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快和慢锥体束神经元:猫中对其不同重复放电特性的细胞内分析。

Fast and slow pyramidal tract neurons: an intracellular analysis of their contrasting repetitive firing properties in the cat.

作者信息

Calvin W H, Sypert G W

出版信息

J Neurophysiol. 1976 Mar;39(2):420-34. doi: 10.1152/jn.1976.39.2.420.

DOI:10.1152/jn.1976.39.2.420
PMID:1255231
Abstract
  1. Intracellular recordings were made from an estimated 500 neurons in the sensorimotor cortex of barbiturate-anesthetized cats. Of those which were antidromically identified from the medullary pyramids, 70 were selected which also exhibited steady repetitive firing to steps of current injected through the recording electrode; 81% were "fast" (conduction velocity greater than 20 m/s) and 19% were "slow". 2. As shown by earlier workers, the spike duration is a function of conduction velocity; a spike duration of 1.0 ms is the dividing line between fast and slow. 3. Of the 57 fast pyramidal tract neurons (PTNS), 14 exhibited double spikes during otherwise rhythmic firing patterns to a step of injected current. These very short interspike intervals (usually 1.5-2.5 ms) were first seen interspersed in a rhythmic discharge (e.g., 50-ms intervals) but, with further increases in current strength, would come to dominate the firing pattern; e.g., double spikes every 40 ms. Further increases in current would typically shorten only the long intervals; e.g., 40-30 ms, but some fast PTNS developed triple spikes, etc. 4. The extra spike appears to arise from a large hump which follows most spikes in fast PTNS; while this humplike "depolarising after-potential" can also be seen in slow PTNS, it is small. Extra spikes were seen only in fast PTNS with large postspike humps; in perhaps half of the fast PTNS, extra spikes probably contributed to "adaptation." 5. Slow PTNS often had frequency-current curves which were not repeatable; a "hysteresis" phenomenon could often be seen, where the proportionality constant relating current to firing rate decreased following high firing rates. 6. The B spike was distinguishable from the A spike in differentiated antidromic spikes in 77% of the slow PTNS, in only 14% of the fast PTNS which later exhibited double spikes during current-induced repetitive firing, and in 53% of the other fast PTNS. 7. The antidromic spike heights of doublet PTNS were not significantly different from those of other repetitively firing PTNS.
摘要
  1. 在巴比妥麻醉的猫的感觉运动皮层中,对大约500个神经元进行了细胞内记录。在那些从延髓锥体逆向鉴定出的神经元中,挑选出70个,它们对通过记录电极注入的电流阶跃也表现出稳定的重复放电;81%为“快”(传导速度大于20米/秒),19%为“慢”。2. 如早期研究人员所示,锋电位持续时间是传导速度的函数;1.0毫秒的锋电位持续时间是快与慢的分界线。3. 在57个快锥体束神经元(PTNS)中,14个在对注入电流阶跃的有节律放电模式中出现双锋电位。这些非常短的峰间间隔(通常为1.5 - 2.5毫秒)最初穿插在有节律的放电中(例如,50毫秒间隔),但随着电流强度进一步增加,会主导放电模式;例如,每40毫秒出现双锋电位。电流进一步增加通常只会缩短长间隔;例如,从40毫秒缩短到30毫秒,但一些快PTNS会出现三锋电位等。4. 额外的锋电位似乎源于快PTNS中大多数锋电位之后出现的一个大的波峰;虽然这种波峰状的“去极化后电位”在慢PTNS中也能看到,但很小。仅在具有大波峰后电位的快PTNS中看到额外的锋电位;在大约一半的快PTNS中,额外的锋电位可能导致了“适应”。5. 慢PTNS的频率 - 电流曲线通常不可重复;经常可以看到一种“滞后”现象,即与放电频率相关的电流比例常数在高放电频率后会降低。6. 在77%的慢PTNS、仅14%后来在电流诱导的重复放电中出现双锋电位的快PTNS以及53%的其他快PTNS中,在分化的逆向锋电位中B锋电位可与A锋电位区分开。7. 双峰PTNS的逆向锋电位高度与其他重复放电的PTNS没有显著差异。

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