Neural Circuit Mechanisms of General Anaesthesia Induction: Current Advances and Future Directions

神经科学 全身麻醉 医学 机制(生物学) 丘脑 全身麻醉 脊髓 局部场电位 神经活动 丘脑底核 中枢神经系统 生物神经网络 皮质(解剖学) 大脑皮层 麻醉 局部麻醉 计算机科学 全身麻醉药 意识
作者
Yanfang Yin,Yaxin Teng,Wenying Chi,Xinyuan Zhang,Haozhe Qiao,Xiaoyong Zhao,Meiyan Sun
出处
期刊:Current Neuropharmacology [Bentham Science Publishers]
卷期号:24 (5): 683-702
标识
DOI:10.2174/011570159x387168250912070856
摘要

General anaesthesia is traditionally divided into three distinct stages: induction, maintenance, and recovery. However, much of the existing literature has primarily focused on elucidating the mechanisms involved in the recovery phase, yielding several notable advancements. It is essential to recognize, however, that the induction and recovery phases represent two distinct processes. Studies in the induction phase have mainly centred on the impact of inhalational and intravenous anaesthetics on neural circuits, particularly those in the cortical and subcortical nuclei, as well as their specific effects on various neurotransmitters. Yet, the precise neural circuit mechanisms underlying anaesthetic induction still require further exploration. General anaesthetics influence neural circuitry by targeting neurons in particular nuclei, with their effects varying according to the distinct properties of individual anaesthetic agents. During the induction of anaesthesia, both the cortex and subcortical nuclei are significantly involved, with the inhibition of the subthalamic nucleus considered a core mechanism underlying this process. Notably, the periventricular thalamus, as part of the thalamus structure, holds particular importance in regulating the loss of consciousness. Additionally, the spinal cord and peripheral nervous system may play a potentially important role during the induction phase of general anaesthesia. Gaining a deeper understanding of the mechanisms underlying anaesthetic induction could reveal potential neuroanatomical targets that elucidate the alterations in consciousness during this phase of general anaesthesia. Such insights are invaluable in the quest for more effective, precise, and controllable anaesthetic practices, thereby enhancing the selection and combination of anaesthetic agents.
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