View clinical trials related to Alzheimer's Disease.
Filter by:The main source of energy for the brain comes from a combination of oxygen and glucose (sugar). For brain cells to function normally they must receive a constant supply of these nutrients. As areas of the brain become more active blood flow into and out of these areas increase. In addition to oxygen and glucose, the brain uses chemical compounds known as phospholipids. These phospholipids make up the covering of nerve cells that assist in the transfer of information from cell to cell. Without phospholipids brain cell activity may become abnormal and cause problems in the nervous system. Certain diseases like Alzheimer's disease and brain tumors can affect blood flow to the brain and change the way the brain metabolizes phospholipids. In addition to diseases, changes in the brain occur with normal healthy aging. This study is designed to use PET scan to measure changes in blood flow and changes in phospholipid metabolism. Using this technique, researchers can improve their understanding of how certain diseases change the shape and function of the brain.
Some of the thinking difficulties of Alzheimer's patients may be due to a deficiency in a brain chemical called acetylcholine, which helps transmit messages between nerve cells. Nefiracetam is a new drug that stimulates acetylcholine. This study will test whether Nefiracetam can safely improve memory, thinking and activities of daily living in patients with mild to moderate intellectual impairment due to Alzheimer's disease. Patients in the study must have a caregiver and designated representative. Candidates will be given a medical history and physical examination that includes a complete neurologic and neuropsychologic evaluation, blood tests, and an electrocardiogram. A chest X ray and magnetic resonance imaging (MRI) test will be done on patients who have not had these tests within the previous two years. During the 20-week study, each patient will take three pills twice a day for twenty weeks of either Nefiracetame or placebo (sugar pill). Neither the patients nor the doctors will know which patients are getting the drug and which are getting the placebo. Blood and urine tests will be done frequently throughout the study. Patients will be asked to have a spinal tap (on a voluntary basis) to measure the levels of drug in the spinal fluid, and a PET scan (a brain imaging test). At the end of the study, patients who feel they are doing well with no side effects from the drug (or placebo) may be given the option of continuing treatment for another seven months. Animal studies showed that Nefiracetam improved learning impairment and memory in rats with dementia. In a small study of humans, about one-fourth of patients who were given a low dose of the drug had improved intellectual function, and about one-half who received a higher dose improved.
The purpose of this study is to use brain imaging technology to study the effects of aging and Alzheimer's Disease (AD) on a specific type of brain receptor. The brain is made up of cells called neurons. The neurons communicate with one another and secrete chemicals called neurotransmitters. The neurotransmitters bind to specific sites on other neurons called receptors. Acetylcholine (ACh) is a neurotransmitter that binds to ACh receptors. In both aging and AD, the number of neurons that secrete ACh decreases and the function of some ACh receptors changes. This study will use positron emission tomography (PET) scans of the brain to study the effects of age and AD on muscarinic type 2 [M2], a type of ACh receptor. Participants in this study will be injected with a radioactive tracer (ligand [F-18] FP-TZTP) which binds to [M2] receptors. Participants will then undergo a PET scan in order for the density and function of [M2] receptors to be studied.
Glutamate is an amino acid released by brain cells that acts to excite other cells. Glutamate attaches to special sites on cells called AMPA (alpha-amino-2,3-dihydro-5 methyl 3-oxo-4-isoxazolepropanoic acid) receptors. The brain cells responsible for releasing glutamate are damaged in Alzheimer's disease and other conditions affecting thinking and reasoning. Researchers would like to see if giving patients a drug that attaches to AMPA receptors improves the symptoms of Alzheimer's disease. CX516 (Ampalex) is a test drug that affects the AMPA receptors. This study will investigate the effectiveness and safety of CX516 on patients with Alzheimer's disease. Patients will be given capsules of CX516 or placebo (sugar pill that neither harms nor helps) for up to 16 weeks in different amounts. The effectiveness of the drug will be measured by neurological tests. Safety will be monitored by frequent check-ups and lab examinations.
The purpose of this study is to improve understanding of neurological conditions. Patients participating in this study will continue receiving medical care, routine laboratory tests, and diagnostics tests (X-rays, CT-scans, and nuclear imaging), from their primary care physician. Doctors at the NIH plan to follow these patients and offer advice and assistance to their primary care physicians.
The purpose of this study is to evaluate people with mild memory problems, those with dementia, those at risk for developing Alzheimer's disease (AD), and healthy volunteers to identify markers of AD before the changes that occur with the disease begin. The origin and markers of progression for Alzheimer's disease (AD) are relatively obscure. Despite increased understanding of the underlying biology of AD, its clinical diagnosis is still made only after progressive cognitive decline; definitive diagnosis is confirmed at autopsy. This study will examine biomarker changes over time in a distinct cohort of people with an increased risk of developing AD. The study will also identify and track biological changes that occur with progressive dementia and compare those changes to the known cognitive and emotional disturbances that characterize AD. Individuals with a first-degree relative with AD will be recruited into an at-risk cohort. They will be followed and compared to a group of healthy volunteers for a minimum of 8 years.
Alzheimer's disease is a condition marked by the deterioration of mental function. The disease usually begins in late middle life and results in death in 5 to 10 years. Patients with Alzheimer's disease typically suffer from memory loss, confusion, and disorientation. The condition has become a major medical and social problem in the United States because of the increasing number of people living beyond the age of 65. The actual cause of Alzheimer's disease is unknown. Researchers believe that Alzheimer's disease, or at least a portion of cases, may be an inherited condition. As a result, many new techniques have been developed to study the genetic causes of Alzheimer's disease and other neurological disorders. Many of these genetic techniques require blood samples and a family pedigree. A pedigree is a chart, similar to a family tree, that shows a patient's family history. The purpose of this study is to collect family and psychosocial information, blood, and biopsy samples from patients with neurological diseases, their families, and normal volunteers. This information gathered will be used to learn more about diseases that affect the brain.