Statistical field theory of the transmission of nerve impulses.

Q1 Mathematics

Theoretical Biology and Medical Modelling Pub Date : 2021-01-06 DOI:10.1186/s12976-020-00132-9

Gianluigi Zangari Del Balzo

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引用次数: 2

Abstract

Background: Stochastic processes leading voltage-gated ion channel dynamics on the nerve cell membrane are a sufficient condition to describe membrane conductance through statistical mechanics of disordered and complex systems.

Results: Voltage-gated ion channels in the nerve cell membrane are described by the Ising model. Stochastic circuit elements called "Ising Neural Machines" are introduced. Action potentials are described as quasi-particles of a statistical field theory for the Ising system.

Conclusions: The particle description of action potentials is a new point of view and a powerful tool to describe the generation and propagation of nerve impulses, especially when classical electrophysiological models break down. The particle description of action potentials allows us to develop a new generation of devices to study neurodegenerative and demyelinating diseases as Multiple Sclerosis and Alzheimer's disease, even integrated by connectomes. It is also suitable for the study of complex networks, quantum computing, artificial intelligence, machine and deep learning, cryptography, ultra-fast lines for entanglement experiments and many other applications of medical, physical and engineering interest.

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神经冲动传递的统计场论。

背景:导致神经细胞膜上电压门控离子通道动力学的随机过程是通过无序和复杂系统的统计力学描述膜电导的充分条件。结果:神经细胞膜电压门控离子通道用Ising模型描述。引入了随机电路元件“Ising神经机器”。动作电位被描述为伊辛系统统计场论的准粒子。结论:动作电位的粒子描述是描述神经冲动产生和传播的新观点和有力工具，特别是在经典电生理模型失效的情况下。动作电位的粒子描述使我们能够开发新一代的设备来研究神经退行性和脱髓鞘疾病，如多发性硬化症和阿尔茨海默病，甚至通过连接体整合。它也适用于研究复杂网络、量子计算、人工智能、机器和深度学习、密码学、纠缠实验的超快线路以及许多其他医学、物理和工程领域的应用。

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来源期刊

Theoretical Biology and Medical Modelling MATHEMATICAL & COMPUTATIONAL BIOLOGY-

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Theoretical Biology and Medical Modelling is an open access peer-reviewed journal adopting a broad definition of "biology" and focusing on theoretical ideas and models associated with developments in biology and medicine. Mathematicians, biologists and clinicians of various specialisms, philosophers and historians of science are all contributing to the emergence of novel concepts in an age of systems biology, bioinformatics and computer modelling. This is the field in which Theoretical Biology and Medical Modelling operates. We welcome submissions that are technically sound and offering either improved understanding in biology and medicine or progress in theory or method.