View clinical trials related to Alzheimer's Disease.
Filter by:The prevalence of Mild Cognitive Impairment (MCI) is about 15%-17%. 10%-15% of MCI progresses to Alzheimer's disease (AD) every year. The annual incidence of MCI in the normal elderly is about 1%. is the key and difficult points in AD research. Except expensive brain β amyloid plaque imaging, few breakthroughs of early diagnosis technology of MCI due to AD can be made to facilitate clinical application. The purpose of this program is to study the reliability and validity of plasma miRNAs for early diagnosis of MCI due to AD. The clinical diagnosis of AD and MCI due to AD are according to the National Institute of Aging and the Alzheimer's Disease Association (NIA-AA) diagnostic criteria in 2011. [18F]-AV-45 plaque imaging is used to be golden criteria for the diagnosis of AD and MCI due to AD. Next, a pilot intervention study on APP/PS1 transgenic mice will be promoted based on miRNAs gene regulation.
To investigate the impact of a long-term light treatment intervention on sleep physiology and memory in mild cognitively impaired and mild Alzheimer's disease patients living at home. The goal is also to measure the impact of the lighting intervention on caregivers' sleep, cognition, depression, and quality of life.
Study is conducted to assess the prevalence and structure of comorbidity among patients undergoing abdominal surgery and produce the stratification of the risk of postoperative complications by identifying independent predictors for its development.
RATIONALE of the project. Adults with Down syndrome (DS) present severe sleep disorders that are under recognized by caregivers. Aging in DS population increases the prevalence of both Obstructive Sleep Apnea (OSA) and Alzheimer´s disease (AD) dementia at much higher rates than in the general population. AD increases the risk of sleep disturbances and OSA, which in turn worsen cognitive performance and behavioral function. Our hypothesis is that adults with DS and AD dementia will present a higher prevalence of sleep disorders (sleep disruption, sleep circadian disorders and OSA) than in DS without dementia. There are no data evaluating nocturnal sleep in adults with DS with AD dementia. The main objective is to evaluate the prevalence of sleep disturbances in adult subjects with DS and AD dementia, by means of subjective and objectives sleep measures.
Alzheimer's disease (AD) is the most common cause of dementia and currently has no disease modifying treatments or simple accurate diagnostic tests. The goal of this project is to study how tau (a protein thought to cause AD) is made, transported and cleared in the human body. Better understanding of these processes may lead to improved understanding of AD, earlier diagnosis and a way to evaluate treatment.
This is a first in human Phase 1 study in two parts with healthy volunteers receiving a single dose of PU AD in three small cohorts and a multiple ascending dose in two small cohorts.
The investigators assume that REST gene polymorphism affects REST protein concentration, and REST protein concentration in peripheral blood is related to cognitive function and hippocampus. In this current study, REST protein content and gene polymorphism will be obtained in peripheral blood in AD and normal control. The effect of REST gene polymorphism on REST protein concentration will be discovered.The relationship between REST protein concentration and cognitive function will be found, as well as the relationship between REST protein concentration and hippocampus.
This study aims to improve cognition and function in patients with Alzheimer's Disease (AD) by administering the oral antibiotic, Rifaximin. Rifaximin is a virtually non-absorbed antibiotic with the unique properties of lowering blood ammonia levels and altering gut microbiota. It is FDA approved for use in patients with hepatic encephalopathy. Rifaximin lowers blood ammonia by altering fecal flora by blocking bacterial RNA synthesis and also by increasing small bowel glutaminase. The Investigators hypothesize that rifaximin will improve cognition and function in AD patients by lowering blood ammonia and / or lowering circulatory pro-inflammatory cytokines secreted by harmful gut bacteria. The Investigators will enroll up to 10 subjects with probable middle stage Alzheimer's Disease. The subjects will be given rifaximin 550 mg orally twice daily for 3 months after evaluation to ensure they have no contraindications. Physician clinical and safety assessments, adverse events, as well as the ADAS-Cog-11 will be administered at baseline and at the 3 month endpoint and two months after stopping treatment (at month 5). Interim safety checks will occur via phone calls one week after baseline and then every 2 weeks till end point. Serum neuronal biomarkers, ammonia levels and pro-inflammatory and anti-inflammatory compounds will also be measured at those times. Bodily fluids (Stool samples) will also be collected. Because of a small risk of developing C. difficile up to 2 months following the last administration of rifaximin, the subjects will be followed for an additional 2 months after the 3 month treatment ends. Rifaximin is contraindicated in patients with hypersensitivity to rifaximin or rifamycin antimicrobials. Hypersensitivity reactions include exfoliative dermatitis, angioneurotic edema, and anaphylaxis. Clostridium difficile associated diarrhea is a risk whenever a patient is maintained chronically on antibiotics, with complications ranging from mild diarrhea to fatal colitis. Drug resistant bacteria can also result from long term use. There is increased systemic exposure to rifaximin in patients with severe hepatic impairment or in patients who are taking P-glycoprotein inhibitors concomitantly. Regarding use in geriatric patients, there were no reported overall differences in the safety of the drug when used in patients 65 years of age or over, when compared with younger subjects.
This Phase I clinical study is a randomized, double-blind, placebo-controlled, parallel-design study to thoroughly assess the safety profile and PK properties of J147 in healthy subjects. The study will include single ascending dose (SAD) in healthy young and elderly subjects.
This Phase II, multicenter, randomized, double-blind, placebo-controlled, parallel-group study will evaluate the clinical efficacy, safety, pharmacokinetics, and pharmacodynamics of semorinemab in patients with moderate AD. The study consists of a screening period, a double-blind treatment period, an optional open-label extension (OLE) period, and a safety follow-up period. There may be up to two study cohorts.