View clinical trials related to Tauopathies.
Filter by:The current protocol is to determine the biodistribution, metabolism, excretion and brain uptake of 11C-M503. The goal of this radiotracer is to quantify alpha-synuclein that is abnormally deposited in the brain of people with Parkinson's disease (PD). Investigators will compare uptake in participants with PD versus participants with multiple system atrophy (MSA) and progressive supranuclear palsy (PSP), as well as non-Parkinsonism volunteers. This multicenter project funded by an NIH U19 grant, is centered at U Pennsylvania (Penn, Grant PI: Robert Mach) in collaboration with U Pittsburgh (Pitt) (non-clinical site) Yale U, U of California at San Francisco (UCSF) and Washington University in St. Louis (WU). The University of Pennsylvania will act as the sIRB for this multi-center human subjects project and participants will be recruited from all sites.
This current protocol will provide the key data to help determine the specificity of our to-be-developed radiotracers by implementing a multi-site diagnostic assessment core and PET imaging of A-beta amyloid (may be completed at some sites as part of another protocol) that is commonly deposited in the brains of people with Parkinson's Disease (PD), Multiple System Atrophy (MSA), Progressive Supranuclear Palsy (PSP) or Frontotemporal Dementia (FTD) as well as healthy controls. This multicenter U19 grant is centered at U Pennsylvania (U Penn) (PI: Robert Mach) in collaboration with U Pittsburgh (Pitt), Yale University, U of California at San Francisco (UCSF) and Washington University in St. Louis (WU). U Penn will act as the single IRB of Record (sIRB) for this multi-center project and subjects will be recruited from all sites.
The current protocol is to determine the biodistribution, metabolism, excretion and brain uptake of 11C HY-2-15. The goal of this radiotracer is to quantify alpha-synuclein that is abnormally deposited in the brain of people with Multiple System Atrophy (MSA). The investigators will compare uptake in people with MSA with people with Parkinson disease (PD) and progressive supranuclear palsy (PSP) as well as healthy volunteers. This multicenter project funded by an NIH U19 grant, is centered at U Pennsylvania (Penn, Grant PI: Robert Mach) in collaboration with U Pittsburgh (Pitt) (not a clinical site), Yale U, U of California at San Francisco (UCSF) and Washington University in St. Louis (WU). The University of Pennsylvania will act as the sIRB for this multi-center human subjects project and participants will be recruited from all sites.
The goal of this Phase 2 Open Label study is to evaluate long-term safety, tolerability, and efficacy of XPro1595 on measures of cognition, function and brain quality in individuals with Alzheimer's Disease.
The reason for this study is to assess the safety and efficacy of donanemab in participants with early Alzheimer's disease. The study duration including screening and follow-up is up to 93 weeks.
Alzheimer's disease (AD) has gradually become one of the major global public health issues due to its prevalence, which increases with age and life expectancy, and the economic cost of caring for patients whose cognitive decline progressively leads to loss of functional autonomy. The diagnosis of AD is based on a multidisciplinary approach, involving, among other things, evaluation of the medical history together with clinical symptoms and signs, neuropsychological tests and neuroimaging. The quantification of cerebrospinal fluid (CSF) core biomarkers (amyloid beta peptides [Ab1-40 and Ab1-42], total tau [t-tau] and its phosphorylated form on threonine 181 [p-tau(181)]) has progressively proven utility for the diagnosis of AD and its prodromal forms. CSF biomarkers are now included in international guidelines for the diagnosis of AD in research settings and clinical practice and the Alzheimer's Association appropriate use criteria for the use of lumbar puncture and CSF testing in the diagnosis of AD have been published. Such biochemical diagnostics are currently implemented in many specialized centers around the world. Recent progress in the biological diagnosis of AD is considerable, with the possibility, thanks to ultra-sensitive tests realized notably with the SIMOA technology, of having Ab1-40, Ab1-42, t-tau and p-tau(181) also detectable in the blood using commercial kits. The performance for AD detection has been evaluated by many groups including on retrospective samples. It is now essential to evaluate the interest of blood-based biomarkers of AD, prospectively and in real life condition to confront them with pre-analytical and analytical variabilities. It is also important to position them in relation to CSF analysis and AD management, from risk assessment, diagnosis, to therapeutic strategies.
The goal of this Phase 2 Alzheimer's study is to determine whether 1.0 mg/kg XPro1595 confers a benefit on cognition, function, and biomarkers of white matter and to further evaluate safety and tolerability. The objectives of this study are to determine the safety, tolerability, and efficacy of XPro1595 in patients with early ADi.
This is a non-interventional observational study designed to systematically record the results of routine laryngeal examinations and specific characteristics of dysphagia in patients with multiple system atrophy (MSA), Parkinson's disease (PD) and progressive supranuclear palsy (PSP) and related 4repeat tauopathies. The results of a fiberoptic / flexible endoscopic evaluation of swallowing (FEES) while performing a structured task protocol will be recorded. If available, laryngeal electromyography (EMG) results will also be recorded. In addition to the examination results, demographic and disease-specific data are collected, and two questionnaires, the Swallowing Disturbance Questionnaire for Parkinson's Disease (SDQ-PD) and the swallowing specific Quality Of Life Questionnaire (SWALQOL), are administered.
