Title :
Analytical and numerical optimization of an implantable volume conduction antenna
Author :
Wessel, Brain L. ; Sclabassi, Robert J. ; Roche, Paul ; Sun, Mingui
Author_Institution :
Dept. of Neurological Surg., Pittsburgh Univ., PA, USA
Abstract :
As implantable devices become increasingly sophisticated, there is a strong need for developing a wireless data communication channel between these devices and external computers. This important problem has been studied and an antenna is being designed based on the volume conduction of biological tissues. Closed-form equation and finite element analyses were performed for the case of brain implantation using a spherical volume conduction model of the head. A 2D proof of concept was done showing the influence of a volume conductor reflector on volume currents, exhibiting changes in the far field as controlled by the near field. A 3D finite element analysis showed an increased signal transduction of 35% as compared to the 3D analytical analysis, which was not able to simulate the epoxy.
Keywords :
antennas; bioelectric potentials; biological tissues; brain; finite element analysis; optimisation; prosthetics; biological tissues; brain implantation; closed-form equation; external computers; finite element analyses; implantable devices; implantable volume conduction antenna; numerical optimization; signal transduction; spherical volume conduction head model; wireless data communication channel; Biological system modeling; Biological tissues; Biology computing; Brain modeling; Data communication; Equations; Finite element methods; Performance analysis; Signal analysis; Wireless communication;
Conference_Titel :
Bioengineering Conference, 2004. Proceedings of the IEEE 30th Annual Northeast
Print_ISBN :
0-7803-8285-4
DOI :
10.1109/NEBC.2004.1299977
