Active clinical trials for "Parkinson Disease"

This research study aims to identify MRI-based brain biomarkers that predict an individual's response to Deep Brain Stimulation (DBS). In particular, this study will focus on changes in cognition associated with DBS. A total of 55 participants with Parkinson's Disease planning to undergo DBS will be recruited from MUSCs Clinical DBS Program. Participants will undergo four visits, including a 1-hour screening visit, a 1.5-hour pre-DBS MRI scanning visit, and a 3.5-hour post-DBS cognitive assessment visit.

This registry is a prospective, multicenter, international, single arm, observational post-approval registry with follow-up at 3, 6, and 12 months, and annually for 5 years. The proposed registry will enroll 60 subjects and will be conducted at approximately 10 centers worldwide.

The purpose of our study is to evaluate Vibrotactile Coordinated Reset stimulation (vCR) and its effects on advance stage Parkinson's symptoms. VCR will be administered with a device called the vibrotactile axon Glove. vCR is expected to provide patients with a non-invasive alternative to the most widely used treatments such as levodopa and or deep brain stimulation. Patients will be followed for two years.

During deep brain stimulation procedures in Parkinson's disease (PD), the most important prognostic element is the positioning of the surgical electrode in the subthalamic nucleus which is the anatomical target. The main objective of this project is therefore to compare 2 techniques thanks to a prospective comparative randomised open-label study: the use of O-ARM to acquire stereotactic imaging directly in the operating room and the standard technique requiring stereotactic imaging to be performed in the radiology department.

The investigators will conduct an randomized controlled trial (RCT) among people with Parkinson disease (PD) and freezing of gait (FOG) to evaluate the feasibility of a mindfulness intervention compared to a educational program about FOG. FOG is a severe motor disturbance that prevents people from stepping normally and is associated with anxiety, frustration, sedentary behaviors, poorer quality of life, and falls. Mindfulness-Based Stress Reduction (MBSR) is an evidence-based practice that creates a culture to reduce stress and anxiety by increasing conscious awareness and self-compassion. In this study, the investigators will develop a mindfulness-based walking intervention to address both mental health and mobility challenges that constitute FOG.

Neurodegenerative diseases are a major health concern due to their growing societal implications and economic costs. The identification of early markers of pathogenic mechanisms is one of the current main challenges. The gut-brain axis has become a primary target because of its transversal role across the neurodegenerative spectrum and its effect on cognition. However, despite recent progress, how changes in the gut-microbiota composition can affect the human brain is still unclear. The goal of this observational study is to characterise the gut-microbiota composition associated with alterations in brain structure and function during the ageing process and across neurodegenerative disorders. This is based on recent studies showing that changes in the human brain and in the microbiota composition, can indicate very sensitively and in a predictive way pathological development and, consequently, be used as markers of neurodegenerative diseases. The main questions it aims to answer are: How variation in the gut-microbiota composition correlates with the normal brain ageing trajectory? How dysregulation in the gut-microbiota correlates with pathological changes in brain regions in specific neurodegenerative disorders? Can the impact of the gut-microbiota on the brain be modulated by blood biomarkers? The investigators will recruit 40 young healthy participants, 40 old healthy participants, 40 participants with prodromal Alzheimer's Disease, 40 participants with Parkinson's Disease and 40 participants with Multiple Sclerosis. Participants will undergo the following examinations: Magnetic Resonance Imaging Analysis of a stool sample Analysis of a blood sample Neuropsychological assessment Questionnaires on eating habits

The primary purpose of this study is to demonstrate the superiority of UCB0022 as an adjunctive treatment to stable dose of standard-of-care (SoC) (including at least levodopa therapy) over placebo with regard to motor fluctuations time spent in the OFF state (OFF time) in study participants with advanced Parkinson's Disease (PD).

Inability to align and refocus the eyes on the objects at different depths, i.e., vergence impairment, frequently affects the quality of life in patients with Parkinson's disease. Our study aims to understand the location-specific effects of subthalamic region deep brain stimulation on vergence by integrating the patient-specific deep brain stimulation models and high-resolution eye-tracking measures. The knowledge gained will allow us to find the most beneficial stimulation location and parameters for improving binocular coordination and vergence while preserving the ability to treat motor symptoms in Parkinson's disease.

To perform a prospective cohort study with [(18)F]fluoroethoxybenzovesamicol (FEOBV) brain PET at baseline and 2-year follow-up in PD subjects at risk of conversion to non-episodic and episodic (falls and FoG) PIGD motor features and cognitive changes at the same time points.

Speech disturbance is common in patients with Parkinson disease. Pharmacotherapy improves motor symptoms but has inconsistent effects on speech disturbance in PD patients. Transcranial magnetic stimulation (TMS) is a safe and non-invasive tool used for brain stimulation. Repetitive transcranial magnetic stimulation (rTMS) has positive effects on motor function of PD. Yet, its effect on speech disturbance seems to be inconclusive. Previous rTMS studies mainly focused on the primary motor cortex for PD speech disturbance. Nevertheless, we think supplementary motor area (SMA) may be a better target. Speech disturbance in PD may be associated with basal ganglia-thalamocortical motor circuits and SMA involves in the cortex part. In addition, neuroimaging studies showed that SMA were under-activation in PD patients. Therefore, we conduct this 3-year study including two experiments. The aim of the study is to determine if rTMS over SMA can improve the speech function of PD patients and change the functional connectivity of speech pathway in the brain. This will be the first study to investigate the effect of rTMS over SMA on speech.