由涉及两种神经元类型的非局部神经群体模拟的丙泊酚诱导的麻醉转变。
Anesthetic-induced transitions by propofol modeled by nonlocal neural populations involving two neuron types.
作者信息
Hutt Axel, Schimansky-Geier Lutz
机构信息
INRIA CR Nancy - Grand Est, 54603 Villers-Les-Nancy Cedex, France.
出版信息
J Biol Phys. 2008 Aug;34(3-4):433-40. doi: 10.1007/s10867-008-9065-4. Epub 2008 May 20.
Abstract
The present work derives the spatiotemporal field equation of neural populations considering two types of neurons. The model considers pyramidal cells, which may excite or inhibit other neurons, and GABAergic interneurons inhibiting terminal neurons. Additionally, taking into account excitatory and inhibitory synapses, the neural population obeys a vector-field equation involving nonlocal spatial interactions. The work studies the effect of the anesthetic agent propofol, which increases the decay time of inhibitory synapses. In addition, it explains the bifurcation mechanism in some detail and finds a saddle-node bifurcation subject to the propofol concentration. This bifurcation may model the transition between consciousness and nonconsciousness and vice versa during the administration of general anesthetics in medicine.
摘要
本研究推导了考虑两种神经元类型的神经群体的时空场方程。该模型考虑了可能兴奋或抑制其他神经元的锥体细胞,以及抑制终末神经元的γ-氨基丁酸能中间神经元。此外,考虑到兴奋性和抑制性突触,神经群体服从一个涉及非局部空间相互作用的矢量场方程。这项工作研究了麻醉剂丙泊酚的作用,它会增加抑制性突触的衰减时间。此外,它详细解释了分岔机制,并发现了受丙泊酚浓度影响的鞍结分岔。这种分岔可能模拟医学全身麻醉给药过程中意识与无意识之间的转变,反之亦然。
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