BIOPHYSICAL MODELING OF ELECTRICAL SIGNAL PROPAGATION IN NEURONAL MEMBRANES USING COMPUTATIONAL SIMULATION

Abdusamad Sobirjonov

BIOPHYSICAL MODELING OF ELECTRICAL SIGNAL PROPAGATION IN NEURONAL MEMBRANES USING COMPUTATIONAL SIMULATION

Authors: Abdusamad Sobirjonov

Senior Lecturer, Department of Biomedical Engineering, Informatics and Biophysics, Tashkent State Medical University, Tashkent uzbekistan

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Keywords:: Biophysics; Neuronal membrane; Electrical signal propagation; Action potential; Ion channels; Computational simulation
Abstract: The transmission of electrical signals in neurons is governed by complex biophysical mechanisms involving membrane ion channels, electrical gradients, and time-dependent changes in membrane potential. Understanding these processes is essential for advancing both theoretical neurobiophysics and applied biomedical research.
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Published: 2026-02-03
Issue: Vol. 2 No. 1 (2026)
Section: Articles
License: This work is licensed under a Creative Commons Attribution 4.0 International License.

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BIOPHYSICAL MODELING OF ELECTRICAL SIGNAL PROPAGATION IN NEURONAL MEMBRANES USING COMPUTATIONAL SIMULATION. (2026). Eureka Journal of Health Sciences & Medical Innovation, 2(1), 761-772. https://eurekaoa.com/index.php/5/article/view/323

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