View clinical trials related to Alzheimer Disease.
Filter by:This study will evaluate whether visual interpretation of flortaucipir-PET (positron emission tomography) scans, examining patterns of tracer uptake at baseline, can predict the rate of clinically-meaningful cognitive decline due to AD after 18 months. All scans are acquired from cohorts of a previously completed study, I8D-MC-AZES (NCT02245737, lanabecestat, Eli Lilly and Company sponsor).
This study will evaluate the performance of physician readers trained to read flortaucipir-PET (positron emission tomography) scans.
The purpose of this study is to determine how well a blood test can detect amyloid beta, a protein involved in Alzheimer's disease. Participants will be asked to complete an initial blood collection and cognitive testing, and a subset of participants will be asked to complete a larger blood collection, amyloid PET imaging, and an MRI.
The purpose of this study is to assess the tolerability and preliminary efficacy of an 8-week home-based vestibular physical therapy program in people with cognitive impairment.
The DELPhi system is a software device that is used for the noninvasive evaluation of brain plasticity and connectivity. The DELPhi software uses EEG and TMS devices as accessories. Standard electro-physiological acquisition is performed using TMS to evoke regional neuronal potentials measured as EEG data. TMS-EEG data is analyzed with regards to conventional, well established characteristics of neuronal network plasticity and connectivity.
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.
Prospective study on patients enrolled in the ReCODE treatment protocol
This is a Phase IIa study assessing the safety, tolerability and preliminary efficacy of ORY-2001 in mild to moderate Alzheimer's Disease patients.
Alzheimer disease is a frequent disease in the late ages that results in global alteration of cognitive functions. In which memory complaint can be isolated in the early stages. Physiopathology of neuronal degenerescence in Alzheimer disease is complex, two main histological lesions are known, amyloid plaques and neurofibrillar tangles. Beyond the histological knowledge, alterations of neuronal metabolism are described such as oxydative phosphorylation and glycolytic pathway. These metabolism alterations are involved in neuronal death. Multi-nucleus magnetic resonance spectroscopy is a non-invasive non-irradiant imagery technique already used in routine. This technic allows the phosphoenergetic pool assessment, that inform about cellular metabolism. The aim of the study is to explore the phosphorylated metabolism patterns as predictive biomarkers of cognitive decline in patients with a memory complaint diagnosed.
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.