Open AccessImplantable cathodic voltage controlled electrical stimulator
Author(s) -
Weeks K.,
Clark C.,
Tobias M.,
McDermott E.,
Duquin T.,
Ehrensberger M.,
Titus A.H.
Publication year - 2019
Publication title -
electronics letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.375
H-Index - 146
ISSN - 1350-911X
DOI - 10.1049/el.2019.2242
Subject(s) - potentiostat , electrical engineering , voltage , materials science , electrical impedance , bluetooth , cathodic protection , wireless , biomedical engineering , computer science , electrode , engineering , telecommunications , chemistry , electrochemistry
This work reports the first of its kind custom implantable cathodic voltage controlled electrical stimulator (iCVCES) for use with implanted orthopaedic devices. The iCVCES allows researchers to study DC cathodic voltage controlled electrical stimulation (CVCES) in vivo with no percutaneous leads. The iCVCES is a microcontroller‐based potentiostat circuit with wireless (bluetooth) communication that controls the DC cathodic stimulation and monitors the environment around the implant. Comprising a single PCB with a coin cell battery, the device is able to hold a constant voltage as large as −1.8 V in a dynamic impedance environment. In vitro tests demonstrate functionality comparable to bench‐top systems, and in vivo tests demonstrate operation in live rats, for up to 8 days, with the ability to provide constant stimulation with a maximum variation of 2 mV.