View clinical trials related to Mild Cognitive Impairment (MCI).
Filter by:Alzheimer disease (AD) is a dementing illness characterized by progressive neuronal degeneration, gliosis, and the accumulation of intracellular inclusions and extracellular deposits of amyloid in discrete regions of the basal forebrain, hippocampus, and the association cortices. Mild cognitive impairment (MCI) refers to individuals with cognitive impairment (often memory loss) that fails to meet clinical criteria for AD or another dementing illness.
Because of the lengthening of life expectancy, more and more people are concerned with the effects of aging on their mental faculties (e.g., memory decline) and with the possibility of getting Alzheimer's Disease (AD) or other forms of dementia. This increasing awareness of AD has already resulted in a growing demand for neuropsychological testing. AD's research also emphasizes the need for early screening to improve the prediction of the disease progression and the efficacy of any future therapy. Such a drive to screen for pre-dementia raises the challenging issue of frontline identification of individuals in the preclinical or early clinical stages of AD. Mild Cognitive Impairment (MCI) is typically considered to be the prodromal state of AD, and is therefore at the core of the drive for early screening. Moreover, Pre-MCI so called SCI (Subjective Cognitive Impairment) can precede AD for 15 years. However, many individuals diagnosed with MCI do not convert to AD, some remaining stable and others even reversing back to normal (with rates of reversion to normal varying from 4.5% to as high as 53%). This over-diagnosis bias, which has been largely overlooked, is at the core of the present project at the interface of human and life sciences. Here, we argue that an important source of overdiagnosis in the prodromal state of AD comes from negative aging stereotypes (e.g., the culturally shared beliefs that aging inescapably causes severe cognitive decline and diseases such as AD) that permeate neuropsychological screening. There is ample evidence in the laboratory that such stereotypes contribute to the differences observed in the healthy population between younger and older adults in explicit memory tasks. Additionally, three pilot (lab) studies specifically conducted for the present ANR project showed that the threat of being judged stereotypically undermines the controlled use of memory of healthy older adults and simultaneously intensifies their automatic response tendencies, resulting in impaired memory performance. The present proposal goes several steps further by examining for the first time whether aging stereotypes are powerful enough to implicitly permeate the clinical neuropsychological testing and thus inflate memory deficits in older adults judged "at risk" (based on either epidemiological criteria or memory complaints), resulting in false-positive detection of SCI and MCI. This provocative hypothesis will be tested while 1) using biomarkers of neurodegeneration to distinguish false-positives from true MCI, and 2) using biomarkers of stress to examine whether and how aging stereotypes can lead to acute physiological stress during neuropsychological testing. This innovative project has the potential to offer new recommendations to improve the diagnosis accuracy of prodromal state of AD, with positive consequences for older people's wellbeing.
Since its launch in 2004, the overarching aim of the Alzheimer's Disease Neuroimaging Initiative (ADNI) has been realized in informing the design of therapeutic trials in AD. ADNI3 continues the previously funded ADNI-1, ADNI-GO, and ADNI-2 studies that have been combined public/private collaborations between academia and industry to determine the relationships between the clinical, cognitive, imaging, genetic and biochemical biomarker characteristics of the entire spectrum of Alzheimer's disease (AD). The overall goal of the study is to continue to discover, optimize, standardize, and validate clinical trial measures and biomarkers used in AD research.
Background: The increase in life expectancy and the rise in the ratio of older to younger people in the population has resulted in an increase in the number of those suffering from a decrease in cognitive ability, such as Mild Cognitive Impairment (MCI). Methylphenidate can improve cognitive ability, mainly in memory and executive function. Working hypothesis and aims: This study examines the effect of Ritalin treatment in older people suffering from MCI. Our hypothesis is that treatment with Ritalin will improve cognitive function in those suffering from MCI, especially in the domains of attention and executive function. Methods A randomized, double-blind, case-control study. 120 patients older than 65 years of age diagnosed as suffering from MCI in the past year in geriatric assessment facilities in Beersheva. Patients will be randomized in equal groups to either the study group (Ritalin treatment) and control group (placebo). Each participant will attend the geriatric unit for four consecutive days: on the day prior to beginning the intervention participants will undergo cognitive assessment at 9:00 am. On the intervention days (days 2-4) participants will undergo cognitive assessment at 9:00 in the morning, followed by the administration (at 10:30) of different doses of Ritalin (10, 20 and 30mg) every day of intervention. Participants in the control group will receive placebo. Two hours after taking the drug or placebo participants in both groups will be assessed cognitively by means of Mindstreams and MoCA (Montreal Cognitive Assessment). Expected results: Ritalin treatment will improve the cognitive function of the subjects, mainly in the domains of concentration and executive function
The aim of this study is to investigate whether a combination of intensive training of visual-spatial abilities (LOCATO task) with anodal transcranial direct current stimulation (tDCS) leads to an improvement in learning and memory in patients with mild cognitive impairment (MCI) and to examine the underlying neuronal mechanism.
