Journal article
Improving Deep Brain Stimulation Electrode Performance in vivo Through Use of Conductive Hydrogel Coatings
T Hyakumura, U Aregueta-Robles, W Duan, J Villalobos, WK Adams, L Poole-Warren, JB Fallon
Frontiers in Neuroscience | Published : 2021
Abstract
Active implantable neurological devices like deep brain stimulators have been used over the past few decades to treat movement disorders such as those in people with Parkinson’s disease and more recently, in psychiatric conditions like obsessive compulsive disorder. Electrode-tissue interfaces that support safe and effective targeting of specific brain regions are critical to success of these devices. Development of directional electrodes that activate smaller volumes of brain tissue requires electrodes to operate safely with higher charge densities. Coatings such as conductive hydrogels (CHs) provide lower impedances and higher charge injection limits (CILs) than standard platinum electrode..
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Awarded by National Health and Medical Research Council
Funding Acknowledgements
This work was funded by the NHMRC of the Australian Government (APP1122055). The Bionics Institute acknowledges support of the Victorian Government through Operational Infrastructure Support Program.