View clinical trials related to Parkinson Disease.
Filter by:Parkinson's disease (PD) is the most common degenerative Parkinson's syndrome and is linked, among other things, to the excessive accumulation of an abnormally aggregating protein, alpha-synuclein. Progressive Supranuclear Palsy (PSP) is another Parkinson's syndrome, linked, among other things, to the abnormal accumulation of the protein Tau, and expressed clinically by falls, early cognitive impairment and oculomotor disorders, not present in PD. The onset of these disorders is so gradual that differential diagnosis between the two diseases is only possible at a late stage, on average 3 to 5 years after the onset of symptoms. To date, there is a lack of validated imaging biomarkers for diagnosing and monitoring PD and PSP. There is therefore an urgent need for the development of robust biomarkers capable of detecting neurodegeneration at an early stage, in order to aid differential diagnosis as soon as symptoms appear, and to potentially enable these patients to be included in specific therapeutic trials (as these diseases are pathophysiologically different) with potential neuroprotective effects. The development of cutting-edge technologies such as 7T MRI, combined with optimized image processing methods, now enable non-invasive in vivo exploration and analysis of these small structures in terms of ion homeostasis (sodium), microstructure (volumetry, amount of iron and neuromelanin) and connectivity.
In recent years, motor imagery (MI) and action observation (AO) therapy strategies have been used in rehabilitation programs to increase motor learning in Parkinson's disease (PD). Visuomotor training strategies such as AO and MI therapy rely on the activity of the mirror neuron system to facilitate motor re-learning. Mirror neurons are activated during the performance of goal-directed actions, also when observing the same action and visualizing the action in the mind. The aim of this clinical trial is to test whether the application of AO and MI treatment in PD in addition to conventional rehabilitation programs has an additional effect on Balance, Functional Status and Quality of Life.
PD Frontline (part of RAPSODI GD) is an online study observational study with the goal of bringing People with Parkinson's to the frontline of research by getting them trial ready. To do this, participants are offered genetic sequencing for the GBA and LRRK2 gene with an at-home saliva collection kit.
Previous clinical studies revealed that the newly developed biophoton therapy has been safe and effective in treating patients with Alzheimer's disease, dementia, stroke, traumatic brain injury, or Parkinson's disease. The current study is to confirm the previous clinical observation by conducting as a randomized, triple-blinded, placebo-controlled prospective intervention clinical research. About 80 patients with brain disorder (Alzheimer's disease, dementia, stroke, traumatic brain injury, Parkinson's disease) will participate in the intervention clinical study at the Tesla MedBed Center located in Butler, PA.
Upper extremities are the first part of the body to be affected by Parkinson's disease. Although studies have shown that virtual reality-assisted rehabilitation methods are effective on gait and balance, studies on their use for upper extremity rehabilitation are limited. For this reason, the aim of the project is to examine whether virtual reality supported upper extremity position matching exercises, which will be specially prepared according to joint ranges of motion, will provide functional improvement in the upper extremities of individuals with Parkinson's disease.
Freezing of gait (FOG) is a common, disabling symptom of later stage Parkinson's disease (PD), and can induce significant morbidity and mortality by increasing risk of falls as the disease progresses. Despite optimum medical management and deep brain stimulation therapy, many patients with PD are incapacitated by FOG and gait disorders. Non-invasive vibrotactile stimulation has been reported to potentially improve FOG of patients with PD. However, results of studies were variable, and there is a lack of convenient vibrotactile devices ready for daily use with reliable clinical trial data. In the proposed study, the investigator will test the effect of a newly developed vibrotactile foot device (Smart shoe) on participants diagnosed with PD and FOG. EEG and fMRI are obtained in order to investigate the underlying neurological mechanism.
