Investigating Neural Biomarkers for Gait in Parkinson's Patients

N/ARecruitingNCT05820074

Swiss Federal Institute of Technology60 enrolled

Overview

This observational study's main goal is to learn more about the neural mechanisms during movement in Parkinson's disease. Furthermore, it aims to inspire personalised treatment options. Participants will undergo a protocol that involves walking and gait-related motor tasks, such as seated stepping. During the protocol, brain activity will be recorded.

Parkinson's Disease (PD) is the second most common neurodegenerative disease accompanied by motor impairment \[1\]. Although symptomatic treatments like medication with Dopamine equivalents and deep brain stimulation (DBS) are available, the effects are very heterogeneous among patients and often cease over time. This study aims to generate insights into the neural mechanisms of PD by determining neural biomarkers for gait. The insights of this study may further inspire personalised treatment approaches. The primary objective is to identify neural biomarkers for gait. It is hypothesised that characteristic neural oscillations are underlying kinematic patterns in healthy participants and PD patients. The secondary objective is to compare the neural activity during gait and a seated lower limb motor task between healthy participants and PD patients. To this end, the investigators hypothesise that neural correlates of gait and of a seated lower limb motor task differ between healthy participants and PD patients. 60 participants will be included, 30 healthy participants and 30 PD patients. All participants must be older than 18 years and give informed consent. Potential participants will be pre-screened and will be informed about the study via phone call/email. Before any study procedure, participants will give informed consent as documented by signature. Afterwards, inclusion/exclusion criteria, medical history and participant characteristics will be assessed. PD patients must be of postural instability and gait difficulty sub-type. The study consists of one session of approximately 2.5 hours. During this session, electroencephalography (EEG) in healthy participants and EEG + local field potentials of the subthalamic nucleus from implanted DBS-electrodes in PD patients will be recorded during standardised gait sequences and a seated lower limb motor task. Furthermore, a short-term neuromodulation task will be investigated. Gait-related parameters will be recorded using motion capture, surface electromyography (EMG) and accelerometers. Gait characteristics, including symmetry, coordination, variability, and resilience will be assessed. All recording devices are approved on the market. The protocol of the session slightly differs between healthy participants and PD patients since no DBS electrodes are implanted in healthy participants, but still allows for comparison between the groups.

Study Type

OBSERVATIONAL

Enrollment

Conditions

Parkinson Disease Gait Disorders, Neurologic

Interventions

Neural Activity RecordingDIAGNOSTIC_TEST

Neural Activity is measured using EEG in all groups. Additionally, in Parkinson's patients, local-field-potentials from deep brain stimulation electrodes are recorded.

Movement Parameter RecordingDIAGNOSTIC_TEST

Gait-related movement parameters are non-invasively recorded using motion capture, accelerometers and electromyography.

NeuromodulationOTHER

Neural signals are recorded with the electrodes of the deep brain stimulation device. Parkinson's patients are asked to modulate their neural activity by observing the streamed neural activity and applying mental strategies.

Eligibility

Sex: ALLMin age: 18 YearsHealthy volunteers:

Medical Language ↔ Plain English

Inclusion Criteria: All participants * must have given informed consent as documented by signature * agree to comply with the study procedures Healthy control group * no neurological, orthopedic, or rheumatologic disease history * no identified sensory impairment. * no epilepsy and self-diagnosed acute or chronic psychiatric disorders Parkinson's Patients * non-tremor dominant idiopathic PD patients * presence of postural instability (UPDRS \>1 for postural instability \[17\]), gait disturbance, and absence of other causes of reduced balance * Implanted with Percept™ PC neurostimulator * Able to be in the stimulation OFF Exclusion Criteria: * Relevant cognitive impairment, with a score on Montréal Cognitive Assessment (MoCA) \< 20 * History of physical or neurological condition that interferes with study procedures * Social and/or personal circumstances interfering with the ability to come to the session

Locations (1)

Cereneo

Vitznau, Canton of Lucerne, Switzerland

RECRUITING

Outcomes

Primary Outcomes

Cortical activity underlying kinematic gait patterns will be recorded by electroencephalograph of the healthy and Parkinson patients

Using a mobile EEG system to measure neural activity during walking

Time frame: 30 minutes

Electromyography (Delsys®) of the healthy and Parkinson patients

Electrodes will be attached to a representative lower limb muscle, such as the tibialis anterior.

Time frame: 30 minutes

Detect onset of task-related movements detected by an accelerometer that will be placed on the hand and foot of the healthy and the parkinson patients

ZurichMOVE® detects onset of movements

Time frame: 30 minutes

Secondary Outcomes

Compare cortical activity between healthy subjects and parkinson patients

Neural activity between healthy controls and partient cohort will be compared.

Time frame: 30 minutes

Central Contacts

Lena Salzmann, MSc

CONTACT

+41788248679 lena.salzmann@hest.ethz.ch

Olivier Lambercy, PhD

CONTACT

oliver.lambercy@hest.ethz.ch

Data from ClinicalTrials.gov

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