Objective: Despite the clinical success of deep brain stimulation (DBS) for the treatment of Parkinson's disease (PD), little is known about the electrical spread of the stimulation. The primary goal of this study was to integrate neuroimaging, neurophysiology, and neurostimulation data sets from 10 PD patients, unilaterally implanted with subthalamic nucleus (STN) DBS electrodes, to identify the theoretical volume of tissue activated (VTA) by clinically defined therapeutic stimulation parameters.
Methods: Each patient-specific model was created with a series of five steps: 1) definition of the neurosurgical stereotactic coordinate system within the context of pre-operative imaging data; 2) entry of intra-operative microelectrode recording locations from neurophysiologically defined thalamic, subthalamic, and substantia nigra neurons into the context of the imaging data; 3) fitting a 3D brain atlas to the neuroanatomy and neurophysiology of the patient; 4) positioning the DBS electrode in the documented stereotactic location, verified by post-operative imaging data; and 5) calculation of the VTA using a diffusion tensor based finite element neurostimulation model.
Results: The patient-specific models show that therapeutic benefit was achieved with direct stimulation of a wide range of anatomical structures in the subthalamic region. Interestingly, of the 5 patients exhibiting a greater than 40% improvement in their unified PD rating scale (UPDRS), all but one had the majority of their VTA outside the atlas defined borders of the STN. Further, of the 5 patients with less than 40% UPDRS improvement all but one had the majority of their VTA inside the STN.
Conclusions: Our results are consistent with previous studies suggesting that therapeutic benefit is associated with electrode contacts near the dorsal border of the STN, and provide quantitative estimates of the electrical spread of the stimulation in a clinically relevant context.
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