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本文引用的文献

1
Test of neural inertia in humans during general anaesthesia.人类全身麻醉期间神经惯性的测试。
Br J Anaesth. 2018 Mar;120(3):525-536. doi: 10.1016/j.bja.2017.11.072. Epub 2017 Dec 1.
2
Metastability of Neuronal Dynamics during General Anesthesia: Time for a Change in Our Assumptions?全麻状态下神经元动力学的不稳定性:是时候改变我们的假设了?
Front Neural Circuits. 2017 Aug 25;11:58. doi: 10.3389/fncir.2017.00058. eCollection 2017.
3
Evidence of hysteresis in propofol pharmacodynamics.丙泊酚药效动力学滞后的证据。
Anaesthesia. 2018 Jan;73(1):40-48. doi: 10.1111/anae.14009. Epub 2017 Sep 5.
4
Sleep and Anesthesia - Common mechanisms of action.睡眠与麻醉——共同作用机制
Sleep Med Clin. 2013 Mar;8(1):1-9. doi: 10.1016/j.jsmc.2012.11.009.
5
Investigation of Slow-wave Activity Saturation during Surgical Anesthesia Reveals a Signature of Neural Inertia in Humans.手术麻醉期间慢波活动饱和度的研究揭示了人类神经惰性的特征。
Anesthesiology. 2017 Oct;127(4):645-657. doi: 10.1097/ALN.0000000000001759.
6
Loss of Consciousness Is Associated with Stabilization of Cortical Activity.意识丧失与皮质活动的稳定有关。
J Neurosci. 2015 Jul 29;35(30):10866-77. doi: 10.1523/JNEUROSCI.4895-14.2015.
7
Neuronal ensembles sufficient for recovery sleep and the sedative actions of α2 adrenergic agonists.对恢复性睡眠及α2肾上腺素能激动剂的镇静作用而言足够的神经元集群。
Nat Neurosci. 2015 Apr;18(4):553-561. doi: 10.1038/nn.3957. Epub 2015 Feb 23.
8
Electroencephalographic variation during end maintenance and emergence from surgical anesthesia.手术麻醉维持期及苏醒期的脑电图变化
PLoS One. 2014 Sep 29;9(9):e106291. doi: 10.1371/journal.pone.0106291. eCollection 2014.
9
Recovery of consciousness is mediated by a network of discrete metastable activity states.意识的恢复是由离散的亚稳态活动状态网络介导的。
Proc Natl Acad Sci U S A. 2014 Jun 24;111(25):9283-8. doi: 10.1073/pnas.1408296111. Epub 2014 Jun 9.
10
Dynamical criticality during induction of anesthesia in human ECoG recordings.人类脑电记录中麻醉诱导期间的动力临界现象。
Front Neural Circuits. 2014 Mar 25;8:20. doi: 10.3389/fncir.2014.00020. eCollection 2014.

从全身麻醉中出现的神经惯性的随机基础。

A stochastic basis for neural inertia in emergence from general anaesthesia.

机构信息

Department of Anesthesiology and Critical Care, University of Pennsylvania, Philadelphia, PA, USA.

Department of Anesthesiology and Perioperative Medicine, UCLA, Los Angeles, CA, USA.

出版信息

Br J Anaesth. 2018 Jul;121(1):86-94. doi: 10.1016/j.bja.2018.02.035. Epub 2018 Apr 11.

DOI:10.1016/j.bja.2018.02.035
PMID:29935600
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6200107/
Abstract

BACKGROUND

Transitions into and out of the anaesthetised state exhibit resistance to state transitions known as neural inertia. As a consequence, emergence from anaesthesia occurs at a consistently lower anaesthetic concentration than induction. Motivated by stochastic switching between discrete activity patterns observed at constant anaesthetic concentration, we investigated the consequences of such switching for neural inertia.

METHODS

We simulated stochastic switching in MATLAB as Brownian motion on an energy landscape or equivalently as a discrete Markov process. Effects of anaesthetics were modelled as changing stability of the awake and the anaesthetised states. Simulation results were compared with re-analysed neural inertia data from mice and Drosophila.

RESULTS

Diffusion on a two-well energy landscape gives rise to hysteresis. With additive noise, hysteresis collapses. This collapse occurs over a mixing time that is independent from pharmacokinetics. The two-well potential gives rise to the leftward shift for the emergence dose-response curve. Yet, from in vivo data, ΔEC and Δ Hill slope are strongly negatively correlated (R=0.45, P<1.7×10). This correlation is not explained by a two-well potential. The extension of the diffusion model to a Markov process with 10 states (three awake, seven unconscious) reproduces both the left shift and the shallower Hill slope for emergence.

CONCLUSIONS

Stochastic state switching accounts for all known features of neural inertia. More than two states are required to explain the consistent increase observed in variability of recovery from general anaesthesia. This model predicts that hysteresis should collapse with a time scale independent of anaesthetic drug pharmacokinetics.

摘要

背景

麻醉状态的进入和退出表现出对状态转换的阻力,称为神经惯性。因此,麻醉苏醒发生在比诱导更低的麻醉浓度下。受在恒定麻醉浓度下观察到的离散活动模式之间随机切换的启发,我们研究了这种切换对神经惯性的影响。

方法

我们在 MATLAB 中模拟了布朗运动或等效的离散马尔可夫过程的随机切换。麻醉剂的影响通过改变清醒和麻醉状态的稳定性来建模。模拟结果与重新分析的来自小鼠和果蝇的神经惯性数据进行了比较。

结果

在双势阱能量景观上的扩散会导致滞后。加入加性噪声后,滞后会崩溃。这种崩溃发生在与药代动力学无关的混合时间内。双势阱会导致苏醒剂量反应曲线向左移动。然而,从体内数据来看,ΔEC 和 ΔHill 斜率之间呈强烈负相关(R=0.45,P<1.7×10)。这种相关性不能用双势阱来解释。将扩散模型扩展到具有 10 个状态的马尔可夫过程(三个清醒,七个无意识)可以重现苏醒时的左移和更浅的 Hill 斜率。

结论

随机状态切换解释了神经惯性的所有已知特征。需要超过两个状态才能解释从全身麻醉中恢复的可变性观察到的持续增加。该模型预测滞后应该随着与麻醉药物药代动力学无关的时间尺度而崩溃。