SOLITARY TRANSMISSION OF NEURONAL SIGNALS APPROACHED VIA HE'S SEMI INVERSE METHOD-Reference-Cited by-同舟云学术

SOLITARY TRANSMISSION OF NEURONAL SIGNALS APPROACHED VIA HE'S SEMI INVERSE METHOD

Published:2021-10-01 Issue: Volume: Page:48-50
ISSN:
Container-title:INTERNATIONAL JOURNAL OF SCIENTIFIC RESEARCH
language:en
Short-container-title:ijsr

Author:

Joseph Ancemma¹

Affiliation:

1. Department of Physics, Fatima College(Autonomous), Madurai, Tamilnadu, India.

Abstract

An investigation of neuronal signal transmission is intended in this paper through the establishment of solitary wave solutions for the improved Heimburg Jackson model governing the propagation of the mechanical wave in biomembranes. The computation of soliton solutions is carried out employing He's semi inverse variational principle. The role of nonlinearity and dispersive effects in the solitonic propation is correlated to the role of compressibility, elasticity, and inertia over the neuronal signal transmission in the unilamellar DPPC vesicles at T = 45o. The study reveals that He's semi inverse method is a direct and effective algebraic method to study the experimental features of the nerve pulse in the biomembranes.

Publisher

World Wide Journals

Reference21 articles.

1. Hodgkin, A. L., and Huxley, A. F., 1952. A Quantitative Description of Membrane Current and Its Application to Conduction and Excitation in Nerve, The Journal of Physiology, 117 ( 4) pp. 500-544

2. Fitzhugh, R. 1961. Impulses and Physiological States in Theoretical Models, Bio physical Journal, 1(6), pp. 445-466.

3. Nagumo, J., Arimoto, S., and Yoshizawa, S. 1962. An Active Pulse Transmission Line Simulating Nerve Axon, Proceedings of the IRE, 50(10), pp. 2061- 2070.

4. Heimburg, T., and Jackson, A. D., 2005. On soliton propagation in biomembranes and nerves, Proc. Natl. Acad. Sci. USA 102, pp.9790–9795.

5. Heimburg, T., and Jackson, A. D., 2007. On the action potential as a propagating density pulse and the role of anesthetics, Biophys. Rev. Lett. 2, pp. 57–78.