视交叉上核损伤会消除大鼠的昼夜体温和睡眠节律。

Suprachiasmatic nuclei lesions eliminate circadian temperature and sleep rhythms in the rat.

作者信息

Eastman C I, Mistlberger R E, Rechtschaffen A

出版信息

Physiol Behav. 1984 Mar;32(3):357-68. doi: 10.1016/0031-9384(84)90248-8.

Abstract

We conducted a long-term study of the circadian rhythms of temperature and sleep in the rat after lesions of the suprachiasmatic nuclei (SCN). Brain temperature was measured with thermistors and sleep-wake was scored on the basis of continuously recorded EEG using a computerized system. Rats with complete SCN lesions did not exhibit circadian rhythms in constant dim illumination. Rats with partial SCN lesions generated weak and variable free-running rhythms, and when exposed to a light-dark cycle, some showed a reduced amplitude and altered waveform relative to normal rats. A few rats with partial SCN lesions showed a recovery of function. There was little difference between the circadian rhythms in temperature and waking, and these measures responded similarly to all lesions. Thus, no support was found for the notions that anatomically distinct oscillators control the circadian rhythms of temperature and activity, or that an oscillator outside of the SCN controls the circadian rhythm of temperature.

摘要

我们对损毁视交叉上核（SCN）的大鼠的体温和睡眠昼夜节律进行了一项长期研究。使用热敏电阻测量脑温，并基于计算机化系统连续记录的脑电图对睡眠-觉醒状态进行评分。完全损毁SCN的大鼠在持续昏暗光照下未表现出昼夜节律。部分损毁SCN的大鼠产生微弱且多变的自由运转节律，当暴露于明暗周期时，相对于正常大鼠，一些大鼠的节律振幅减小且波形改变。少数部分损毁SCN的大鼠显示出功能恢复。体温和觉醒的昼夜节律之间差异不大，并且这些指标对所有损毁的反应相似。因此，未找到支持以下观点的证据：在解剖学上不同的振荡器控制体温和活动的昼夜节律，或者SCN之外的振荡器控制体温的昼夜节律。

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视交叉上核损伤会消除大鼠的昼夜体温和睡眠节律。

Suprachiasmatic nuclei lesions eliminate circadian temperature and sleep rhythms in the rat.

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