Title :
A model for human skin impedance during surface functional neuromuscular stimulation
Author :
Dorgan, Stephen J. ; Reilly, Richard B.
Author_Institution :
Lehrstuhl fur Seuer, Tech. Univ. Munchen, Germany
fDate :
9/1/1999 12:00:00 AM
Abstract :
A new mathematical model for the bulk electrical impedance of human skin is presented. In particular this model describes the impedance of skin during surface functional neuromuscular stimulation (FNS) with square stimulation pulses. Experimental data are presented that illustrate the nonlinear dynamic properties of human skin during current and voltage controlled stimulation. Model predictions are compared to experimental data, measured under both constant voltage and constant current transcutaneous stimulation. It is found that this model captures a variety of nonlinear time-varying effects observed in the skin impedance when stimulating with either protocol. This model may be used as part of large neuromusculoskeletal models or in the more accurate modeling of transcutaneous FNS, which is currently the most common clinical implementation of FNS
Keywords :
biocontrol; bioelectric phenomena; electric impedance; neuromuscular stimulation; nonlinear dynamical systems; patient rehabilitation; physiological models; skin; FNS control; bulk electrical impedance; constant current transcutaneous stimulation; constant voltage transcutaneous stimulation; current controlled stimulation; human skin impedance; large neuromusculoskeletal models; mathematical model; nonlinear dynamic properties; nonlinear time-varying effects; rehabilitation; square stimulation pulses; surface functional neuromuscular stimulation; system dynamics; voltage controlled stimulation; Frequency; Humans; Mathematical model; Muscles; Neuromuscular stimulation; Pain; Predictive models; Skin; Surface impedance; Voltage control;
Journal_Title :
Rehabilitation Engineering, IEEE Transactions on
