Title :
Modeling Selective Stimulation With A Flat Interface Nerve Electrode for Standing Neuroprosthetic Systems
Author :
Schiefer, Matthew A. ; Triolo, Ronald J. ; Durand, Dominique M. ; Tyler, Dustin J.
Abstract :
The long-term goal of our research is to restore standing function through selective activation of target fascicles within the femoral nerve by a flat interface nerve electrode (FINE). The optimal number and location of contacts within a FINE had not been determined previously. A realistic three-dimensional finite element model based on a cross section of human femoral nerve and FINE is presented. Simulated voltages are applied as an extracellular field to the MRG double-cable axon model. Initial simulations indicate that optimal contacts may exist for each fascicular group but an acceptable selectivity may require nerve reshaping
Keywords :
bioelectric potentials; biomechanics; finite element analysis; microelectrodes; neurophysiology; physiological models; prosthetics; MRG double-cable axon model; extracellular field; fascicles; flat interface nerve electrode; human femoral nerve; nerve reshaping; realistic three-dimensional finite element model; selective stimulation; simulated voltages; standing neuroprosthetic systems; Biomedical electrodes; Biomedical engineering; Bones; Finite element methods; Humans; Leg; Muscles; Nerve fibers; Neural prosthesis; Voltage;
Conference_Titel :
Neural Engineering, 2005. Conference Proceedings. 2nd International IEEE EMBS Conference on
Conference_Location :
Arlington, VA
Print_ISBN :
0-7803-8710-4
DOI :
10.1109/CNE.2005.1419631
