Parkinson Disease Clinical Trial
Official title:
The Impact of Exercise on Subthalamic Nucleus Neural Activity in Parkinson's Disease
Fifteen PwPD who have undergone DBS surgery and utilize the Percept system will complete a FE and VE exercise session on a stationary cycle while Off antiparkinsonian medication. Bilateral neural activity of the STN will be continuously recorded for 130 minutes (pre-, during FE or VE and post-exercise). The Movement Disorders Society Unified Parkinson's Disease Rating Scale (MDS-UPDRS) III Motor Exam and upper extremity force-tracking task will be used to determine motor response to exercise.
Parkinson's disease (PD) is a progressive neurological disease, most prevalent in older adults, estimated to affect over 12 million people world-wide by 2040. While antiparkinsonian medication and deep brain simulation (DBS) are effective in managing disease symptoms, disease modification has remained elusive. Exercise has been proposed as the Universal Prescription for PD capable of slowing disease progression; stationary cycling in particular has been suggested as an ideal exercise modality for people with PD (PwPD).Our seminal tandem cycling study was the first to utilize forced exercise (FE) in human PD patients and demonstrate a 30% improvement in clinical ratings compared to voluntary exercise (VE). Briefly, FE is a mode of high intensity exercise originating in animal models of PD in which voluntary exercise rate is augmented, but not replaced. Thus, PwPD were assisted in pedaling at a higher rate (cadence) on the tandem cycle compared to those on a standard stationary cycle performing voluntary exercise (VE). This work resulted in a paradigm shift in terms of recommending high intensity exercise for PwPD. Currently, we are involved in two multi-site clinical trials aimed at identifying the potential of high intensity exercise to slow PD (2R01NS073717 & 1U01NS113851). Despite the potential of exercise to alter disease progression, its mechanism of action and effects on basal ganglia function are not understood. The loss of dopamine producing neurons associated with PD results in hypersynchrony of basal ganglia motor circuits that underlies PD symptoms. Recent animal studies using FE evaluated neural activity, local field potentials (LFPs), from the primary motor cortex (M1) to estimate the impact of exercise on basal ganglia function. Following FE, neural hypersynchrony in the beta (13-35Hz) frequency band was reduced in M1, which was proposed to underlie improved motor function. M1 activity is impacted by the activity in the subthalamic nucleus (STN), a structure in the basal ganglia, via the direct and indirect pathways. The impact of high intensity exercise, VE or FE, on STN hypersynchrony in humans is unknown. Recording of STN neural activity, until recently, was only possible during DBS surgery or in patients whose electrode was temporarily externalized immediately post-surgery. Neither approach is feasible or safe to systematically evaluate the effects of exercise on basal ganglia function. Recently, the Medtronic Percept DBS platform received FDA approval. The Percept platform records and streams neural activity from the DBS electrode within the STN. This project, for the first time, will record neural activity from the STN during two modes of high intensity exercise, FE and VE, in PwPD to identify the potential mechanism underlying the beneficial effects of exercise on PD. Our underlying hypothesis is that high intensity exercise reduces STN hypersynchrony which facilitates cortico-basal ganglia-thalamocortical circuit functionality thereby improving motor function following exercise. ;
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