View clinical trials related to Memory Disorders.
Filter by:In this phase I-II parallel design, randomized, double-blind clinical trial we will determine if 3,000 or 30,000 units ingested hrIFN-a prevents deterioration of cognitive functioning in patients with dementia of Alzheimer's type (AD) and whether ingested hrIFN-a treatment decreases acute phase reactants and pro-inflammatory cytokine IL-6 in mild to moderate AD. We predict that the novel anti-inflammatory agent ingested human recombinant interferon alpha (hrIFN-a) will modulate inflammation and inhibit the natural history of AD progression. If you are eligible, you will receive Aricept for 5 weeks (donezepil) and thereafter in addition to Aricept either placebo (inactive substance) or interferon alpha at 3,000 or 30,000 units every day for 12 months.
The purpose of this study is to examine how a part of the brain called the hippocampus contributes to memory changes that occur with aging and Alzheimer's disease (AD). Memory problems are the most important early symptoms of AD. The hippocampal region of the brain may be responsible for many age- and AD-related memory disorders. This study will use magnetic resonance imaging (MRI) scans to examine the structure, chemical composition, and function of the hippocampus in participants with AD, participants with mild memory problems, participants who are healthy but are at risk for AD, and healthy volunteers. Participants in this study will undergo MRI scans of the brain. During the MRI, participants will perform memory tests to demonstrate hippocampal functioning.
Preventing dementia is an important goal for our aging population. This proposal is an initial 42 months study of the effect of standardized ginkgo biloba extract (GBE) on preventing or delaying cognitive decline in people age 85 years or older (the oldest old). The study focuses on the oldest old who present a distinct advantage for primary prevention studies because of their particularly high risk for developing mild cognitive impairment (MCI), a precursor to dementia. Because this is a population that has previously been out of the mainstream for use of alternative medicine, the safety of GBE in this age group will also be tested in this study. The study is randomized, placebo controlled and double blind. Approximately 200 elderly cognitively healthy subjects will be enrolled and followed for detection of conversion to MCI. This pilot study is viewed as a necessary first step in order to demonstrate that GBE, an alternative or complementary therapy, has a disease modifying effect on the brain, distinct from a symptomatic effect. The study will test the feasibility of the randomized start design, a trial design proposed as a method for discerning brain- or disease- modifying from symptomatic effects. The magnitude of biological effect of the treatments will also be assessed with volumetric quantitative MRI, a complementary means of confirming whether there is a brain modifying effect (measured as a decrease in brain volume loss with treatment). Peripheral markers of oxidation status will measure possible anti-oxidant effects of GBE.
This project is designed to study whether anti-inflammatory drugs, such as celecoxib, may delay age-related mental decline. We are also looking at genetic risk and brain structure as potential predictors of mental decline. We believe people with age-associated memory impairment who take celecoxib will show less evidence of mental decline than those receiving placebo (an inactive pill) after 18 months. We expect that brain structure at the start of the study, memory performance as indicated by tests, and age will be additional predictors of mental decline. We also predict that cognitive decline (i.e., decline in thinking and memory) and treatment response will vary according to genetic factors that may correlate with the age at which dementia begins. We believe other variables such as prior educational achievement, memory capability at the outset of the study, and gender may influence mental decline and treatment response. We will study people with age-associated memory impairment (mild memory complaints, decreased performance in selected memory tests), between 40 and 90 years of age. The subjects will be randomly (i.e., by a process similar to flipping a coin) assigned to treatment groups. The subjects will receive either an inactive substance (placebo) or celecoxib (400 mg/day). The subjects will receive a magnetic resonance imaging (MRI) scan, FDG PET scan, routine laboratory blood tests, electrocardiogram and cognitive tests. They will be followed for approximately 18 months and asked to return at specific intervals for follow-up testing. Measures of brain structure will be derived from baseline MRI scans and metabolic activity from PET scans, and blood will be drawn and tested to determine which forms (genotypes) of certain genetically determined cellular components the patient has.
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.
AIT-082 is a novel small molecule that crosses the blood-brain barrier to enhance nerve function by increasing levels of neurotrophic growth factors and encouraging nerve sprouting in the brain. Preclinical studies in animals have shown that AIT-082 improves memory in aged animals and in animals with neurological deficits. This study was a double-blind placebo-controlled safety study that was designed to study whether AIT-082 may delay age-related mental decline. Eight healthy older volunteers at two clinical sites were given single, weekly, rising doses of AIT-082 or placebo for 5 weeks; were tested for side effects and absorption; and underwent a battery of neuropsychological memory tests, including word and number recall tests.
This is a three-year study to determine if estrogens can prevent memory loss and Alzheimer's disease in women with a family history of Alzheimer's disease.