View clinical trials related to Alzheimer Disease.
Filter by:This project aims to produce a solution for the rising incidence of dementia. This is particularly pertinent in Tasmania, Australia, with a rapidly ageing population and the oldest demographics of all Australian states. The team will develop TapTalk, a new screening test that detects risk of Alzheimer's disease (AD) pathology. TapTalk, will record a person's hand movements and speech patterns with a smartphone. Computer algorithms will learn which patterns of data are associated with AD pathology. This innovative test is based on: (i) emerging research that fine motor control required for hand and speech movements is sensitive to early AD pathology and (ii) the investigators' new machine learning methods.
The goal of this clinical trial is to test whether vaccination with the BCG vaccine may improve the blood level of a biomarker of Alzheimer's disease (AD) in participants who are cognitively- and functionally- intact elderly (70-80 years old) participants, who display pathologically high levels of the blood biomarker. The main questions it aims to answer are: - Does BCG vaccination lower the plasma level of phosphorylated Tau protein (p-tau181). - Do vaccinated participants remains stable cognitively. Participants will be asked to: - Undergo cognitive and behavioral evaluation. - Receive 3 BCG vaccinations over the course of 1 year. - Perform blood tests on several occasions. All participants will be treated and followed.
The purpose of this research is to further investigate the potential of brain stiffness as a novel biomarker for Alzheimer's disease.
Years before someone experiences the symptoms of Alzheimer's disease, a compound called amyloid beta (Aβ) builds up in the brain. Excess Aβ - directly or indirectly - causes many of the symptoms of Alzheimer's dementia. However, recent studies of the FDA-approved drugs lecanemab (Leqembi®) and aducanumab (Aduhelm®) indicate that removing Aβ from the brain doesn't stop Alzheimer's. Clearly, there are other problems that need to be fixed. The investigators are interested in the cause of Aβ buildup. Non-neuronal support cells, called glia, keep neurons healthy by regulating water and nutrient levels for the neurons. They also help clear Aβ away from neurons. Maybe Aβ builds up when glia are unhealthy. Glia are very hard to study in the brain. Luckily, the light-sensing part of the eye - the retina - is an extension of the brain. The investigators study glia in the retina to learn about glia in the brain. To study retinal glia, the investigators take pictures of the retina with optical coherence tomography (OCT). OCT is safe, painless, and is used in many eye clinics to look at the structure of the retina. When the investigators take OCT pictures under a bright light, and compare those to OCT pictures collected in darkness, it gives the investigators information about glial function. In a study published in 2020 ("Optical coherence tomography reveals light-dependent retinal responses in Alzheimer's disease") the investigators showed that this functional OCT measurement was different in people with Alzheimer's dementia, compared to age-matched healthy adults. The goal of this observational study is to compare people at a pre-dementia stage of Alzheimer's disease to people who do not have any signs at all of Alzheimer's disease. By "pre-dementia stage", the investigators mean people who are either cognitively normal, or have mild cognitive impairment, but have had a medical test that shows the chemical beginnings of Alzheimer's disease. Members of the comparison group will also be cognitively normal, or have mild cognitive impairment, but had a medical test that shows utterly no signs of Alzheimer's disease. The main question this study, is whether functional OCT can tell these two groups apart. If so, that would: - Help build the case for glial health being important in the earliest stages of Alzheimer's, which in turn could lead to new treatment strategies, and - Suggest that functional OCT might be used as an early (pre-dementia) screening test for Alzheimer's disease Participants will: - undergo a brief eye exam (the investigators will not dilate pupils for this study) - undergo a paper-and-pencil cognitive test (to help verify "normal" or "mild cognitive impairment" status) - take brief one-page survey to collect demographic information (like age) - permit limited access to pre-existing medical or research records (to verify the presence/absence of the chemical beginnings of Alzheimer's disease) - take several OCT pictures of both eyes, in light and after 2 minutes of darkness (several rounds of images are taken) The expectation is that all study procedures will fit within 2 hours of one day.
The investigators will determine if heat therapy can improve blood (Aim 1) and brain (Aim 2) glucose metabolism in cognitively healthy older adults (65+) who are at risk for AD. The investigators will also examine the degree to which changes in blood and brain glucose metabolism track together and explore several additional potential mechanisms that are critical to understanding the brain benefits of heat therapy (Aim 3). These aims will provide a comprehensive understanding of the impact of heat therapy on whole body metabolic function and brain health.
This single-center, uncontrolled pilot study aims to evaluate the efficacy, safety, and tolerability of six months of intermittently dosed oral rapamycin (sirolimus) in subjects with early-stage Alzheimer's disease. Fifteen participants will be recruited. Following a set of baseline measurements, all participants will receive a weekly oral dose of 7 mg rapamycin for six months. Participants will be continuously monitored for safety and side effects. At the termination of the treatment, follow-up measurements will be taken. The primary endpoint will be change in cerebral glucose metabolism, measured using 18F labeled fluorodeoxyglucose ([18F]FDG) positron emission tomography (PET). In addition to the registered outcome measures this pilot trial will explore the feasibility of acquiring data on the effect of sirolimus treatment on age-related tissue changes in the body using a variety of imaging modalities, such as bone mineral density assessed using quantitative computed tomography, retinal structures assessed using optical coherence tomography, periodontal tissue assessed using MRI and FDG-PET, cardiac function assessed using MRI, vessel wall in large arteries using MRI and [18F]FDG PET.
The goal of this observational trial is to leverage the electronic Self-Administered Gerocognitive Examination (eSAGE), a variety of metadata (a set of data that describes and gives information about other data) collected during eSAGE testing, electronic health records (EHR) information, and advanced machine learning (ML) techniques to develop a new tool that can aid in early-stage prediction of individuals with cognitive impairments.
To explore the efficacy and safety of near infrared light therapy for Alzheimer's disease. Each subject will be numbered and their medical records will be established. The subjects will be randomly assigned to the treatment group or the control group for 30 minutes/day (5-6 days a week) for 4 months while the treatment group is active settings and the control group is sham settings.Follow-up visits will be conducted at 2 months, 4 months and 2 months after treatment. At each follow-up, scale assessment, blood, MRI, and EEG were observed
The aim of this clinical study is to examine the effect of an intervention program developed for informal caregivers of Alzheimer's patients on caregivers' burden of care, psychological well-being and psychological resilience.The main questions it aims to answer are: 1. What is the effect of the Structured Caregiver Support Program (SCSP) on caregivers burden? 2. What is the effect of the SCSP on psychological well-being? 3. What is the effect of the SCSP on psychological resilience? Participants (intervention group) will attend at least 6 sessions of an 8-session SCSP. Researchers will compare with the control group to see if the training provided is effective.
This is a Phase 3 global, multicenter, 52-week, open-label extension (OLE) rollover study for subjects completing study CN012-0026 or CN012-0027. Subjects (randomized or non-randomized) who complete the 38-week CN012-0026 or CN012-0027 study will be eligible to enroll in CN012-0028. The primary objective of the study is to assess the long-term safety and tolerability of KarXT in subjects with psychosis associated with Alzheimer's Disease.