The goal of this intervention study is to investigate the effectiveness of three preventive interventions - yoga, arts-based approaches, and somatic practices, with reference to an active control group - traditional exercises, in enhancing psycho-social-spiritual well-being among people at risk of Parkinson's disease (Parkivers). The hypotheses include: H1: Yoga, arts-based, somatic interventions will significantly improve the psycho-social- spiritual wellbeing (i.e., perceived stress, anxiety and depressive symptoms, and quality of life) among Parkivers H2: In comparison to traditional exercise, yoga, arts-based, and somatic interventions will have a significant effect on psycho-social-spiritual well-being among Parkivers H3: Yoga, arts-based, somatic, and traditional exercise training interventions will have a significant effect in reducing PD-related motor symptoms H4: Yoga, arts-based, somatic interventions have a significant long-term effect on improving psycho-social-spiritual well-being among Parkivers Eligible participants will be invited to undergo baseline assessments before randomization to attend a six-session intervention group. To investigate the immediate and long-term effect of the preventive measures, repeated outcome measures will be conducted at six time-points: A baseline assessment prior to randomization (T0), and follow-ups at 2-months (T1), 6-months (T2), 12-months (T3), 18- months (T4), 24-months (T5).
The trunk, which plays an integral role in postural stabilization, controls extremity movements by providing dynamic stabilization during performance. Trunk stability is thought to be a prerequisite for upper extremity functions and it is assumed that trunk control has an effect on hand functions. There is thought to be a strong relationship between postural control and fine motor functions. There are very few studies in the literature examining the effect of trunk control on hand functions in Parkinson's patients. Based on this, the aim of this study is; To investigate the relationship between trunk control and hand functions. - Hypotheses of the study; - Ho: There is no relationship between Trunk Control and hand functions in individuals with Parkinson's disease. - H1: There is a relationship between Trunk Control and hand functions in individuals with Parkinson's disease
This study is a group controlled clinical trial. Parallel study, patients aged 40-80 years, with Parkinson disease. Twelve sessions, three times a week, for 30 minutes. Training will consist of Transcranial Direct Current Stimulation linked to tredmill training, in 3 blocks of 7 minutes, and adicionally to the Experimental Group, dual-task cognitive-motor exercises, simultaneously. The investigators will use the folowwing instruments: Auditory Stroop Test, Trail Making Test, Montreal Cognitive Assessment, Timed-up-and-go ST and DT, UPDRS II and III and Eletroencefalography (EEG). The objective is to examine cognitive alterations on PD pacients due to intervention and the relationships between baseline outcomes in responders and non-responders to therapy.
XellSmart Biomedical (Suzhou) Co., Ltd. has closely collaborated with Shanghai East Hospital(East Hospital Affiliated To Tongji University) , using iPSC seed cells, on the development and establishment of a dopaminergic neural precursor cell production system. These iPSC seed cells are sourced from the National Stem Cell Translational Resource Bank in Shanghai East Hospital (East Hospital Affiliated To Tongji University), and the construction of the cell bank is carried out by Shanghai East Hospital. The iPSC seed cell preparation method and testing standards have been certified by National Institutes for Food and Drug Control in China. This study is conducted under collaboration between Shanghai East Hospital and XellSmart Biomedical (Suzhou) Co., Ltd. It is a distinctive stem cell therapy research targeting Parkinson's disease patients, characterized by the following: 1. The first instance in China of using autologous iPSC-derived subtype-specific dopaminergic neural precursor cells for alternative transplantation therapy in Parkinson's disease. 2. Before the initiation of this study, there was only one reported case around the world involving the use of laboratory-grade autologous iPSC-induced dopaminergic neural precursor cells for Parkinson's disease treatment in an American Caucasian individual. Positive preliminary clinical research results were obtained and published in the New England Journal of Medicine in 2020. Since then, no similar studies have been reported. It has great significance to conduct this research. It will fill two critical clinical research gaps in stem cell therapy for Parkinson's disease in the world: 1. The use of clinical-grade autologous iPSCs differentiated into dopaminergic neural cells, and treat Parkinson's disease. 2. Evaluating the safety of using autologous iPSC-differentiated dopaminergic neural cells for Parkinson's disease treatment in individuals of Asian descent or Chinese ethnicity.