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Trials / Recruiting

RecruitingNCT07110376

Deep Brain Stimulation Neural Recordings of Varied Stimulation During Sleep in Parkinson's Disease

Deep Brain Stimulation Neural Recordings of Varied Stimulation During Sleep in Parkinson's Disease - The DREAMS-PD Study

Status
Recruiting
Phase
N/A
Study type
Interventional
Enrollment
10 (estimated)
Sponsor
The Cleveland Clinic · Academic / Other
Sex
All
Age
18 Years
Healthy volunteers
Not accepted

Summary

This study employs an exploratory, prospective, single center, naturalistic clinical trial design with a randomized crossover intervention.

Detailed description

Deep brain stimulation (DBS) stands as an established and robust treatment for various motor symptoms in patients with Parkinson's disease (PWP). While it has shown promise in ameliorating non-motor symptoms, the mechanisms underlying these improvements remain poorly understood. A significant forthcoming shift in the DBS landscape is the transition towards closed-loop or "adaptive DBS" (aDBS). This approach relies on expanding knowledge of basal ganglia electrophysiology and its correlation with motor symptoms. Augmented beta frequency oscillations (13-35 Hz) in local field potentials (LFP) from the basal ganglia is correlated with severity of the motor systems bradykinesia/rigidity and serve as an electrophysiological biomarker for clinical state. Essentially, aDBS aims to modulate stimulation in response to neural state, offering more precise symptom control. Sleep disturbances are a prevalent symptom in PWP, affecting a vast majority of patients, and serve as a significant non-motor contributor to quality of life. While DBS has demonstrated benefits in enhancing sleep efficiency and architecture, the mechanisms by which this might occur, as well as the optimal stimulation parameters for treating sleep dysfunctions are unknown. Sleep is associated with a dramatic change in subcortical neural activity compared to the wake state, with decreased beta activity, which could serve as a neurophysiological biomarker for the sleep state. Since beta frequencies are a common target for adaptive DBS studies in PD, addressing sleep-induced reductions in beta activity will be crucial for future algorithm development. Incorrectly interpreting sleep as the "medication-on" state may result in an adaptive algorithm providing the patient with non-optimal stimulation amplitudes that may adversely affect sleep. There is an urgent need to identify the dose-response curve regarding how stimulation affects sleep quality and neurophysiology. Our primary objective is to address this knowledge gap by obtaining a comprehensive understanding of the subcortical neural signatures of sleep, and their correlation with sleep outcomes under different stimulation currents. This will ultimately enable us to establish the control policy for adaptive control of stimulation amplitude (current). Our central hypothesis is that different stimulation currents will elicit distinct effects on sleep subcortical neural signatures and sleep quality.

Conditions

Interventions

TypeNameDescription
OTHERNighttime Deep Brain Stimulation with Varying Amplitude SettingsParticipants will undergo three different nighttime-only Deep Brain Stimulation (DBS) settings in a randomized crossover design: 0% amplitude (stimulation off), 50% amplitude of their optimal clinical DBS settings, and full clinical DBS settings (100%). Each setting is applied for two weeks during sleep, over a total six-week home monitoring period. The intervention is designed to assess how varying levels of subthalamic nucleus DBS influence sleep quality and neural oscillatory activity. Only nighttime DBS settings are modified; daytime settings remain unchanged.

Timeline

Start date
2025-11-22
Primary completion
2026-07-01
Completion
2026-12-31
First posted
2025-08-07
Last updated
2025-12-15

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT07110376. Inclusion in this directory is not an endorsement.