Lüscher H R, Stricker C, Henneman E, Vardar U
Physiologisches Institut der Universität, Bern, Switzerland.
Exp Brain Res. 1989;74(3):493-500. doi: 10.1007/BF00247351.
Excitatory postsynaptic potentials (e.p.s. p.s.) elicited by impulses in single muscle spindle afferent fibers from the medial gastrocnemius (m.g.) muscle were recorded intracellularly from homonymous and heteronymous motoneurons in order to study factors that influence the amplitudes of such responses. Impulses in large afferent fibers elicited larger single-fiber e.p.s.p.s. than those in smaller afferents. Mean e.p.s.p. amplitudes were related exponentially to afferent conduction velocities of both Ia and spindle group II fibers. The closer a motoneuron was to the spinal entry point of an afferent fiber, the larger was the mean e.p.s.p. amplitude evoked in it. Impulses in the same afferent fiber elicited larger e.p.s.p.s in small than large motoneurons when the two cells were located at the same craniocaudal levels. Other factors being equal, the single-fiber e.p.s.p.s evoked in homonymous and heteronymous motoneurons were approximately equal in amplitude. Relatively simple morphological and topographical explanations for the findings were advanced and their functional significance for orderly recruitment in partitioned and unpartitioned reflexes was described.
为了研究影响此类反应幅度的因素,从内侧腓肠肌(m.g.)的单根肌梭传入纤维的冲动所引发的兴奋性突触后电位(e.p.s.p.s.),在同名和异名运动神经元上进行了细胞内记录。大传入纤维中的冲动比小传入纤维中的冲动引发的单纤维e.p.s.p.s.更大。平均e.p.s.p.幅度与Ia和梭内肌II类纤维的传入传导速度呈指数关系。运动神经元离传入纤维的脊髓入口点越近,在其中诱发的平均e.p.s.p.幅度就越大。当两个细胞位于相同的头尾水平时,同一传入纤维中的冲动在小运动神经元中引发的e.p.s.p.s.比在大运动神经元中更大。在其他因素相同的情况下,同名和异名运动神经元中诱发的单纤维e.p.s.p.s.幅度大致相等。对这些发现提出了相对简单的形态学和拓扑学解释,并描述了它们在分区和非分区反射中有序募集的功能意义。
