View clinical trials related to Multiple System Atrophy.
Filter by:This study will comprise of two phases, an observational phase and a treatment phase. In the observational phase the specific aims are: 1. To determine the presence and regional distribution of microglial activation, as assessed by 18F-PBR06 PET, in subjects with MSA as compared to healthy controls, at baseline and at 6-9 months' follow-up. 2. To assess the relationship between microglial activation and clinical progression at baseline and follow-up. In the treatment phase the specific aims of the study are: The specific aims of the study are: 1. To assess whether verdiperstat (BHV-3241) reduces 18F-PBR06 PET signal, and thus microglial activation and inflammation, in well-characterized MSA patients. 2. To assess the relationship between PET changes and clinical progression at baseline and follow-up in patients treated with verdiperstat. 3. To assess the relationship between PET changes and volumetric brain MRI at baseline and follow-up in patients treated with verdiperstat. Currently there is no known disease modifying therapy for MSA. Recently, the drug verdiperstat (BHV-3241) has appeared in the investigational arena specifically for the indication of Multiple System Atrophy. Verdiperstat (BHV-3241) is currently being used in a phase 3 active drug trial at Massachusetts Hospital. Verdiperstat (BHV-3241) is known to target Myeloperoxidase, an enzyme implicated in neuroinflammation, a major driver in disease pathogenesis. Our previous study (IRB protocol #2016P002373) demonstrated that applying TSPO (translator protein) PET imaging enabled us to track changes in neuroinflammation and thus provide a viable biomarker for disease progression. In this pilot study, the investigators aim to assess the effect of an investigational drug, verdiperstat (BHV-3241) on microglial activation in MSA patients using [F-18]PBR06 and to link it with clinical and morphometric MRI brain changes following treatment.
The present study investigated the efficacy and safety of combination treatment of repetitive transcranial magnetic stimulation (rTMS) and physical therapy (PT) in patients with cerebellar variant of multiple system atrophy (MSA-C) and spinocerebellar ataxia.
The purpose of this study is; compare respiratory function parameters and respiratory muscle strength in patients with MSA compare to healthy controls, and to evaluate the results of SNIP and PImax in measuring inspiratory muscle strength in MSA patients.
Multiple system atrophy (MSA) is a rare and fatal neurodegenerative disease characterised by a variable combination of parkinsonism, cerebellar impairment and autonomic dysfunction. The neuropathological hallmark is the accumulation of alpha-synuclein in oligodendrocytes. While some symptomatic treatments exist, neuroprotective treatments for MSA remain an urgent, unmet need. Moreover, at present there is not a single surrogate biomarker of MSA which could be used to inform clinical trials. This study seeks to characterise the natural history of MSA on a panel of candidate biomarkers, pre-selected for being putative surrogates of the underlying neurodegenerative process
This is a multicenter, open-label, non-controlled, non-randomized, phase 3 clinical study to compare the SPECT findings after a single IV administration of DaTSCAN™ ioflupane (123I) injection for patients with a clinical diagnosis of Parkinsonian syndrome (PS) involving striatal dopaminergic deficit (SDD; specifically, Parkinson's disease [PD] [SDD], multiple system atrophy [MSA] [SDD] or or progressive supranuclear palsy [PSP] [SDD]) as compared with patients with a clinical diagnosis of essential tremor (ET) (no SDD) and age-matched healthy controls.
In total 20 subjects will be enrolled at one participating site -UMC Ljubljana. The 20 subjects will be treated with placebo and NBMI 300 mg in a cross-over design. In case of subject drop-outs, additional subjects may be enrolled as decided by the Sponsor, to allow for expected number of evaluable subjects in each group.
Neurodegenerative cerebellar ataxias represent a group of disabling disorders which currently lack effective therapies. Cerebellar transcranial direct current stimulation (tDCS) is a non-invasive technique, which has been demonstrated to modulate cerebellar excitability and improve symptoms in patients with cerebellar ataxias. In this randomized, double-blind, sham-controlled study followed by an open-label phase, the investigators will evaluate whether a repetition of two-weeks' treatment with cerebellar anodal tDCS and spinal cathodal tDCS, after a three months interval, may further outlast clinical improvement in patients with neurodegenerative cerebellar ataxia and can modulate cerebello-motor connectivity, at short and long term.
The purpose of this study is to compare the efficacy of verdiperstat (BHV-3241) versus placebo in participants with Multiple System Atrophy
The study is a placebo controlled study, with two parallel arms, in which participants will be randomly assigned in a 2:1 ratio to receive either active (200 mg safinamide) or placebo in a double blind manner. Study population is patients diagnosed, with possible or probable parkinsonian variant of Multiple System Atrophy who are on a stable treatment of levodopa
Patients referred to neurosurgery routinely and safely undergo deep brain stimulation (DBS) for treatment of symptoms related to neurodegenerative conditions, most commonly Parkinson's disease. In the investigators experience, and published evidence shows, that stimulation has effects on the autonomic nervous system. In patients undergoing therapeutic DBS for a particular subtype of Parkinsonism, Multiple System Atrophy, the further effects on autonomic parameters such as blood pressure and bladder symptoms as well as the originally intended indications (gait and movement disorder) will be investigated. The mechanisms of any effects will also be studied by using a number of techniques such as magnetoencephalography (MEG) and Muscle Sympathetic Nerve Activity (MSNA) recording. Key goals are to: 1. Demonstrate that stimulation of the peduculopontine nucleus (PPN) improves autonomic function and has an attendant improvement on patients' quality of life 2. Investigate the role of the PPN and how it interacts with other brain areas. This translational strategy will lead to a larger efficacy study of DBS for MSA as well as revolutionizing neural-based treatments in other autonomic disorders such as orthostatic hypotension and pure autonomic failure.