Bidirectional Bioelectronic Interfaces: System Design and Circuit Implications

System Design and Circuit Implications

Journal article (2020)

Authors

Yan Liu Shanghai Jiaotong University
A. Urso Bio-Electronics - EEMCS
R. Martins Da Ponte Bio-Electronics - EEMCS
T.M. Lopes Marta da Costa Bio-Electronics - EEMCS
V. Valente Bio-Electronics - EEMCS
Vasiliki Giagka Fraunhofer Institute for Reliability and Microintegration IZM, Bio-Electronics - EEMCS
W.A. Serdijn Bio-Electronics - EEMCS
Timothy G. Constandinou Imperial College London
Timothy Denison University of Oxford
Research Group
Bio-Electronics (EEMCS) (TU Delft)
Iterative methods Neurological disorders Clinical study Timing circuits Bio-electronic interface Electrical signal Electronic hardwares Pharmaceutical company Pharmacological treatment Processing capability
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Published Date

2020

Language

English

Reuse Rights

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Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Microelectronics

Research Group

Bio-Electronics

Abstract

The total economic cost of neurological disorders exceeds £100 billion per annum in the United Kingdom alone, yet pharmaceutical companies continue to cut investments due to failed clinical studies and risk [1]. These challenges motivate an alternative to solely pharmacological treatments. The emerging field of bioelectronics suggests a novel alternative to pharmaceutical intervention that uses electronic hardware to directly stimulate the nervous system with physiologically inspired electrical signals [2]. Given the processing capability of electronics and precise targeting of electrodes, the potential advantages of bioelectronics include specificity in the time, method, and location of treatment, with the ability to iteratively refine and update therapy algorithms in software [3]. A primary disadvantage of the current systems is invasiveness due to surgical implantation of the device. © 2009-2012 IEEE.

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