View clinical trials related to Parkinsonian Disorders.
Filter by:Study Rationale: No accurate tests currently exist to diagnose Parkinson's disease (PD) and the conditions which mimic it (atypical parkinsonism) at a very early stage. Similarly there are no accurate ways to track how these diseases progress in a very precise manner. Recording eye movements and pupils may be a very sensitive way of doing this and may contain important information about a patient's diagnosis and their cognitive and motor function. Hypothesis: We hypothesize that measuring eye movements and pupil changes while people watch short video clips will differentiate PD and atypical parkinsonism at an early stage. We hypothesize that eye movements and pupil changes will be able to track how a person's disease changes over time and could even predict their disease course from the start. Before we can do this, we need to be able to accurately differentiate between PD and atypical parkinsonism and see how eye movements vary among people with the same disease. Study Design: We will ask a large number of people with PD and atypical parkinsonism to watch very brief video clips while we record eye movements and pupil responses. This is like changing the television channel every few seconds and observing what happens to a person's eyes as they search the new clip. We will compare these results between different disease groups and correlate them with clinical features of PD and atypical parkinsonism. Impact on Diagnosis/Treatment of Parkinson's disease: This may have enormous impact in the assessment of people with PD. It may become an important diagnostic tool, a prognostic marker at the early stage of disease, as well as providing the ability to track disease progression in clinical trials. Next Steps for Development: Once we can demonstrate that eye tracking can differentiate these conditions, we will follow a large number of patients to see how their eye movements and pupils change over time with their disease. If this is a reliable way to track disease it could be used to measure disease progression in these conditions and response to treatment.
α-Synucleinopathy is a cluster of neurodegenerative disease with motor and non-motor symptom. However, there is still a lack of research on the treatment for non-motor symptoms of α-synucleinopathy, especially autonomic dysfunctions such as orthostatic hypotension. Efficacy and safety of astragalus for non-motor symptoms of α-synucleinopathy will be assessed by an open-label self-controlled before-and-after study.
This is a pilot study to collect data with the Ceraxis product and standard movement disorders tests in order to prove and codify potential correlations.
Parkinson's disease (PD) is a progressive neurological disorder characterized by motor and non-motor symptoms such as rigidity, bradykinesia, resting tremor, cognitive and autonomic dysfunctions, gait and balance difficulties. The impairment of gait, balance and cognitive performances is partially responsive to dopaminergic medications. This emphasizes the importance of non-pharmacological interventions for people with PD (pwPD). Intensive multidisciplinary motor and cognitive rehabilitation has been proposed as a complementary and effective treatment for managing pwPD. Several structural and physiological mechanisms have been suggested to underpin exercise-induced neuroplastic changes in PD, such as enhanced synaptic strength and preservation of dopamine neurons. To date, studies on brain changes induced by motor and cognitive exercises in pwPD have been small-scaled and uncontrolled. Identifying accessible and measurable biomarkers for monitoring the events induced by intensive motor and cognitive rehabilitation program would help in testing the treatment effectiveness and would allow personalization of rehabilitation strategies by predicting patients' responsiveness. Based on validated clinical assessments of intensive multidisciplinary rehabilitation treatment, the project will test the ability of a new set of biomarkers to evaluate rehabilitative outcomes in a cohort of people with PD.
Rehabilitation is crucial in the treatment of people with Parkinson's disease (PD) as it can ameliorate motor and non-motor impairments, improving their clinical profile and quality of life. Considering the complex biological processes occurring in PD brain, the identification of accessible and measurable biomarkers to monitor the events induced by intensive rehabilitation would help in i)testing rehabilitation effectiveness, ii)improving the design of clinical trials and iii)personalizing the rehabilitation strategies by the prediction of patients' responsiveness. The objective of this project is the validation of Raman analysis of saliva and salivary extracellular vesicles (EV) for the differential diagnosis of Parkinson's disease (PD) and atypical Parkinsonism. The proposed diagnostic method can be integrated in the preliminary assessment and monitoring of the patient by providing a quickly and repeatable measurable biomarker. In the end, this will bring tothe personalization of the rehabilitation path and provide an indication on the outcome of the rehabilitation treatment.
