Estudio mediante simulaciones de las propiedades eléctricas de la interfaz Gel-Piel durante la estimulación eléctrica neuromuscular
Abstract
The following Master’s Thesis engages in the area of NeuroMuscular Electrical
Stimulation (NMES), which comprises the activation of nerves and muscle fibers by
applying electrical current pulses using two electrodes placed on the skin. NMES has
great potential to serve as strength training, rehabilitation and post-exercise recovery
tool. A conductive electrolyte (gel) is applied between the electrodes and the skin to
obtain lower contact impedance and prevent skin damage; nevertheless, these
systems need to improve to obtain a more uniform distribution of the electric current
throughout the electrodes. Therefore, the need to study the electrical characteristics
of the gel-skin interface arises. In this Master’s Thesis a 3D Finite Element Model
based on experimentally obtained parameters is described and developed to simulate
the electrical behavior of the gel-skin interface and obtain said characteristics. A
series of simulations are performed to determine the group of signal parameters and
electrode configuration that achieve the best uniformity in electrical current
distribution throughout the gel-skin interface. In the end, the guidelines to obtain
said uniform distribution are listed.
Description
Proyecto de Graduación (Maestría en Electrónica) Instituto Tecnológico de Costa Rica, Escuela de Ingeniería Electrónica, 2014.