View clinical trials related to Mild Cognitive Impairment.
Filter by:Dementia is serious problem and around 700 000 people are affected in the UK alone. Currently there is no cure however early diagnosis and effective treatment offers hope for reducing the impact. Dementia sufferers require care due to physical disability, cognitive deficits, social isolation and emotional symptoms (depression). Delaying the onset of dementia will improve quality of life for patients and reduce the cost of residential care (£42 000 per person per year). People with mild cognitive impairment (MCI) are at high risk of developing dementia. They have impaired cognitive abilities, such as memory, but still manage their everyday activities. Studies show that 8 out of 10 people with MCI will have developed dementia 6 years after diagnosis. Regular physical activities and performing a variety of cognitive activities reduce the risk of dementia and improves abilities and quality of life in healthy people. Therefore a combination of these activities may reduce the risk of developing dementia in MCI. The investigators want to see if they can develop a program which combines these activities in a fun and social way that gets people active and keeps them active. The aims are to improve fitness, cognition and quality of life. The investigators plan to use computers and the internet to help with the activities and to make them available to people who are isolated. Physical activity will involve walking from home, cognitive activities will be computer based games and puzzles and socialising will involve regular varied group-based activities. Participants (128) will be recruited from the UCL Derwent Memory Clinic and will complete a 26 week program. They will then be followed up yearly to monitor their progress. The main outcome of the study is engagement in the activities. The investigators will also measure fitness, cognition, quality of life and conversion to dementia.
The goal of this project is to determine if task-activated fMRI is sensitive to the central cholinergic deficit associated with Mild Cognitive Impairment.
Subjects will be adults aged 50 to 85 years who have subjective memory complaints and mild cognitive impairment or mild dementia due to Alzheimer's disease (AD). Subjects taking thyroxine or thyroid supplements and subjects receiving an acetylcholinesterase inhibitor (AChEI) and/or memantine for AD must be on a stable dose for at least 12 weeks prior to Screening and remain on their stable dose throughout the trial. Subjects will receive placebo or a single oral dose of E2609. Safety assessments will be conducted. Additionally, the pharmacokinetics of E2609 and drug effects will be evaluated using cerebrospinal fluid biomarkers and cognitive and psychological measures.
NMDA activation plays an important role in learning and memory. NMDA receptors were found to decrease in the frontal lobe and hippocampus of Alzheimer's disease and mild cognitive function impairment. This study is a randomized, double-blind, placebo-controlled drug trial. All patients will be allocated randomly to 2 groups: (1) NMDA enhancer: DAOI-B group (starting dose: 250-500 mg/d); (2) placebo group. The study period is 24 weeks. The investigators hypothesize that DAOI-B may yield better efficacy than placebo for cognitive function in patients with mild cognitive impairment or mild Alzheimer's disease.
Prospective evaluation of the cognitive function of in-house patients suffering from an acute traumatic spinal cord injury before and three months after the initiation of antimuscarinic treatment. The following hypothesis will be tested: Antimuscarinic treatment results in significantly worse cognitive test results three months after traumatic spinal cord injury compared to the pre-treatment results and the results of the control group.
The study will examine the effects of intranasally administered long-acting insulin detemir on cognition in persons with Alzheimer's disease (AD) or amnestic mild cognitive impairment (aMCI). The rationale for these studies is derived from growing evidence that insulin contributes to multiple brain functions, and that insulin dysregulation can contribute to AD pathogenesis. Thus, therapies aimed at restoring normal insulin signaling in the CNS may have beneficial effects on brain function. Intranasal administration of insulin increases insulin signaling in the brain without raising peripheral levels and causing hypoglycemia. Insulin detemir is an insulin analogue that may have better action in brain than other insulin formulations because of its albumin binding properties. The investigators will test the therapeutic effects of intranasally-administered insulin detemir in a study in which participants will receive insulin detemir, regular insulin, or placebo over a four month period. The investigators will test the hypothesis that insulin and insulin detemir will both improve memory and daily functioning in persons with AD/aMCI compared with placebo, but that insulin detemir will have the greatest effect.
This retrospective analysis of de-identified data from 700 charts of consecutive patients from this patient population is to investigate the prevalence of hyperhomocysteinemia and associated metabolic abnormalities in this naturalistic grouping of patients with various stages of cognitive loss and diagnosed with various types of dementia.
- Although aging process appears to be generally characterized, investigators have been paid much attention to the specific target molecules, which leads to discover the clinical markers of the senescence. The present study is to investigate the clinical and biological profile of cognitive decline and functional cardiac senescence in healthy middle aged and elderly Korean volunteers. - This study was conducted as a cross-sectional, single-center, comparative clinical study. - Each volunteer was given informed consent for checking cognition and cardiac function. Blood and urine samples were collected to analyze genome, proteome, and metabolome to assess cognition and cardiac function of its muscle enzymes.
Constituents of grapes have been studied for their antioxidant, anti-inflammatory, and anticarcinogenic properties. In the past decade, there has been emerging evidence regarding a potential role for grapes in slowing cognitive decline and other effects of aging. Furthermore, evidence has been obtained in vivo that supplementation of aged rats with grape seed extract improves cognitive performance. Despite the promising accumulating data supporting the use of grapes as a safe and effective strategy for delaying the incidence of dementia, it remains unclear how grape intake would be useful with respect to factors such as dose schedule or stage of dementing illness. In general, well-controlled experimental data obtained in human subjects is in need of much further development. The investigators aim to measure effects of grape intake on cerebral metabolism and cognitive function, and to determine whether initial patterns, and magnitude of change, of cerebral metabolism assessed by positron emission tomography (PET) can serve respectively as a predictor of, and biomarker for, the magnitude of cognitive changes resulting from intake of grapes.
Past epidemiological studies have demonstrated that larger social networks, or more frequent social interactions, could have potential protective effects on the incidence of Alzheimer's Disease (AD). However, in those studies, indicators of social interactions were often broad, and included distinct elements that affected cognition and overall health. This project will examine whether conversation-based cognitive stimulation has positive effects on domain-specific cognitive functions among the elderly. Face-to-face communication will be conducted through the use of personal computers, webcams, and user-friendly simple interactive Internet programs to allow participants to have social engagement while staying at their home and also for the cost effective execution of the study.