Dick T E, Kong F J, Berger A J
J Neurophysiol. 1987 Jan;57(1):245-59. doi: 10.1152/jn.1987.57.1.245.
Spontaneous activities of pairs of single diaphragmatic motor units (MUs) were recorded via two electrodes in anesthetized cats, ventilated with CO2 added to the inspired gas, which slightly enhanced respiratory drive (endtidal CO2 less than 6%). These MUs were characterized by their axonal conduction velocities (CVs) and relative onset times (defined as the time after onset of phrenic nerve activity until the MU began discharging divided by the duration of inspiration). Motor unit axonal CV was estimated by the conduction time and the distance between two points on the phrenic nerve. Results were compared from two experimental preparations: one with dorsal roots intact and the other with dorsal roots transected bilaterally between fourth (C4) and seventh (C7) cervical segments. Estimated mean CV for phrenic MUs was 46.2 m/s(n = 180 MU). Motor units were classified as early and late recruited MUs depending on their relative onset times. We correlated MU axonal CV with its relative recruitment time. A highly significant (P less than 0.0001), positive correlation between axonal CV and relative recruitment time was established for those diaphragmatic MUs recruited with this respiratory drive. Correlation coefficients were r = 0.70 for intact animals, r = 0.72 for dorsal rhizotomized animals, and r = 0.72 overall population. For pairs of MUs, the CV of the earlier recruited unit was compared with the CV of the later recruited unit. In 96% of pairs from intact animals and 92% of pairs from dorsal rhizotomized animals, the first MU had a lower CV than the MU recruited later. Difference in relative times of recruitment was directly related to difference in axonal CVs. However, a portion of the motor pool with high-axonal CVs was not sampled. Under conditions of these experiments, afferent input in cervical dorsal roots, including that from diaphragmatic receptors, did not influence the distribution of MU relative onset times. Further, a similar proportion of MU pairs wherein the earlier recruited MU had a CV lower than the later recruited unit was observed in intact and dorsal rhizotomized animals. We also cross-correlated 31 pairs of simultaneously recorded MUs to assess common input onto phrenic motoneurons. Common input was characterized by the presence of peaks having widths of greater than or equal to 3 ms in the cross-correlation histograms (CCHs) and occurring within 20 ms of the trigger event. Peaks were judged significant if the bin with the largest number of occurrences was significantly greater than base line and if neighboring bins were above base line.(ABSTRACT TRUNCATED AT 400 WORDS)
在麻醉猫身上,通过两个电极记录成对的单个膈运动单位(MU)的自发活动。猫通过吸入添加了二氧化碳的气体进行通气,这会轻微增强呼吸驱动(呼气末二氧化碳含量低于6%)。这些运动单位通过其轴突传导速度(CV)和相对起始时间来表征(相对起始时间定义为膈神经活动开始后到运动单位开始放电的时间除以吸气持续时间)。运动单位轴突CV通过传导时间和膈神经上两点之间的距离来估算。比较了两种实验准备的结果:一种是背根完整,另一种是在第四(C4)和第七(C7)颈段之间双侧切断背根。膈运动单位的估计平均CV为46.2米/秒(n = 180个运动单位)。根据相对起始时间,运动单位被分类为早募集和晚募集的运动单位。我们将运动单位轴突CV与其相对募集时间进行关联。对于以这种呼吸驱动募集的膈运动单位,轴突CV与相对募集时间之间建立了高度显著(P小于0.0001)的正相关。完整动物的相关系数r = 0.70,背根切断动物的r = 0.72,总体的r = 0.72。对于成对的运动单位,比较早募集单位的CV与晚募集单位的CV。在完整动物的96%的配对和背根切断动物的92%的配对中,第一个运动单位的CV低于后来募集的运动单位。募集相对时间的差异与轴突CV的差异直接相关。然而,一部分高轴突CV的运动神经元池未被采样。在这些实验条件下,颈背根的传入输入,包括来自膈感受器的输入,不影响运动单位相对起始时间的分布。此外,在完整和背根切断的动物中,观察到早募集的运动单位CV低于晚募集单位的运动单位配对比例相似。我们还对31对同时记录的运动单位进行了互相关分析,以评估膈运动神经元上的共同输入。共同输入的特征是在互相关直方图(CCH)中存在宽度大于或等于3毫秒且在触发事件后20毫秒内出现的峰值。如果出现次数最多的bin显著高于基线且相邻bin也高于基线,则判断峰值显著。(摘要截断于400字)
