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全身麻醉如何影响生物钟?

How does general anaesthesia affect the circadian clock?

机构信息

Dept of Medicine, University of Auckland, Auckland, New Zealand.

Dept of Anaesthesiology, University of Auckland, Auckland, New Zealand.

出版信息

Sleep Med Rev. 2018 Feb;37:35-44. doi: 10.1016/j.smrv.2016.12.002. Epub 2016 Dec 18.

Abstract

UNLABELLED

Post-operative patients experience sleep disturbances. Animal studies demonstrate that general anaesthesia (GA) can disrupt circadian rhythms and cause changes in the molecular clock, indicating that anaesthesia contributes to post-operative circadian disruption. Here we review the effect of anaesthesia on the circadian clock and its rhythms in order to summarise current findings outline commonalities between studies and propose mechanisms by which effects may be mediated.

KEY POINTS

  1. GA has strong effects on the main neurotransmitter systems linked with circadian control (Gamma aminobutyric acid/N-methyl-D-aspartate (GABA/NMDA)) and may act by interfering with light-entrainment of the clock. 2) Expression of the core clock gene per2 is inhibited by GA (possibly via a NMDA/glycogen synthase kinase 3β (GSK3β) pathway). 3) GA's effect on circadian rhythms appears greatest when administered during animals' active phases 4) GA may have different effects when administered under free-running and entrained conditions. 5) Anaesthesia may mimic the mechanism involved in adaptation of the clock to changes in daylength. There is agreement that GA can strongly affect the circadian clock. How anaesthesia-induced changes in the molecular clock lead to changes in behaviour remains unclear. The answer, and what it may mean for patients post-operatively, will rely on systematic studies at molecular, behavioural, and clinical levels using standardised protocols.
摘要

未加标签

术后患者会经历睡眠障碍。动物研究表明,全身麻醉(GA)会扰乱昼夜节律并导致分子钟发生变化,这表明麻醉会导致术后昼夜节律紊乱。在这里,我们回顾了麻醉对生物钟及其节律的影响,以便总结当前的研究结果,概括研究之间的共同点,并提出可能介导这些影响的机制。

关键点

1)GA 对与昼夜节律控制相关的主要神经递质系统(γ-氨基丁酸/ N-甲基-D-天冬氨酸(GABA/NMDA))具有很强的作用,并且可能通过干扰时钟的光适应来发挥作用。2)GA 抑制核心时钟基因 per2 的表达(可能通过 NMDA/糖原合成酶激酶 3β(GSK3β)途径)。3)当 GA 在动物的活动期给予时,对昼夜节律的影响最大。4)GA 在自由运行和受约束条件下可能具有不同的作用。5)GA 可能模拟生物钟适应光周期变化的机制。一致认为,GA 可以强烈影响生物钟。麻醉诱导的分子钟变化如何导致行为变化尚不清楚。答案以及这对术后患者意味着什么,将依赖于使用标准化方案在分子、行为和临床水平上进行的系统研究。

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