Artifact characterization and mitigation techniques during concurrent sensing and stimulation using bidirectional deep brain stimulation platforms

Abstract: Bidirectional deep brain stimulation (DBS) platforms have enabled a surge in hours of recordings in naturalistic environments, allowing further insight into neurological and psychiatric disease states. However, high amplitude, high frequency stimulation generates artifacts that contaminate neural signals and hinder our ability to interpret the data. This is especially true in psychiatric disorders, for which high amplitude stimulation is commonly applied to deep brain structures where the native neural activit… Show more

“…A challenge that the field currently faces is how to leverage these neural recordings to identify biomarkers indicative of symptom states [2,5]. Namely, there is still a need to define best practices with respect to synchronization with external data streams [6][7]. Unlike percutaneous research, where neural data synchronization with external events has been solved many times over, there are limited neural-behavioral synchronization methods for neural data recorded onboard fully implanted systems.…”

Automated artifact injection into sensing-capable brain modulation devices for neural-behavioral synchronization and the influence of device state

“…A challenge that the field currently faces is how to leverage these neural recordings to identify biomarkers indicative of symptom states [2,5]. Namely, there is still a need to define best practices with respect to synchronization with external data streams [6][7]. Unlike percutaneous research, where neural data synchronization with external events has been solved many times over, there are limited neural-behavioral synchronization methods for neural data recorded onboard fully implanted systems.…”

Automated artifact injection into sensing-capable brain modulation devices for neural-behavioral synchronization and the influence of device state

Automated artifact injection into sensing-capable brain modulation devices for neural-behavioral synchronization and the influence of device state