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睡眠和清醒状态下家兔下丘脑单个神经元的自发活动

Spontaneous activity of single neurones in the hypothalamus of rabbits during sleep and waking.

作者信息

Findlay A L, Hayward J N

出版信息

J Physiol. 1969 Mar;201(1):237-58. doi: 10.1113/jphysiol.1969.sp008753.

DOI:10.1113/jphysiol.1969.sp008753
PMID:4304342
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1351642/
Abstract
  1. A method is described for recording from single cells in the hypothalamus of unanaesthetized freely moving rabbits. Behaviour, bodily movement, skin and brain temperatures and e.e.g. were monitored.2. Patterns of unit firing during slow sleep, paradoxical sleep and waking were studied in several regions of the hypothalamus, thalamus and in the septum.3. Of the 144 cells analysed from waking to slow sleep, fifty-six (39%) decreased mean firing rates, thirty (21%) increased spike discharges and fifty-eight (40%) showed no marked change. Dorsal hypothalamic and massa intermedia thalamic cells fired in brief high frequency clusters during slow sleep with a characteristic ;bimodal' interspike interval histogram. Waking and paradoxical sleep abolished these cluster discharges with a concomitant change to an ;asymmetric' histogram.4. Of the thirty-two cells observed during the three states of waking, slow sleep and paradoxical sleep, a majority (twenty-five or 78%) showed their highest rates of spontaneous discharge during paradoxical sleep. Discharge rates of cells sometimes changed in the course of paradoxical sleep according to the presence or absence of phasic events such as myoclonic motor activity. Two hypothalmic cells were almost totally arrested during paradoxical sleep.5. Analysis of unit firing rates during spontaneous rises in brain temperature during waking and paradoxical sleep revealed that a majority of the neurones (22/24) changed their discharge rates in relation to behaviour rather than to brain temperature. Two cells did appear to respond specifically to the central thermal stimulus.6. Hypothalamic cells do not behave as a homogeneous population in relation to changes in the state of arousal of the rabbit. Spontaneous changes in cell discharge related to sleep-waking behaviour must be considered in any interpretation of hypothalamic unit activity as related to neuroendocrine or autonomic mechanisms.
摘要

  1. 本文描述了一种用于在未麻醉的自由活动兔子下丘脑的单细胞记录方法。监测了行为、身体运动、皮肤和脑温以及脑电图。

  2. 研究了下丘脑、丘脑几个区域以及隔区在慢波睡眠、异相睡眠和觉醒期间的单位放电模式。

  3. 在从觉醒到慢波睡眠分析的144个细胞中,56个(39%)平均放电率降低,30个(21%)放电尖峰增加,58个(40%)无明显变化。下丘脑背侧和丘脑中间块细胞在慢波睡眠期间以短暂的高频簇放电,具有特征性的“双峰”峰间间隔直方图。觉醒和异相睡眠消除了这些簇状放电,同时直方图变为“不对称”。

  4. 在觉醒、慢波睡眠和异相睡眠这三种状态下观察的32个细胞中,大多数(25个或78%)在异相睡眠期间自发放电率最高。细胞放电率有时会在异相睡眠过程中根据是否存在诸如肌阵挛性运动活动等相位事件而发生变化。两个下丘脑细胞在异相睡眠期间几乎完全停止放电。

  5. 对觉醒和异相睡眠期间脑温自发升高时的单位放电率分析表明,大多数神经元(22/24)的放电率变化与行为有关,而非与脑温有关。有两个细胞似乎确实对中枢热刺激有特异性反应。

  6. 就兔子觉醒状态的变化而言,下丘脑细胞并非表现为同质群体。在将下丘脑单位活动解释为与神经内分泌或自主神经机制相关时,必须考虑与睡眠 - 觉醒行为相关的细胞放电自发变化。

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