View clinical trials related to Cognitive Dysfunction.
Filter by:Certain clinical syndromes eg frailty, sarcopenia, dementia, depression, cognitive impairment, vision impairment and falls in older adults carry an increased risk for poor health outcomes and if identified early, can be prevented, delayed or reversible. There is evidence to suggest that exercise and dietary intervention can help delay or prevent sarcopenia, frailty and dementia. The current hypothesis is older adults do not consume enough protein in their diet. Local delicacies enhanced with protein content, in addition to physical activity will improve muscle strength, function, perceived health status and possibly may even reverse frailty and sarcopenia. Additionally, it is hypothesized that combination of multi component group exercise activities and high protein nutrition will be effective in improving participants' social, mental and physical status.
A randomized-control, double-blind, multi-center, delayed-start, pilot trial evaluating the disease modifying effects of a 150mg once-a-day dose vs. placebo of dabigatran in men and women, between the ages of 50-85 years, confirmed with MCI probably due to AD and mild Alzheimer's Disease.
The proposed study is intended to examine the connection between two types of inhibition - cognitive and motor and the connection between motor inhibitory functions and a single bout of physical exercise in the context of age and physical fitness.
This study will evaluate the safety, tolerability, and pharmacokinetics of MK-4334 administered once daily (QD) in participants with Alzheimer's clinical syndrome receiving a stable, daily dose of donepezil 10 mg, taken orally (PO). This includes participants with symptoms of mild cognitive impairment (MCI) or mild to moderate Alzheimer's disease (AD). It is hypothesized that the true geometric mean minimum plasma concentration at 24 hours (C24) is at least 60 nM at steady state in the presence of steady-state donepezil 10 mg.
In the present study, the investigators aim to elucidate the role of T-cells on cognitive decline in younger stroke patients, using repeated cognitive testing, brain imaging, and immunological analyses in the first 6 month after stroke. The examiners will investigate (i) the extent and duration of stroke-induced changes in T cell function within the peripheral blood of patients; and (ii) post-stroke cognitive functions.
With the growing burden of dementia (including Alzheimer's disease), and the lack of efficacious therapies, there is an urgent need to identify new therapeutics. Ergothioneine (ET) is a naturally occurring thiol derivative of histidine, obtained solely through diet and is able to accumulate in the body and brain, through the action of a specific transporter, OCTN1. In addition to a wide variety of in vitro and in vivo (animal) studies demonstrating the antioxidant, anti-inflammatory properties of ET, several studies have demonstrated the neuroprotective potential of ET in various cell and animal models. Based on the ability of ET to counteract the underlying pathology of AD dementia, it is hypothesize that ET supplementation may prevent cognitive decline, especially in individuals at risk of cognitive impairment. This will be assessed using a randomized, double blinded, placebo-controlled, intervention study to test the ability of ET to delay or reverse cognitive impairment in elderly individuals with mild cognitive impairment.
Background: Dynamic balance keeps the vertical projection of the center of mass within the base of support while the center of mass moves. The age-related decrease in dynamic balance is a risk factor for falls. Dynamic balance tests are used to predict the risks for falls and eventual falls but the psychometric properties of most tests assessing dynamic balance are unsatisfactory and comprise no actual loss of balance while walking. Objectives: Using beam walking distance as a measure of dynamic balance, we will determine the psychometric properties, lifespan and patient reference values, the relationship with selected 'dynamic balance tests', and the accuracy of beam walking distance to predict falls. Methods: This cross-sectional observational study will examine healthy adults in 7 decades (n=432) at 4 centers. Center 5 will examine patients (n=100) diagnosed with Parkinson's disease, multiple sclerosis, stroke, and balance disorders. At Test 1, all participants will be measured for demographics, medical history, grip and leg strength, short physical performance battery, static balance on a force platform, and dynamic balance using beam walking (4m-long, 4, 8, and 12 cm wide) under single (beam walking only) and dual task conditions (beam walking while concurrently performing an arithmetic task). In addition, cognitive function (global cognition, attention, executive function, processing speed, memory) will be assessed. Patients and healthy participants age 50+ will be additionally measured for fear of falling, history of falls, miniBESTest, functional reach on a force platform, timed up and go, and reactive balance. At Test 2, 7-10 days after Test 1, healthy adults young and age 50+ (n=40) will be re-tested for reliability of beam walking performance. All participants age 50+ will be re-called to report fear of falling and fall history 6 and 12 months after Test 1. Conclusion: The investigators expect to find that beam walking performance vis-à-vis the traditionally used balance outcomes predicts more accurately fall risks and falls.
Post-operative cognitive dysfunction (POCD) is a fairly well-documented clinical phenomenon. Investigators will determine whether amantadine can reduce the occurrence of POCD in elderly patients with major abdominal surgery.
This is a non-pharmacological study evaluating the effects of SMR/delta ratio and beta1/theta ratio neurofeedback trainings on cognitive performance and electrical brain activity in elderly with mild cognitive impairment.
This study will investigate the effect of Action Observation Teaining (AOT) on gait variables and global cognitive functions in older adults with mild cognitive impairment (MCI). The specific objectives are 1) to compare gait variables and global cognitive functions among the AOT with gait training, gait training, and control groups at before training, after training, and follow up and 2) to compare gait variables and global cognitive functions among before training, after training, and follow up in each of the groups.