The purpose of this study is to learn more about the effectiveness of palliative care training for community physicians and telemedicine support services for patients and carepartners with Parkinson's disease and Lewy Body Dementia (LBD) or related conditions and their care partners. Palliative care is a treatment approach focused on improving quality of life by relieving suffering in the areas of physical symptoms such as pain, psychiatric symptoms such as depression, psychosocial issues and spiritual needs. Telemedicine is the use of technology that allows participants to interact with a health care provider without being physically near the provider.
With the aging of the population due to an increase in longevity, the number of people with Parkinson's disease is increasing (166,712 in France, as of December 31, 2015) and the number of patients with motor or cognitive-behavioral disorders is already a major public health challenge (1). In neurodegenerative diseases, the current strategy is to identify the disease early and, if possible, to consider therapeutic measures to slow down the progression of the disease. Classically, when faced with the early stages of Parkinsonism, the investigators differentiate idiopathic Parkinson's disease (IPD) from atypical Parkinsonian syndromes (AP), which include multiple system atrophy (MSA), corticobasal degeneration (CBD), and progressive supranuclear palsy (PSP), for which the prognoses are more severe and the therapies less effective. In the early stage of the disease, when the symptoms are not do no yet differentiate the diseases, the differential diagnosis between IPD and PSP is a real challenge for clinicians (2). Cerebral MRI can help in the diagnosis but is most often only an indicator, as it may be normal in the early stages of the disease (2). The recent emergence of targeted therapies, specific to tauopathies or synucleinopathies, makes it essential to establish a diagnosis as early as possible in order to curb the evolution of the disease (3). The investigators propose here a first study on the analysis of biomarkers of neurodegeneration from lipid metabolism allowing to discriminate IPD and AP from peripheral blood. Two recent studies have provided evidence of the discriminatory character of neurofilament blood testing in the early phases of parkinsonism (4,5). On the other hand, to our knowledge, none of them has studied markers from mitochondrial and peroxisomal metabolism, which could play a key role in the pathophysiology of these diseases (6,7,8,9,10). Our strategy will therefore be to study idiopathic or atypical Parkinsonism subjects with a clearly established diagnosis in a cross-sectional manner, and to identify one or more blood markers of neurodegeneration predictive of IPD or AP, hypothesizing that these markers will be at significantly different levels between the two groups (descriptive analysis). The markers studied will include markers of neurodegeneration, markers of mitochondrial function, peroxisomal function and oxidative stress. The investigators will then study the correlations between these biomarkers and motor scores of disease severity.
Currently, the Movement Disorders Society (MDS)-UPDRS scale remains the gold standard to document the outcomes in clinical trials for Parkinson's disease (PD). The MDS-UPDRS is far from infallible, as it is based on subjective scoring (using a rather crude ordinal score), while execution of the tests depends on clinical experience. Not surprisingly, the scale is subject to both significant intra- and inter-rater variability that are sufficiently large to mask an underlying true difference between an effective intervention and placebo. Digital biomarkers may be able to overcome the limitations of the MDS-UPDRS, as they continuously collects real-time data, during the patient's day to day activities. In this study the investigators are interested in developing algorithms to track progression of bradykinesia, gait impairment, postural sway, tremor, physical activity, sleep quality, and autonomic dysfunction (the latter being derived from e.g. skin conductance and changes in heart rate variability).
The purpose of this project is to investigate whether a 3-week training program involving music beat (serving as a type of rhythmic auditory stimulation) reduces the severity of bradykinesia and dyskinesia in at-risk individuals and schizophrenia patients. It is hypothesized that the program is effective in reducing the severity of bradykinesia and dyskinesia in at-risk individuals and schizophrenia patients.
The investigators are conducting a study to compare the self-reports of executive functions (that is to say, what role cognitive processes such as working memory and attention) in persons with Parkinson's Disease to the reports of executive functions completed by their significant others. To conduct this study, the investigators need the participation of persons who are diagnosed with Parkinson's Disease and their significant others.