Recording with microchannel electrodes in a noisy environment

Microchannels containing electrodes have a number of favourable properties that make them potentially suitable as the basis of a peripheral nerve interface design. In this study we have evaluated microchannel recording in vitro in the presence of a realistic simulation of electrical interference from musculature adjacent to an implanted interface. Tripolar recording and high-pass filtration both help improve signal discrimination. At high noise levels designed to replicate the effects of intense muscular activity, a combination of both these techniques is required, and only signals in larger axons can be recovered.

[1]  A. Monster,et al.  Isometric force production by motor units of extensor digitorum communis muscle in man. , 1977, Journal of neurophysiology.

[2]  J. Hursh CONDUCTION VELOCITY AND DIAMETER OF NERVE FIBERS , 1939 .

[3]  Stéphanie P. Lacour,et al.  Microchannel Electrodes for Recording and Stimulation: In Vitro Evaluation , 2009, IEEE Transactions on Biomedical Engineering.

[4]  R. Stein,et al.  Stable long-term recordings from cat peripheral nerves , 1977, Brain Research.

[5]  Iasonas F. Triantis,et al.  On cuff imbalance and tripolar ENG amplifier configurations , 2005, IEEE Transactions on Biomedical Engineering.

[6]  Stéphanie P. Lacour,et al.  Microchannels as Axonal Amplifiers , 2008, IEEE Transactions on Biomedical Engineering.