View clinical trials related to Cognitive Dysfunction.
Filter by:The purpose of this study is to test the effects of tDCS (Transcranial Direct Current Stimulation) on stroke patients with working memory problems.
The primary objective of this multicenter observational study is to determine the effect size of the relationship between DCI and neuropsychological impairment 14-28 days and 3 months after aSAH. Secondary objectives are the feasibility to administer and the validity of the MoCA in an intensive care unit setting, as well as the test/retest reliability of the MoCA in patients with acute brain damage in absence of aSAH.
This is a Phase 1, randomized, double-blind, placebo-controlled, 6-period crossover study to evaluate the effects of BPN14770 10 mg and 50 mg in reversing scopolamine-induced cognitive impairment in healthy volunteers. A positive control, donepezil 10 mg, will be included, and additivity of BPN14770 50 mg to donepezil 10 mg in reversing scopolamine effects will also be evaluated.
An observational study will be conducted in the ICU (Intensive care unit) including patients with heart surgery (< 5 days) and prolonged ICU stay (> 5 days). Patients will receive 5 min Virtual reality stimulation per day. A modified version of the Oculus Rift VR glasses (Facebook inc., USA) with stereoscopic vision and stereo sound will be used to present the virtual world to patients. An integrated eye tracker will measure oculomotor responses that will be synchronized with the physiological data recording. All participants will undergo neuropsychological testing after ICU stay, and after a three-months follow-up. Quality of life prior to the ICU stay will be enquired from relatives. Main outcome variable is the explorative behaviour (attention). Secondary outcomes are the quality of life and cognitive functioning.
Parkinson's disease (PD) has been classically regarded as a "movement disorder", so earlier work has focused on treating motor symptoms only. As PD patients now have longer life expectancy, the relatively slowly progressing cognitive deficits (compared to their motor deficits) have become one of the major challenges. Approximately 80% of PD patients eventually become demented. Therefore cognitive dysfunction is one of the most significant factors affecting the quality of life of patients with PD. While dementia in Parkinson's disease is routinely treated by cholinesterase inhibitors (e.g., donepezil and rivastigmine), their efficacy on mild cognitive impairment found in non-demented PD is questionable. Alternative approaches have been proposed including transcranial direct current stimulation (tDCS) but no consensus has been reached. This can be attributed mainly to: (1) imprecise knowledge of the underlying functional circuitry mediating this disease manifestation and (2) inter-individual variability. Here, the investigators will utilize a novel personalized network analysis approach to elucidate on the underlying mechanisms of the effect of tDCS on cognitive dysfunction in non-demented PD patients. It has been well documented that the caudate nucleus plays an important role in cognitive dysfunction found in PD. In the investigators' preliminary resting-state functional magnetic resonance imaging (fMRI) study, they have shown that the connectivity of the right caudate nucleus is correlated to cognitive status of PD patients measured by the Montreal Cognitive Assessment (MoCA). The investigators hypothesize that tDCS on the left and/or right dorsolateral prefrontal cortex may restore the functional connectivity of the right caudate nucleus which may in turn improve patients' cognitive performance.
Motor slowing and cognitive slowing are more prevalent as we age. Importantly, the presence of both in an older person increases their risk of having dementia by ten times. Currently, there are no clinically meaningful predictors of progression to dementia in people with mild cognitive impairment (MCI). The main hypothesis is that subtle variations in gait while performing a simple cognitive task is a reliable, easy to perform, and feasible methodology to detect those older adults at higher risk of progression to dementia and also, at higher risk of further mobility decline and falls. Rationale. The Canadian population is aging. According to recent estimates, the proportion of the population aged 65 and older will increase rapidly from 13% in 2005 to 25% by 2031. This increase in proportion is accompanied by a considerable amount of disability and subsequent dependency which has major effects on both the quality of life of older adults and their caregivers, and on the Canadian health care system. An important goal of geriatric medicine is to reduce the gap between life expectancy and disability-free life expectancy by reducing disability and dependency in the later years of life. A substantial portion of this disability stems from two major geriatric syndromes: cognitive impairment and mobility limitation. The ultimate manifestations of these syndromes are dementia and falls. Interestingly, these manifestations often coexist in elderly people: falling is a common geriatric syndrome affecting about a third of older adults each year, and dementia affects about a third of Canadians aged 80 and over. Together, dementia and falls are responsible for much of the discomfort, disability, and health care utilization in older adults and each will become more prevalent as older Canadians are expected to number approximately $9 million by 2031. The combined direct cost of dementia and falls for the Canadian Health System is over $4.9 billion per year. Establishing reliable and easy to obtain predictors to accurately identify MCI patients at highest risk of progressing to dementia is essential first, to determine who will benefit from additional and/or invasive testing and second, to implement preventative strategies, including cognitive training, physical exercises, and aggressive vascular risk factors correction to delay progression. Even a modest one-year delay in dementia incidence could save Canada $109 billion over 30 years.
The study involves repeated doses of LY3303560 given by infusion for 49 weeks. The study will examine how safe repeated doses of LY3303560 are, whether they cause side effects in participants with mild cognitive impairment or Alzheimer's Disease, and how LY3303560 is handled by the body and acts in the body. This study will last up to 65 weeks, not including screening. Screening is required within 90 days prior to the start of the study.
This study will evaluate the effect of vitamin D supplementation on the neurocognitive function of older people with lower than normal levels of vitamin D at baseline
Primary aim of this study is to evaluate the association between postoperative cognitive dysfunction and increased serum levels of S100B protein after robot-assisted laparoscopic radical prostatectomy.
The primary purpose of this study is to test the effects of a targeted, computerized cognitive training program on verbal memory in older women who have undergone chemotherapy treatment for early-stage breast cancer. As measured by neuropsychological assessment, this treatment will result in improved verbal memory. Secondarily, processing speed and naming abilities are expected to improve. Enhanced self-perception of cognitive ability is also expected.