View clinical trials related to Shy-Drager Syndrome.
Filter by:This is an interventional therapy study designed to evaluate the efficacy of a two-week intervention, i.e. training with a specialized exhalation training device (called expiratory muscle strength training; EMST150 or EMST75; Aspire Products, Gainsville, FL) on swallowing function in patients with neurodegenerative Parkinsonian disorders. This study involves a routine endoscopic evaluation of swallowing (FEES) to diagnose dysphagia before and after the intervention. Between the two FEES, a two-week exhalation training program takes place, which the patients perform independently following instructions from a speech and lanuage pathologist. In addition demographic and disease-specific data and two questionnaires (Swallowing Disturbance Questionnaire for Parkinson's disease patients, SDQ-PD, and Swallowing specific Quality Of Life Questionnaire SWAL-QoL) are recorded.
In this study the investigators would like to investigate the degree of damage of the synapses, an important part of the neurons vital for the communications between neurons, in Multiple System Atrophy (MSA).
This study will assess the safety and efficacy of ATH434 in participants with Multiple System Atrophy
To find out the effect of Lu AF82422 on disease progression in participants with multiple system atrophy.
The purpose of this expanded access program is to provide access to the investigational drug verdiperstat in patients with Multiple System Atrophy (MSA). Expanded access allows patients with a serious or a life-threatening disease or condition access to an investigational drug when no satisfactory approved treatment options are available.
The aim of the project is to develop the first alpha-synuclein (a-syn)-specific PET tracer. The research phase will exploit ACI's proprietary MorphomerTM library and extensively optimized screening workflow. Promising PET-tracer candidates will be tested for their ability in detecting a-syn pathology in patients with a range of Parkinsonian conditions with different a-syn levels and distributions, comprising hereditary forms of PD and other synucleinopathies.
Treatment of sleep disturbances is mainly attempted through drug administration. However, certain drugs are associated with unwanted side effects or residual effects upon awakening (e.g. sleepiness, ataxia) which can increase the risks of falls and fractures. In addition, there can be systemic consequences of long-term use. An alternative method of manipulating sleep is by stimulating the brain to influence the electroencephalogram (EEG). To date, there have been mixed results from stimulating superficial areas of the brain and, as far as we know, there has been no systematic attempt to influence deep brain activity. Many patients suffering from movement disorders, such as Parkinson's Disease (PD) and Multiple Systems Atrophy (MSA), also have disrupted sleep. Currently, at stages where drug treatment no longer offers adequate control of their motor symptoms, these patients are implanted with a deep brain stimulation system. This involves depth electrodes which deliver constant pulse stimulation to the targeted area. A similar system is used in patients with severe epilepsy, as well as some patients with chronic pain. The aim of this feasibility study is to investigate whether we can improve sleep quality in patients with deep brain stimulators by delivering targeted stimulation patterns during specific stages of sleep. We will only use stimulation frequencies that have been proven to be safe for patients and frequently used for clinical treatment of their disorder. We will examine the structure and quality of sleep as well as how alert patients are when they wake up, while also monitoring physiological markers such as heart rate and blood pressure. Upon awakening, we will ask the patients to provide their subjective opinion of their sleep and complete some simple tests to see how alert they are compared to baseline condition which would be either stimulation at the standard clinical setting or no stimulation. We hope that our study will open new ways of optimising sleep without the use of drugs, in patients who are implanted with depth electrodes. We also believe that our findings will broaden the understanding of how the activity of deep brain areas influences sleep and alertness.
Multiple system atrophy (MSA) is a rare and fatal neurodegenerative disorder that cause as other neurodegenerative diseases profound declines in functioning and thus, require caregiving for assistance with daily living. The aim of the study is to evaluate the effect of a multimodal intervention as proposed by the NYU Caregiver Counseling and Support Intervention (NYUCI) on the quality of life of patients and their caregivers.
Diagnosing Parkinson's disease (PD) depends on the clinical history of the patient and the patient's response to specific treatments such as levodopa. Unfortunately, a definitive diagnosis of PD is still limited to post-mortem evaluation of brain tissues. Furthermore, diagnosis of idiopathic PD is even more challenging because symptoms of PD overlap with symptoms of other conditions such as essential tremor (ET) or Parkinsonian syndromes (PSs) such as progressive supranuclear palsy (PSP), multiple system atrophy (MSA), corticobasal degeneration (CBD), or vascular Parkinsonism (VaP). Based on the principle that PD and PSs affect brain areas involved in eye movement control, this trial will utilize a platform that records complex eye movements and use a proprietary algorithm to characterize PSs. Preliminary data demonstrate that by monitoring oculomotor alterations, the process can assign PD-specific oculomotor patterns, which have the potential to serve as a diagnostic tool for PD. This study will evaluate capabilities of the process and its ability to differentiate PD from other PSs with statistical significance. The specific aims of this proposal are: To optimize the detection and analysis algorithms, and then to evaluate the process against neurological diagnoses of PD patients in a clinical study.
The purpose of the present clinical trial is to determine whether the use of an elastic abdominal binder is effective in the non-pharmacological management of symptomatic, neurogenic orthostatic hypotension (OH) in individuals suffering from Parkinson's disease (PD) or Parkinson variant multiple system atrophy (MSA-P).