Parkinson's disease (PD) is one of the most common neurodegenerative disorders. The diagnosis of PD is primarily based on clinical presentations while the pathology stage of a-synuclein containing Lewy body deposition has already advanced. In addition to PD, there is another group of patients presenting with parkinsonism features mixed with other neurodegenerative symptoms. Pathologically, patients with these PD-mimicking parkinsonism syndromes, such as progressive supranuclear palsy (PSP), corticobasal degeneration disorders (CBGD) and frontotemporal dementia (FTD) with/without parkinsonism, have 4 repeat paired helical filament forms of tau protein (4R PHF-tau) aggregations in the neurons. Patients with these tauopathy related parkinsonism-plus syndromes could initially present as PD symptoms but will have a more deliberating disease course and combine with other systems degeneration. These patients are often a substantial diagnostic challenge to clinicians. Therefore, there is an urgent need to develop reliable imaging and biofluid biomarkers for differentiating patients with PD and variable parkinsonism-plus syndromes. Recently, new generation of novel radiotracer 18F-PMPBB3 (APN-1607), which can be labeled with 4R PHF-tau without significant off-target binding, has been successfully developed. Therefore, this study will enroll 150 participants, including 30 healthy controls, 30 PD patients, and 60 patients with different parkinsonism-plus syndromes (including 10 patients with multiple system atrophy, 10 patients with progressive supranuclear palsy, 10 patients with cortical basal syndrome and 30 patients with frontotemporal dementia), and 30 patients with mild cognitive decline (MCI) or Alzheimer's disease (AD). All participants will receive complete neurological examination, 18F-PMPBB3 (APN-1607) PET, brain MRI scans, plasma markers for total/phosphorylated tau, a-synuclein and Ab42/Ab40 and genetic markers covering MAPT、SNCA、LRRK2、GBA and APOE genes. We aim to explore: 1. Whether 18F-PMPBB3 (APN-1607) can differentiate patients with tauopathy (PSP, CBGD, FTD, MCI and AD) and synucleinopathy (PD, MSA). 2. Whether the distribution of tau deposition detected by 18F-PMPBB3 (APN-1607) correlate to disease severity, progression, and prognosis in patients with tauopathy. 3. Whether the loading of tau deposition detected by 18F-PMPBB3 (APN-1607) correlate to plasma levels of total/phosphorylated tau. 4. Determine specific genetic susceptibility sub-groups are more vulnerable to tau deposition detected by 18F-PMPBB3 (APN-1607) in patients with tauopathy. The research results will help to understand the potential of 18F-PMPBB3 (APN-1607) as an imaging biomarker for diagnosis, severity and therapeutic assessment tool for patients with tauopathy.
Background and objects Amyloid plaques and tau protein are the landmarks of neurodegeneration in Alzheimer's disease (AD). On the other hand, it is reported that cerebral ischemia may induce amyloid plaques and tau protein accumulation. However, it was difficult to in vivo disentangle the complex and dynamic interactions between AD pathophysiology and cerebral vascular injury during the post-stroke cognitive impairment development in the past. With the advent of novel radiotracers specific to cerebral amyloid plaques and tau protein, we aim to conduct a prospective multimodal neuroimaging cohort study to investigate the contribution of vascular injury, amyloid plaque and tau protein to cognitive impairment. Subjects and methods The prospective project plans to recruit patients with vascular cognitive impairment (VCI) (Group A, n=80), Alzheimer's disease/mild cognitive impairment (MCI) (Group B, n = 120), fronto-temporal dementia (FTD) (Group C, n =30), and progressive supranuclear palsy (PSP) (Group E, n = 80). In addition, another 30 healthy people will be recruited as the control group (Group D, n=30). [18F]AV45 and [18F]MNI-958(PMPBB3) PET will be done for imaging cerebral amyloid plaque and tau protein distribution, brain MRI for obtaining structural and functional information, and neuropsychological tests for cognitive performance. Cognitive evaluation will be repeated 18 months after recruitment. In addition, APOE genotyping will be performed as well. By obtaining the neuroimaging information, such as severity of white matter change and infarction, cortical and hippocampal atrophy, and SUVRs of [18F]AV-45 and [18F]MNI-958(PMPBB3) PET, the study will be able to investigate the composite influence of cerebrovascular disease and neurodegenerative pathology on the trajectory of cognitive impairment. Group comparisons will be performed using the Chi-square test, independent t test, Mann-Whitney U test, ANOVA test, and multiple linear regression, where appropriate. Anticipation In this project, we will be able to explore the distribution patterns of amyloid plaque and tau protein among dementia patients with different etiologies, and also evaluate their influence on cognition