MW150 Stress Kinase Inhibitor in Mild to Moderate Alzheimer's Disease
Alzheimer DiseaseThis study is a phase 2a randomized double-blind, placebo-controlled, study, in mild-to-moderate Alzheimer's disease, of the oral investigational drug MW150, a p38alphaMAPK kinase inhibitor. The primary goals of this study are to investigate the safety and tolerability, and drug movements in the body. The secondary goals of the study are to investigate the effects of the drug on cognitive performance, activities of daily living, and behavior, and the biological effects of the drug on blood biomarkers.
Modelling Tau Distribution From DTI With Generative Adversarial Network for Alzheimer's Disease...
Alzheimer's Disease DiagnosisThe most significant impact of this project is to propose for the first time a novel generative adversarial network (GAN), as one kind of deep learning architecture, to automatically generate synthetic PET images reflecting tau deposition, from brain DTI images. If successful, this framework will become the most state-of-the-art approach to simulate the stereotypical pattern of intracerebral tau accumulation and distribution in vivo. Synthetic tau-PET images via DTI, possessing overwhelming superiority in radiation-free, non-invasiveness and cost-effectiveness, will potentially serve as one of alternative modalities of PET in detecting tau-load and probably outperform PET on accessibility, generalizability, and availability in future, making it much more attractive in clinical application. A big conceptual shift may occur preferring a fire-new tau-PET simulated via DTI. The DTI data-driven deep learning framework to be created in this project will constitute an accurate, robust, clinically applicable and explainable tool to efficiently categorize the subjects into tau-burden positive and tau-burden negative cases, which will undoubtedly contribute to both clinical and research activities.
SNIFF - 3-Week Aptar CPS Device
Mild Cognitive ImpairmentCognitive Impairment2 moreThe SNIFF 3-Week Aptar Device study will involve using a device to administer insulin or placebo through each participant's nose or intra-nasally. Insulin is a hormone that is produced in the body. It works by lowering levels of glucose (sugar) in the blood. This study is measuring how much insulin the device delivers. In addition, this study will look at the effects of insulin or placebo administered intra-nasally using an intranasal delivery device on memory, blood, and cerebrospinal fluid (CSF).
Application of Multi-probe PET/MR Imaging in the Diagnosis and Evaluation of Alzheimer's Disease...
Alzheimer DiseasePET/MRAlzheimer's disease (AD) is the most common cause of cognitive impairment, and its diagnosis requires a comprehensive analysis of the results of medical history, neuropsychological evaluation, imaging and laboratory tests. Among them, it has been widely recognized that amyloid PET imaging is used in the early diagnosis of AD, tau protein PET imaging is used in the assessment of the progression of AD, and the glucose metabolism PET imaging is used in the assessment of nerve damage. MRI can provide structure, blood perfusion, neural network connection damage and other information through multi-sequence scans. With the help of the PET/MR multi-modal imaging platform and multi-probe imaging technology, it can provide more sensitive and accurate imaging information for early diagnosis and disease assessment of AD, and provide a basis for clinical treatment decision-making.
Recognizing Pain Intensity in Alzheimer's Disease
Alzheimer DiseasePain1 moreThe most common form of dementia is Alzheimer's disease, with 900,000 people affected in France in 2015 and a forecast of 1.3 million in 2020. As a consequence of their advanced age, dementia patients often suffer from pain, mainly musculoskeletal or neuropathic pain. However, the exact prevalence of pain in dementia is underestimated. Indeed, several studies indicate that people suffering from dementia report less pain. This phenomenon is all the more true as the stage of dementia is advanced. In addition, people with dementia receive less pain medication than people without cognitive impairment in similarly painful conditions. Hetero-evaluation alone also seems insufficient, with the result that pain is under-treated compared to patients without cognitive impairment. Better pain screening is a major challenge and self-assessment tools should be favoured as a first line of treatment, even for patients with cognitive impairment. suffering from dementia. The investigators propose in this work to evaluate the variation of vegetative parameters that accompany a painful stimulus. These variations can be recorded at the cardiac, vascular, pupillary or skin conductance level.
Detection of Alzheimer's Disease (AD)-Related Seeds for AD Diagnosis
Alzheimer's DiseaseThe study will investigate the biomarkers of Aβ and Tau seeds in plasma detected by Alzheimer's disease (AD) related seeds quantitative detector (AD-seeds-detector), and their sensitivity and specificity in diagnosing AD, compared with those from age-matched cognitively normal controls, and those with other types of dementia. To perform a high throughput analysis of the amount of Aβ and Tau seeds, the investigators have developed an AD-seeds-detector, in which a fluorescence microplate reader was combined with an oscillating mixer or water-bath-type ultrasonicator.
