View clinical trials related to Mild Cognitive Impairment.
Filter by:The objective of the study is to evaluate whether memory training combined with executive training could lead to improved cognitive and noncognitive performance in patients with MCI. Furthermore, we will explore the neural correlates underlying the changed performances.
Previous studies showed that anodal tDCS applied over the dorsolateral prefrontal cortex (DLPFC) improved episodic memory performance, indicating a possible use as an intervention for patients suffering from memory impairments. At the same time, only scant evidence (provided by functional magnetic resonance imaging (fMRI) and magnetic resonance spectroscopy (MRS)) exists regarding the underlying mechanisms, thus hindering a more targeted application. The present study aims at establishing a connection between the stimulation-induced change in episodic memory performance on the behavioural level and neurophysiological parameters. TDCS effects and the underlying mechanisms will be compared between different study conditions, receiving either real anodal tDCS or sham stimulation over the left dorsolateral prefrontal cortex during an episodic memory task.
The number of older Veterans with Mild Cognitive Impairment (MCI) seeking care within the Veterans Affairs (VA) health care system is increasing and is expected to increase more rapidly as Vietnam era Veterans age. The cognitive effects of MCI and subsequent neurodegenerative disorders can adversely affect a Veteran's ability to function independently and failure to provide appropriate intervention can result in an increased need for healthcare services and VA benefits in the future. The VA currently spends over $19,000 annually per patient to care for Veterans with dementia (Zhu et al., 2009), and delaying the onset of dementia even by one to two years will result in substantial financial savings to the VA and quality of life gains for the Veteran. Since present pharmacological interventions have demonstrated limited efficacy, alternative treatments are needed. Therefore, an evidence-based cognitive training intervention that optimally addresses the needs of older Veterans with MCI is of critical importance to the VA patient care mission.
The purpose of this study is to evaluate if systematic cognitive training can improve cognitive performance in participants (55 and older) with memory loss. This study will evaluate the effects of Computerized Cognitive Training (CCT) for improvement in everyday cognitive and function status, in addition to long-term changes in brain networks over an 18-month period. Although there is no distribution of medication for this study, participants are required to have an at-home computer.
This non-pharmacological interventional feasibility study evaluate a computerized cognitive stimulation program in elderly with mild cognitive impairment.
This is a non-pharmacological study evaluating the impact of a computerized cognitive stimulation program on verbal learning and on the progression white matter hyperintensities in elderly with mild cognitive impairment.
This is a non-pharmacological study evaluating the differential effects of a computerized cognitive stimulation program according to the existence or not of white matter hyperintensities in elderly with mild cognitive impairment.
The primary objective of this study is to confirm and compare the effect of methods of Low-level light therapy (LED-T) in the mild cognitive impairment.
Alzheimer's disease (AD) is the most common cause of dementia in adults 65 years and older. AD leads to a complete loss of memory and independent function, and presently there is no cure. Many studies suggest that lithium treatment may delay dementia onset or slow its progression. However, more research is needed to understand the extent of its anti-dementia properties if it will be deployed broadly in the general population. This study will examine whether lithium has anti-dementia properties in older adults who have mild cognitive impairment and are at risk of becoming demented.
The Swedish BioFINDER 2 study is a new study that will launch in 2017 and extends the previous cohorts of BioFINDER 1 study (www.biofinder.se). BioFINDER 1 is used e.g. to characterize the role of beta-amyloid pathology in early diagnosis of Alzheimer's disease (AD) using amyloid-PET (18F-Flutemetamol) and Aβ analysis in cerebrospinal fluid samples. The BioFINDER 1 study has resulted in more than 40 publications during the last three years, many in high impact journals, and some the of the results have already had important implications for the diagnostic work-up patients with AD in the clinical routine practice. The original BioFINDER 1 cohort started to include participants in 2008. Since then there has been a rapid development of biochemical and neuroimaging technologies which enable novel ways to the study biological processes involved in Alzheimer's disease in living people. There has also been a growing interest in the earliest stages of AD and other neurodegenerative diseases. With the advent of new tau-PET tracers there is now an opportunity to elucidate the role of tau pathology in the pathogenesis of AD and other tauopathies. The Swedish BioFINDER 2 study has been designed to complement the BioFINDER 1 study and to e.g. address issues regarding the role of tau pathology in different dementias and in preclinical stages of different dementia diseases. Further, the clinical assessments and MRI methods have been further optimized compared to BioFINDER 1.