View clinical trials related to Supranuclear Palsy, Progressive.
Filter by:The goal of the Speech Accessibility Project at the University of Illinois Beckman Institute (https://speechaccessibilityproject.beckman.illinois.edu) is to collect, annotate, and curate a shared database of speech samples from people with atypical speech, and share this data set with researchers at other organizations. This two-year project plans to collect 1,200,000 speech samples from 2,000 people, each of whom will provide 600 samples. In Year 1, the initial focus will be people with Parkinson's. In Year 2, four more etiologies of interest will be recruited: Amyotrophic Lateral Sclerosis (ALS), Cerebral Palsy (CP), Down Syndrome (DS), and Stroke. UIUC will build an open-source software infrastructure to collect annotated speech samples and share these data in an appropriately secure fashion with researchers from our partner technology companies (and eventually, other organizations as well) so that they can use these data to improve their automatic speech recognition algorithms. This project promotes diversity, equity, and inclusion by helping technology companies to fully support all types of speech, and it is also more efficient and less burdensome for these specialized patient populations to have one centralized "collector" of speech samples.
The study will be conducted by the Sponsor to evaluate the efficacy and safety of GV1001 (0.56 mg and 1.12 mg) administered subcutaneously as a treatment for Progressive Supranuclear Palsy, (PSP). In 75 patients diagnosed with PSPR Richardson(PSP-RS) or PSP-Parkinsonism (PSP-P) at five hospitals in Korea, subcutaneous administration of GV1001 0.56 or 1.12 mg/day will be conducted with multicenter, randomized, double-blind, placebo-controlled, parallel design, prospective phase 2a.
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.
The purpose of this cohort study is to develop a reliable biomarker in progressive nuclear palsy (PSP).
There is an urgent need for the development of digital progression biomakers, which are sensitive to detect small, but potentially clinically relevant changes in the disease course. Digital biomarkers are based on (i) continuously collected real-time data, during the patient's day to day activities; and (ii) task-based assessment. In this study the investigators are interested in developing algorithms for the detection of disease progression in PSP patients in key clinical parameters: bradykinesia, gait, rising from a chair and falls, based on (i) sensor data obtained by means of passive monitoring during daily living; and (ii) sensor data collected during the Virtual Motor Exam.
To perform a prospective cohort study with [(18)F]fluoroethoxybenzovesamicol (FEOBV) brain PET at baseline and 2-year follow-up in PD subjects at risk of conversion to non-episodic and episodic (falls and FoG) PIGD motor features and cognitive changes at the same time points.
Tau protein has been identified as one of the key pathological features of Tau proteinopathies, such as Alzheimer's disease (AD), progressive supranuclear palsy (PSP), frontotemporal dementia (FTD). Tau protein-targeted PET imaging can detect the amount and distribution of Tau protein deposition in human body, and has great research and application value in the diagnosis and evaluation of Tau protein disease. This study will be the first to introduce a complete quantitative, repeatable detection and analysis method in China. For the SV2a tracer [18F]MNI-1126, cross-sectional evaluation of its imaging in patients with Tau protein-related diseases and normal controls will be carried out. Later, longitudinal clinical symptoms and two tracers will be evaluated in patients with Tau protein-related diseases and normal controls.([18F]APN1607 and [18F]MNI1126) Imaging follow-up to explore longitudinal changes in brain Tau protein deposition and synaptic density in Tau protein-related diseases, thus providing support for future clinical drug trials using imaging biomarkers.
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.
The overall goal of this protocol is to evaluate the imaging characteristics of [18F]PI-2620 using positron emission tomography (PET) in patients with progressive supranuclear palsy, Richardson's syndrome (PSP-RS)
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.