Title :
Sculpting neural activation using deep brain stimulation leads with radially segmented contacts
Author :
Teplitzky, Benjamin A. ; Joe Xiao ; Zitella, Laura M. ; Johnson, M.D.
Author_Institution :
Biomed. Eng. Dept., Univ. of Minnesota, Minneapolis, MN, USA
Abstract :
Deep brain stimulation (DBS) leads with radially-segmented contacts are an enabling technology to more precisely sculpt neuronal activation and potentially improve clinical outcomes for patients with a number of brain disorders. In this study, we developed a computational modeling approach to investigate the relationship between the number of radial contacts around a DBS lead and the degree to which monopolar and bipolar stimulation settings can manipulate a region of axonal activation. Herein we describe methods for steering, shifting, and sculpting the region of neural activation in the context of both lead design and stimulation configuration.
Keywords :
bioelectric phenomena; brain; medical computing; medical disorders; neurophysiology; surgery; DBS lead; bipolar stimulation setting; brain disorder; computational modeling approach; deep brain stimulation; enabling technology; lead design; monopolar stimulation setting; neural axonal activation region sculpting; neural axonal activation region shifting; neural axonal activation region steering; radial contact number; radially segmented contacts; stimulation configuration; Brain stimulation; Cathodes; Computational modeling; Contacts; Finite element analysis; Nerve fibers; Satellite broadcasting;
Conference_Titel :
Neural Engineering (NER), 2013 6th International IEEE/EMBS Conference on
Conference_Location :
San Diego, CA
DOI :
10.1109/NER.2013.6695899
