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中枢神经系统氧中毒与高压氧惊厥

Central Nervous System Oxygen Toxicity and Hyperbaric Oxygen Seizures.

作者信息

Manning Edward P

出版信息

Aerosp Med Hum Perform. 2016 May;87(5):477-86. doi: 10.3357/AMHP.4463.2016.

DOI:10.3357/AMHP.4463.2016
PMID:27099087
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7092644/
Abstract

INTRODUCTION

The use of hyperbaric oxygen (O2) as a therapeutic agent carries with it the risk of central nervous system (CNS) O2 toxicity.

METHODS

To further the understanding of this risk and the nature of its molecular mechanism, a review was conducted on the literature from various fields.

RESULTS

Numerous physiological changes are produced by increased partial pressures of oxygen (Po2), which may ultimately result in CNS O2 toxicity. The human body has several equilibrated safeguards that minimize effects of reactive species on neural networks, believed to play a primary role in CNS O2 toxicity. Increased partial pressure of oxygen (Po2) appears to saturate protective enzymes and unfavorably shift protective reactions in the direction of neural network overstimulation. Certain regions of the CNS appear more susceptible than others to these effects. Failure to decrease the elevated Po2 can result in a tonic-clonic seizure and death. Randomized, controlled studies in human populations would require a multicenter trial over a long period of time with numerous endpoints used to identify O2 toxicity.

CONCLUSIONS

The mounting scientific evidence and apparent increase in the number of hyperbaric O2 treatments demonstrate a need for further study in the near future.

摘要

引言

使用高压氧(O₂)作为治疗手段存在中枢神经系统(CNS)氧中毒的风险。

方法

为了进一步了解这种风险及其分子机制的本质,对来自各个领域的文献进行了综述。

结果

氧分压(Po₂)升高会引发众多生理变化,最终可能导致中枢神经系统氧中毒。人体具有多种平衡的保护机制,可将活性物质对神经网络的影响降至最低,这些机制被认为在中枢神经系统氧中毒中起主要作用。氧分压(Po₂)升高似乎会使保护酶饱和,并使保护反应朝着神经网络过度刺激的方向不利地转变。中枢神经系统的某些区域似乎比其他区域更容易受到这些影响。未能降低升高的Po₂可能导致强直阵挛性癫痫发作和死亡。在人群中进行随机对照研究需要进行长期的多中心试验,并使用众多终点指标来确定氧中毒。

结论

越来越多的科学证据以及高压氧治疗数量的明显增加表明,在不久的将来需要进一步研究。

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