Title :
High spatial resolution, focused electrical stimulation of electrically-excitable tissue
Author :
Laflen, J.B. ; Talavage, T.M. ; Sarychev, A.K.
Author_Institution :
Dept. of Biomed. Eng., Purdue Univ., West Lafayette, IN, USA
Abstract :
A theoretical method is presented which uses wave-guiding principles to construct a focused point of stimulation at any location within a region of electrically-excitable tissue. The excitation is formed through the constructive interference of different frequency wave energies, traveling at frequency-dependent velocities, which coalesce at the stimulation point. Further energy is brought to the stimulation point through reflection(s) at the boundaries of the wave-guiding structure. The resulting excitation signal depends upon several factors, including pulse envelope and duration, allowable frequency range, and stimulation time. A necessary trade-off exists amongst stimulation time, pulse duration, and the degree of focus.
Keywords :
bioelectric phenomena; biological tissues; prosthetics; electrically-excitable tissue; excitation signal; focus degree; high spatial resolution focused electrical stimulation; implants; pulse duration; pulse envelope; stimulation point; stimulation time; Acoustic propagation; Biomedical engineering; Cutoff frequency; Electrical stimulation; Electromagnetic propagation; Electromagnetic waveguides; Geometry; Interference; Pulse modulation; Spatial resolution;
Conference_Titel :
Engineering in Medicine and Biology, 2002. 24th Annual Conference and the Annual Fall Meeting of the Biomedical Engineering Society EMBS/BMES Conference, 2002. Proceedings of the Second Joint
Print_ISBN :
0-7803-7612-9
DOI :
10.1109/IEMBS.2002.1053177
