拟呕吐期间,这些神经元中近三分之二(17/27)主要在腹部和膈神经共同激活的间隙活跃,此时已知肋间内运动神经元是活跃的。这组神经元被称为INT神经元。INT神经元根据其在膈神经和腹部神经每次共同激活爆发之间是否活跃(INTa神经元,n = 10)或仅在某些爆发之间活跃(INTb神经元,n = 7)进行细分。VRG E神经元的另外三分之一在模拟呕吐期间腹部神经活跃时具有正常或增加的活动水平(ABD神经元)。剩下的一个神经元在整个模拟呕吐期间主要处于静息状态。基于其在VRG中的位置、放电模式类型(斜坡式与阶梯斜坡式)、传导速度或在腰脊髓中的投射范围,ABD神经元与INT神经元无法区分。然而,INTa神经元在呼吸期间的放电率显著高于ABD或INTb神经元。在切断VRG E神经元轴突在C1和闩之间穿过中线之前和之后,从六只未瘫痪的猫记录了腹部肌肉肌电图和神经活动。损伤消除或几乎消除了腹肌活动的呼气调制。相比之下,呕吐期间腹肌始终活跃;然而,损伤后腹部活动的幅度在三只猫中从损伤前值的约70 - 100%变化到第四只动物中正常的60 - 70%,再到另外两只猫中仅为损伤前值的约20%。(摘要截断于400字)
