An in silico analysis of neuromodulation for pain relief: Determining the role of classical electrodynamics

Author:

Cornish Philip1ORCID,Humphrey Nabil2,Cornish Anne1,Emmerson R. Branden3

Affiliation:

1. Specialised Pain Medicine Pty Ltd Adelaide South Australia Australia

2. Special Research Centre for the Subatomic Structure of Matter University of Adelaide Adelaide South Australia Australia

3. Adelaide Anaesthetic Services Adelaide South Australia Australia

Abstract

AbstractThere has been ongoing debate about the efficacy and mechanism of action of neuromodulation devices in pain relief applications. It has recently been suggested that both issues may be resolved if electromagnetic theory is incorporated into the understanding and application of this technology, and we therefore undertook an in silico analysis to further explore this idea. We created a CAD replication of a standard neuromodulation electrode array with a generic linear 3/6 mm 8‐contact lead, developed a parameterized algorithmic model for the pulse delivered by the device and assigned material properties to biologic media to accurately reflect their electromagnetic properties. We then created a physical simulation of the device's output both in air and in the biophysical environment. The simulations confirmed the presence of an electromagnetic field (EM field). Variations in programming of the device affected the strength of the EM field by orders of magnitude. The biologic media all absorbed the EM field, an effect which was particularly pronounced in cerebrospinal fluid and muscle. We discuss the implications of all these findings in relation to the literature. We suggest that knowledge of electromagnetic theory and its application within the biophysical space is required for the optimal use of neuromodulation devices in pain relief applications.

Publisher

Wiley

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