The Synapse Project
Alzheimer DiseaseThe overarching goal of this project is to use [C-11]UCB-J to obtain spatial information on neuronal synapse abundance and inform Alzheimer's disease (AD) progression. The investigators propose to collect longitudinal amyloid, tau, and Synaptic vesicle glycoprotein 2A (SV2A) positron emission tomography (PET) in participants in the Wisconsin Alzheimer's Disease Research Center (ADRC) and Wisconsin Registry for Alzheimer's Prevention (WRAP) across the clinical stages of AD, including cognitively unimpaired biomarker negative, unimpaired biomarker positive, mild cognitive impairment (MCI), and dementia due to AD.
Investigation of Inflammation Using [C-11]-CS1P1
Alzheimer DiseaseThere is a compelling need for a noninvasive imaging approach to measure S1P1 in both preclinical models of diseases and humans. PET measures of S1P1 expression is critical for elucidating the pathophysiological roles of S1P1 in neuroinflammation and neurodegeneration. The relevance of S1P1 in clinical disease has become readily apparent with the FDA approval of the S1P1 modulator FTY720 (fingolimod) for treating relapsing-remitting MS (RR-MS). MS is a chronic autoimmune, inflammatory disease caused by lymphocytic infiltration that leads to demyelinating neurodegenerative disease. The primary objective of the initial IND study is to determine the safety of the [11C]-CS1P1 for PET imaging of S1P1 expression. The investigators will first complete whole-body PET dosimetry studies in healthy adult normal volunteers to calculate the actual radiation dose of each human organ and determine the allowable dose for a human subject when receiving a single dose for a PET scan. Second, complete imaging of the brain and lymph nodes of the neck in a wide range of ages of healthy adult normal control participants, both male and females to characterize [11C]-CS1P1 uptake in the brain and radiolabeled metabolite will be completed. Finally, a comparison of the normal control participants to patients with multiple sclerosis (MS) will be completed.
TAS Test: Online Motor-cognitive Tests for Early Detection of Alzheimer's Disease
Alzheimer DiseaseDementia1 moreGlobal dementia prevalence is rising. Alzheimer's disease (AD), the most common cause, has devastating effects on people's quality of life. AD has a preclinical (pre-AD) period of 10-20 years when brain pathology silently progresses before any cognitive symptoms appear. Current tests for pre-AD are invasive, costly and unsuitable for screening at population level. Similar to screening for pre-diabetes and carcinoma in situ, it is important to detect AD at the preclinical stage in order to offer early interventions before the pathology progresses to the irrerversible degenerative stage. In the study, research will develop a new scalable test (TAS Test) by combining two innovative ideas: hand-movement tests to detect pre-AD >10 years before cognitive symptoms begin; and computer vision so people can "self-test" online using home computers. This unique approach builds on recent discoveries that hand-movement patterns change in pre-AD. The research team will use exquisitely precise computer vision methods to automatically analyse movement data from thousands of participants, and combine this with machine learning of overall motor-cognitive performance. The project team has access to 3 well-phenotyped cohorts, >10,000 existing participants and a cutting-edge assay for a blood AD biomarker, ptau181. The research team will develop a TAS Test algorithm to classify hand-movement and cognitive test data for pre-AD risk (p-taua181 levels) and determine TAS Test's precision to prospectively predict 5-year risks of cognitive decline and AD.
Study to Evaluate the Safety and Efficacy of AstroStem in Treatment of Alzheimer's Disease
Alzheimer DiseaseThis is a phase 2b randomized, double-blind, Placebo-controlled study with 2 treatment arms, to compare the efficacy and safety of AstroStem vs. Placebo treatment in patients with mild Alzheimer's Disease(AD). Eligible patients diagnosed with AD within one year of the start of treatment will be enrolled. Patients who are randomized into the treatment group will be administered via intravenously AstroStem every 4 weeks from Week 0 to Week 36. On the other hand, patients who are randomized into the placebo control group will receive Placebo every 4 weeks from Week 0 to Week 36. After the final administration, patients will be scheduled for two follow-up visits, at Weeks 44 and 52, to assess efficacy and safety endpoints.