Bypassing damaged nervous tissue

TL;DR

This paper proposes a theoretical method to bypass damaged nervous tissue, aiming to restore neural function by creating artificial pathways based on synchronization mechanisms of neuron action potentials.

Contribution

It introduces a novel theoretical framework for bypassing demyelinated nerve regions and discusses the feasibility of implementing artificial neural networks for tissue repair.

Findings

Theoretical analysis supports the possibility of bypassing damaged nerve tissue.

Discussion on creating artificial neuron networks for tissue restoration.

Feasibility of implementing neural bypasses is explored.

Abstract

We show the principal ability of bypassing damaged demyelinated portions of nervous tissue, thereby restoring its normal function for the passage of action potentials. We carry out a theoretical analysis on the basis of the synchronization mechanism of action potential propagation along a bundle of neurons, proposed recently in [1]. And we discuss the feasibility of implement a bypass to restore damaged nervous tissue and creating an artificial neuron network.