The proposed project will evaluate the role of neuroimaging biomarkers of brain aging (i.e., neurodegenerative and vascular brain changes) and mild cognitive impairment in the patterns of treatment response to memantine combined with escitalopram compared to escitalopram and placebo.
The objective of this study is to measure the frequency and clinical types of mild cognitive impairment (MCI) or dementia that occur among up to 150 military retirees with and without a history of traumatic brain injury (TBI) among residents of the Armed Forces Retirement Home, Washington D.C. and the Veterans Home of California-Yountville. Investigators will compare the characteristics of dementia in those who have had a prior TBI to the characteristics in those without a history of TBI. It is our hypothesis that the dementia or MCI among those with prior TBI has distinct neuropsychological features that distinguishes it from those with dementia or MCI without a history of TBI.
This project is designed to study the effects of the dietary supplement curcumin on age-related cognitive impairment. In particular, the study seeks to determine the effects of curcumin on cognitive decline and the amount of abnormal amyloid protein in the brain. Genetic risk will also be studied as a potential predictor of cognitive decline. Subjects will be randomly assigned to one of two treatment groups: either a placebo twice daily or the curcumin supplement (Theracurmin®, containing 90 mg of curcumin). The investigators expect that the volunteers receiving the curcumin supplement will show less evidence of decline after 18 months than those receiving the placebo. The investigators predict that cognitive decline and treatment response will vary according to genetic risk for Alzheimer's. The investigators will study subjects with memory complaints aged 50-90 years. Initially, subjects will undergo a clinical assessment, an MRI and a blood draw to determine genetic risk and to rule out other neurodegenerative disorders linked to memory complaints. Subsequently, subjects will undergo an -(1-{6-[(2-[F-18]fluoroethyl)(methyl)amino]-2-naphthyl}ethylidene)malononitrile (FDDNP) PET scan and a baseline neuropsychological assessment to confirm a diagnosis of MCI or normal aging. Once enrolled, subjects will begin taking the supplement (either curcumin or a placebo). Some of the initial subjects will be asked to return every three months for regular MRIs. Every 6 months, subjects will also receive neuropsychological assessments. At the conclusion of the study, subjects will be asked to complete a final neuropsychological assessment, MRI scan, PET scan and blood draw. Additional blood will be drawn at baseline and at 18 months and frozen to assess inflammatory markers if cognitive outcomes are positive. FDDNP-PET scans will be used to measure the amount of abnormal amyloid plaque- and tau tangle-proteins in the brain; the MRIs will be used to monitor supplement side effects and measure brain structure; the neuropsychological assessments will monitor rates of cognitive decline; the blood draws will be used to determine genetic risk and to test levels of inflammatory markers.
The goal of this study is to determine whether increasing participation in cognitive, physical, and/or social activities prevents cognitive decline in older African Americans (AAs) with Mild Cognitive Impairment (MCI). Patients with MCI are at increased risk for Alzheimer's Disease (AD); we propose that increasing participation in activities will prevent cognitive decline and may delay the onset of Alzheimer's Disease (AD). We will test this hypothesis by conducting a clinical trial in which older AAs with MCI (aged 65 years and older) will be randomized to Behavior Activation (BA) (a behavioral intervention that increases participation in daily activities) or Supportive Therapy (ST) (a person-centered psychotherapy that involves active listening and offering support focusing on participants' problems and concerns). We hypothesize that BA-treated subjects will have fewer declines in cognitive and functional abilities, fewer depressive and neuropsychiatric symptoms, and better quality of life than ST-treated subjects at 24 months.
The purpose of this study is to build upon the information obtained in the original Alzheimer's Disease Neuroimaging Initiative (ADNI1) and ADNI-GO (Grand Opportunity; a study funded through an NIH grant under the American Recovery and Reinvestment Act), to examine how brain imaging technology can be used with other tests to measure the progression of mild cognitive impairment (MCI) and early Alzheimer's disease (AD). ADNI2 seeks to inform the neuroscience of AD. This information will aid in the early detection of AD, and in measuring the effectiveness of treatments in future clinical trials.