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Second‐Generation Microstimulator
Author(s) -
Arcos Isabel,
Davis R.,
Fey K.,
Mishler D.,
Sanderson D.,
Tanacs C.,
Vogel M.J.,
Wolf R.,
Zilberman Y.,
Schulman J.
Publication year - 2002
Publication title -
artificial organs
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.684
H-Index - 76
eISSN - 1525-1594
pISSN - 0160-564X
DOI - 10.1046/j.1525-1594.2002.06938.x
Subject(s) - capacitor , electrode , materials science , implant , tantalum , diode , optoelectronics , general partnership , electrical engineering , biomedical engineering , voltage , medicine , surgery , engineering , chemistry , metallurgy , law , political science
Abstract: The first‐generation injectable microstimulator was glass encased with an external tantalum capacitor electrode. This second‐generation device uses a hermetically sealed ceramic case with platinum electrodes. Zener diodes protect the electronics from defibrillation shocks and from electrostatic discharge. The capacitor is sealed inside the case so that it cannot be inadvertently damaged by surgical instruments. This microstimulator, referred to as BION, is the main component of a 255‐channel wireless stimulating system. BION devices have been implanted in rats for periods of up to 5 months. Results show benign tissue reactions resulting in identical encapsulation around BION and controls. Stimulation threshold levels did not change significantly over time and ranged between 0.81 to 1.35 mA for all the animals at a 60 μs pulse width. All of the tests performed to date indicate that the BION is safe and effective for long‐term human implant. We have elected to develop BION applications by seeking collaboration with the research community through our BION Technology Partnership.