View clinical trials related to Cognitive Dysfunction.
Filter by:- Purpose of clinical trial; This clinical trial is designed to evaluate the effectiveness of 'NeuroAI' prediction accuracy compared to the amyloid PET test results by retrospectively collecting medical data of patients with mild cognitive impairment to evaluate the effectiveness of artificial intelligence-based brain image detection and diagnosis assistance software 'NeuroAI'. - Participants; Patient with mild cognitive impairment
This study will evaluate the efficacy of working memory training in older adults with amnestic mild cognitive impairment (MCI).
Dementia, especially dementia caused by Alzheimer's disease, is considered one of the most severe health problems of our time. It is currently known that the disease begins many years before clinical symptoms appear. The sooner the patient is diagnosed, the sooner the patient will be in a position to prevent further deterioration. A recent orientation is the analysis of language in relation to the description of images with a high and varied semantic and emotional content. It can be studied that changes in the description of an image check if these changes are associated with the evolution of a person with probable impairment both in memory and cognitive as well as emotional, psychiatric, behavioral and even in their interaction with environmental factors especially those associated with socialization and loneliness. Thus, the purpose of this study is to validate speech analysis AI models.
This study aims to establish the Senior Driving Simulation Training (SDST) for Subjective Cognitive Decline (SCD) and Mild Cognitive Impairment (MCI), and explore the effectiveness of Senior Driving Simulation Training (SDST) on the executive function, cognitive function and EEG.
The goal of this randomized controlled trial is to rigorously assess the efficacy of an 8-week social engagement OneClick intervention. A total of 120 older adults with and without mild cognitive impairment (60 per group) will be randomized after a baseline assessment to the social engagement OneClick intervention group or the waitlist control group. Participants assigned to the intervention group will receive the social engagement OneClick intervention for 8 weeks, and will complete a mid-assessment at week 4, and a post-assessment at week 8. Participants assigned to the waitlist control group will receive no intervention for the first 8 weeks and will complete assessments at week 4 and week 8. Subsequently, as an extension to this study, participants assigned to the waitlist control group will have an opportunity to participate in 8 weeks of social engagement OneClick intervention, with intervention effects assessed at week 4 and week 8.
The purpose of this study is to investigate how we can detect Alzheimer's disease early by using an online memory test and a simple blood test. These new methods for early diagnosis could allow people to begin treatment sooner, with the potential to improve the lives of millions of people.
Novel blood-based biomarkers of Alzheimer's disease (AD), such as plasma levels of tau phosphorylated at threonine 181 (p-tau181), have shown great promise in detecting early AD pathology. While current studies point to this biomarker as having great clinical utility, one necessary step before clinical implementation is developing safe and effective methods for disclosure of results. Past risk disclosure studies have shown that disclosing risk for AD based on genetics or amyloid status is safe, but these studies have largely focused on cognitively unimpaired individuals. This study seeks to develop comprehensible educational materials to aid risk disclosure and examine the effect of risk disclosure based on plasma p-tau181 results in a group of participants with mild cognitive impairment (MCI) at imminent risk of converting to dementia. First, educational materials will be developed in collaboration with health communication experts and then refined in focus groups made up of individuals with MCI. Educational materials will be analyzed on several key reading and comprehensibility metrics and will include personalized risk estimate based on a well-accepted risk algorithm (Cullen, et al., 2021). Next, these educational materials will be utilized to disclose risk in a randomized controlled trial with an active control arm receiving disclosure based on age, sex, and cognitive status (based on Mini-Mental State Examination), meant to mimic common methods of clinical diagnostic and prognostic decision making, and an intervention arm receiving disclosure based on the above factors plus plasma p-tau181 results. Outcomes will include measures of comprehension and psychological well-being (anxiety, depression, hopelessness, and distress) and will be assessed immediately after risk disclosure and again at six-month follow-up. It is hypothesized that risk disclosure based on plasma p-tau181 is not more psychologically harmful or less comprehensible than disclosure based on demographic factors and MMSE. This pilot study will provide a necessary step towards moving plasma p-tau biomarkers towards safe clinical implementation and will develop educational materials that can be utilized in future studies and clinical practice.
In Canada, 1,700,000 adults are at risk of dementia, half of them with MCI,representing one of the largest groups at risk for an incurable disease. Epidemiological evidence suggests up to 40% of dementia cases might be preventable by targeting modifiable lifestyle and cardiovascular factors. Given that current treatments cannot modify the disease, prevention is critical. SYNERGIC-2 offers a "personalized multidomain intervention" that combines physical and cognitive training, sleep, diet, and vascular-metabolic interventions in individuals with MCI to synergistically enhance their overall brain health including cognition and contributes to maintaining their independence. Importantly, interventions will be provided at home using an existing virtual platform reducing delivery complexity and expanding the accessibility to a wider population, thus decreasing potential inequities. Improving older adults' brain health and achieving even a modest two-year dementia incidence delay will have a projected saving of $218 Billion in Canada's healthcare system over 30 years.
The objective of the study is to evaluate the effectiveness of cognitive training in people with atrial fibrillation and cognitive decline over 12-week cognitive training. Moreover, the investigators will explore whether the training effect can be maintained.
The investigators aim to conduct a fully powered randomized controlled trial to compare the efficacy of two symptom management programs for older adults with early cognitive decline (either self-reported or confirmed by testing) and chronic pain, Active Brains 1 and Active Brains 2. The investigators will assess how each program may help in improving multimodal physical, cognitive and emotional function. The investigators will also assess whether improvements in outcomes from the two programs are maintained through 6-months follow-up. The investigators will also explore whether improvements in outcomes are mediated by nonadaptive pain reactions, adaptive coping, social factors and compensatory strategies and modified by demographic and clinical predictors. Both programs will be delivered virtually (Zoom).