View clinical trials related to Progressive Supranuclear Palsy.
Filter by: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.
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.
Treatment of tauopathies such as Progressive Supranuclear Palsy (PSP) and Cortico Basal Degeneration (CBD) remains a major challenge. These rare severe neurodegenerative extrapyramidal movement disorders share phenotypic overlap and are usually painful. Parkinson disease (PD) is a common extrapyramidal movement disorder and continuous subcutaneous apomorphine infusion (CSAI) is commonly used in advanced PD patients to alleviate motor and non-motor fluctuations. Effects of subcutaneous apomorphine were investigated especially on pain and, on quality of life in 7 patients with PSD or CBD.This is an observational "real life" surveillance-based study.The Verbal Rating Scale for Pain (VRS) was used to assess changes in pain level and the clinical global impression-improvement scale (CGI-I) was used to assess changes in patient's illness before and during six months of treatment. Detailed report of the symptoms and side effects has been recorded by home nurses throughout the study period.
This is a double-blind, randomized, sham-controlled clinical trial that aim to verify the safety and the efficacy of anodal transcranial direct current stimulation (tDCS) on cognitive and motor symptoms in Progressive Supranuclear Palsy (PSP) over the left dorsolateral prefrontal cortex (dlPFC).
Objective of the study: To test the efficacy of cerebellar transcranial direct current stimulation (tDCS) associated with physical rehabilitation on postural instability and falls in progressive supranuclear palsy using a double-blind design and wearing sensors technology Design: Twenty probable PSP patients with no dementia and still able to walk will be recruited for a randomized double-blind sham-controlled study. Each patient will be hospitalized for a four week physical rehabilitation. In the real-arm, the patients will undergo a ten cerebellar tDCS stimulations while the placebo arm will undergo sham stimulation. Each patient will be evaluated before and after stimulation by PSP-rating scale (PSP-RS), cognitive tests and a battery of gait and movement tests using wearing sensors technology.
Objective of the study: To test the efficacy of theta burst cerebellar stimulation on postural instability in progressive supranuclear palsy using a cross-over design and wearing sensors technology Design: Twenty probable PSP patients with no dementia and still able to walk will be recruited for a cross-over sham-controlled study. Each patient will undergo a sham stimulation or a single session of cerebellar theta burst stimulation with a wash out period of at least 14 days. Each patient will be evaluated before and after stimulation by berg balance tests (BBS), Tinetti scale, PSP-rating scale (PSP-RS), and a battery of gait and movement tests. Static balance was assessed by 30-seconds-trials in semitandem and tandem positions with eyes open and closed using wearing sensors technology.
The purpose of the study is to assess the safety and tolerability of UCB0107 in study participants with Progressive Supranuclear Palsy (PSP).
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.
The main hypothesis is that the gait and postural deficits in the Caribbean form of PSP may be associated with a dysfunction of the cerebral cortex, as they result from sub-cortical involvement in classical forms. The investigators will characterize the gait and posture with a force platform to collect biomechanical gait parameters, coupled with the kinematic and electromyographic (EMG) study. Then the investigators realize a multimodal imaging study [structural magnetic resonance imaging (MRI) and diffusion tensor imaging (DTI)] that allow us to determine if a correlation can be found between the clinical characteristics of postural control and walking on one hand, and morphological changes and structural MRI changes in cortico-subcortical pathways on the other hand. The study of performance on neuropsychological tests, registration of ocular movements and the analysis of functional cortical activity will complete our multimodal approach. A better understanding of these disorders is expected to propose new drug treatment and rehabilitative strategies.
This protocol is designed to assess the utility of a new positron emission tomography (PET) radiopharmaceutical to image tau, [18F] JNJ067, invented by Janssen Pharmaceutical companies of Johnson & Johnson. To date, the radiopharmaceutical has been used in a small group of patients and controls (<20). The study plans to expand the range and number of subjects, to examine a total of 18 participants including controls and patients with Alzheimer's disease (AD) and other dementias. All patients will be recruited from the University of California, San Francisco (UCSF) Memory and Aging Center (MAC) and controls will be recruited from the University of California, Berkeley Aging Cohort Study (BACS). Patients will undergo a multidisciplinary clinical evaluation for diagnosis and a cognitive assessment at the MAC; controls will undergo the usual BACS cognitive assessment performed on the Berkeley campus. Following these evaluations UCSF subjects will undergo magnetic resonance imaging (MRI) scanning at the UCSF Neuroimaging Center and blood sampling for genetic testing also at UCSF, and BACS subjects will undergo an MRI at the University of California Berkeley 3T Brain Imaging Center (in Li Ka Shing hall on the Berkeley campus) and blood sampling for genetic testing at the time of the PET scan. All subjects will come to Lawrence Berkeley National Law (LBNL) where they will have, on the same day, a C-11 Pittsburgh compound B (PIB) PET scan to measure brain amyloid, and an F-18 JNJ067 PET scan to measure brain tau. These scans will be examined and analyzed by LBNL staff, and data will be processed to examine basic questions about the quantitative behavior of JNJ067. Scan results will not be returned to control subjects, but physicians at UCSF will receive scan results on MAC patients and will share results with participants. As part of this protocol, the investigators also plan to share the acquired data widely. All data will be de-identified. Data will be shared with the inventors (Janssen/Johnson & Johnson) as well as other scientists worldwide. As this is a new radio tracer, the investigators anticipate that there will be interest in seeing the actual data to answer questions about uptake and application of the method in future studies in many different laboratories. Shared data will include PET scans, MRI scans, genetic testing, and neuropsychological results.