Parkinson Disease Clinical Trial
Official title:
Adaptive Cortical and Subcortical Brain Stimulation to Improve Motor Behaviors and Gait in Parkinson's Disease
This is a single-center phase I clinical study aiming to improve gait functions in patients with Parkinson's disease (PD) by using adaptive neurostimulation to the pallidum. The investigators will use a bidirectional deep brain stimulation device with sensing and stimulation capabilities to 1) decode the physiological signatures of gait and gait adaptation by recording neural activities from the motor cortical areas and the globus pallidus during natural walking and a gait adaptation task, and 2) develop an adaptive deep brain stimulation (DBS) paradigm to selectively stimulate the pallidum during different phases of the gait cycle and measure improvements in gait parameters. This is the first exploration of network dynamics of gait in PD using chronically implanted cortical and subcortical electrodes. In addition to providing insights into a fundamental process, the proposed therapy will deliver personalized neurostimulation based on individual physiological biomarkers to enhance locomotor skills in patients with PD. Ten patients with idiopathic Parkinson's disease undergoing evaluation for DBS implantation will be enrolled in this single treatment arm study.
This study will allow the investigators to evaluate the efficacy of an adaptive stimulation paradigm in deep brain stimulation (DBS) to treat motor-related behaviours and motor skill learning in Parkinson's disease (PD). Parkinson's disease patients will be implanted unilaterally or bilaterally with a totally internalized bidirectional neural interface, Medtronic Summit RC+S. While current DBS therapy improves motor symptoms of PD, it does not address problems with acquiring additional motor skills (i.e. adapting gait patterns to avoid falls)) in PD, therefore, limiting benefits of physical rehabilitation programs aimed at improving mobility. Motor skill learning is critical in acquiring any new behaviors related to motor function. The overall objective is to identify personalized electrophysiological signatures of motor skill learning in PD patients and use adaptive control algorithms to enhance these signatures. The study will discover new ways to rehabilitate the disease brain circuits using adaptive neuromodulation. In a small, double-blinded trial, ten patients with idiopathic PD and motor fluctuations will be implanted with unilateral or bilateral RC+S devices, each connected to a standard quadripolar DBS lead implanted in the basal ganglia, along with a 4-contact paddle type electrode placed subdurally over the motor cortex. The investigators will compare the overall efficacy of closed-loop and open-loop paradigms in terms of behavioral performance improvements in validated motor skill learning tasks and measurements from wearable devices. During this chronic adaptive DBS phase, adaptive DBS and open-loop stimulation settings will be randomized for 30-day periods and motor skill and gait related measurements will be obtained from a combination of computerized motor tasks and wearable devices that track movement kinematics. Patients will participate in daily, if possible, motor learning and gait tasks at home with triggered stimulation settings and recordings. The investigators expect to successfully develop a prototype adaptive DBS algorithm based on cortical and / or basal ganglia LFPs (local field potentials). The investigators hypothesize that an adaptive paradigm will provide improvements in motor skilled learning compared to the conventional, open-loop paradigm, in which stimulation parameters remain constant until changed by the patient or clinician using an external programmer. ;
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