Effects of elastic medium on the electric potential of neural tissue by using spherical bidomain Pasternak model

Muhammad Taj; Mohamed A. Khadimallah; Muzamal Hussain; Mohamed Elbahar; Muhammad Safeer; Sehar Asghar; Mohammed Mujalli; Amjad Qazaq; Monzoor Ahmad; Elimame Elaloui; Abdelouahed Tounsi

doi:10.12989/anr.2021.10.6.517

Effects of elastic medium on the electric potential of neural tissue by using spherical bidomain Pasternak model

Muhammad Taj, Mohamed A. Khadimallah, Muzamal Hussain, Mohamed Elbahar, Muhammad Safeer, Sehar Asghar, Mohammed Mujalli, Amjad Qazaq, Monzoor Ahmad, Elimame Elaloui, Abdelouahed Tounsi

Civil Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

An isotropic Pasternak-Like model is considered to elaborate the behavior of electric potential of neural tissue when immersed within elastic medium. Special attention is paid to the non dimensionlization of the parameters of the surrounding elastic medium. We found that shear layer potential per unit area and is the Winkler foundation-like constant, are two constants of Pasternak-like model and they actually effect on the potential of neural tissue. It is found that elastic medium affects the potential behavior of neural tissue. Elastic medium effect on the potential behavior of neural tissue is due to the Pasternak foundation parameters. Therefore the surrounding medium affects the potential of neural tissue during its transportation of functioning.

Original language	English
Pages (from-to)	517-524
Number of pages	8
Journal	Advances in Nano Research
Volume	10
Issue number	6
DOIs	https://doi.org/10.12989/anr.2021.10.6.517
State	Published - Jun 2021

Keywords

Pasternak-Like model
Winkler foundation-like constant
electric potential
neural tissue
shear layer potential per unit area

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10.12989/anr.2021.10.6.517

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title = "Effects of elastic medium on the electric potential of neural tissue by using spherical bidomain Pasternak model",

abstract = "An isotropic Pasternak-Like model is considered to elaborate the behavior of electric potential of neural tissue when immersed within elastic medium. Special attention is paid to the non dimensionlization of the parameters of the surrounding elastic medium. We found that shear layer potential per unit area and is the Winkler foundation-like constant, are two constants of Pasternak-like model and they actually effect on the potential of neural tissue. It is found that elastic medium affects the potential behavior of neural tissue. Elastic medium effect on the potential behavior of neural tissue is due to the Pasternak foundation parameters. Therefore the surrounding medium affects the potential of neural tissue during its transportation of functioning.",

keywords = "Pasternak-Like model, Winkler foundation-like constant, electric potential, neural tissue, shear layer potential per unit area",

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doi = "10.12989/anr.2021.10.6.517",

language = "English",

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AU - Taj, Muhammad

AU - Khadimallah, Mohamed A.

AU - Hussain, Muzamal

AU - Elbahar, Mohamed

AU - Safeer, Muhammad

AU - Asghar, Sehar

AU - Mujalli, Mohammed

AU - Qazaq, Amjad

AU - Ahmad, Monzoor

AU - Elaloui, Elimame

AU - Tounsi, Abdelouahed

PY - 2021/6

Y1 - 2021/6

N2 - An isotropic Pasternak-Like model is considered to elaborate the behavior of electric potential of neural tissue when immersed within elastic medium. Special attention is paid to the non dimensionlization of the parameters of the surrounding elastic medium. We found that shear layer potential per unit area and is the Winkler foundation-like constant, are two constants of Pasternak-like model and they actually effect on the potential of neural tissue. It is found that elastic medium affects the potential behavior of neural tissue. Elastic medium effect on the potential behavior of neural tissue is due to the Pasternak foundation parameters. Therefore the surrounding medium affects the potential of neural tissue during its transportation of functioning.

AB - An isotropic Pasternak-Like model is considered to elaborate the behavior of electric potential of neural tissue when immersed within elastic medium. Special attention is paid to the non dimensionlization of the parameters of the surrounding elastic medium. We found that shear layer potential per unit area and is the Winkler foundation-like constant, are two constants of Pasternak-like model and they actually effect on the potential of neural tissue. It is found that elastic medium affects the potential behavior of neural tissue. Elastic medium effect on the potential behavior of neural tissue is due to the Pasternak foundation parameters. Therefore the surrounding medium affects the potential of neural tissue during its transportation of functioning.

KW - Pasternak-Like model

KW - Winkler foundation-like constant

KW - electric potential

KW - neural tissue

KW - shear layer potential per unit area

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JO - Advances in Nano Research

JF - Advances in Nano Research

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ER -

Effects of elastic medium on the electric potential of neural tissue by using spherical bidomain Pasternak model

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Keywords

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