Parkinson Disease and DBS: Cognitive Effects in GBA Mutation Carriers

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Parkinson disease (PD) is a neurodegenerative disease affecting at least 1 million people in the U.S. Each year, 9,000 PD patients undergo deep brain stimulator (DBS) placement into the subthalamic nucleus (STN-DBS), the most commonly used basal ganglia target. Despite motor improvement, up to 50% o...

Parkinson disease (PD) is a neurodegenerative disease affecting at least 1 million people in the U.S. Each year, 9,000 PD patients undergo deep brain stimulator (DBS) placement into the subthalamic nucleus (STN-DBS), the most commonly used basal ganglia target. Despite motor improvement, up to 50% of patients have cognitive impairment after DBS. Cognitive impairment is associated with a 2-3 fold increase in mortality, progression to dementia, and nursing home placement. At present, subjects with cognitive impairment after DBS cannot be identified pre-operatively and the effects of DBS on cognitive function are not fully understood. A specific group of PD patients, carriers of mutations in the glucocerebrosidase (GBA) gene, are at particularly high risk for cognitive impairment. PD-GBA mutation carriers have dysfunction of the glucocerebrosidase (GCase) enzyme, resulting in more rapid accumulation and spread of Lewy bodies compared with non-mutation carriers. Clinically, PD-GBA mutation carriers have: (1) deficits in visual memory due to higher Lewy body burden in hippocampal and medial temporal regions, and (2) faster progression to dementia secondary to diffuse cortical Lewy body pathology. Approximately 10-17% of PD subjects with DBS carry GBA mutations, indicating that a substantial portion of the DBS population may be susceptible to cognitive problems. Importantly, STN-DBS itself can impair cognition through modulation of the striato-anterior cingulate cortex circuit, resulting in impulsivity and more errors when faced with tasks that rely on executive functions. Therefore, the central hypothesis is that PD-GBA mutation carriers have greater global cognitive decline after STN-DBS compared with PD-GBA mutation carriers without STN-DBS, and compared with non-mutation carriers with and without STN-DBS. This is a critical area of research because if an association between GBA and STN-DBS is detected, clinicians will be able to identify subjects at risk for worsened cognitive dysfunction through genetic testing and prevent harm by: (1) recommending that PD-GBA mutation carriers avoid STN-DBS, or (2) considering an alternative DBS target such as the globus pallidus interna (GPi) that may have less cognitive side effects. The following aims are proposed: Aim 1: Determine the longitudinal changes in global cognitive function in PD-GBA mutation carriers and non-mutation carriers with and without STN-DBS; Aim 2: Determine the specific pattern of cognitive dysfunction in PD-GBA mutation carriers and non-mutation carriers with and without STN-DBS; Aim 3: Determine the differential effects of DBS on cognitive function in the ON-stimulation state vs. OFF-stimulation state, comparing PD-GBA mutation and non-mutation carriers.

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