View clinical trials related to Cognitive Impairment.
Filter by:Video game-based training programs, in the following referred to as "exergames" are an innovative digital training approach to simultaneously train physical and cognitive functions and increase training motivation for various populations. Patients who are differently limited in their physical and cognitive performance due to a decline in functioning can profit from a motivating and combined physical-cognitive training approach. An interdisciplinary team of movement scientists, sports and training experts, as well as game and industrial designers developed an innovative and immersive video game-based training product for patients - the ExerCube training software licence. The exergame development focused on a user-centred process together with the target population. The ExerCube training software licence is an exergame training product that includes immersive mixed-reality training programs (or video games) for patients. Depending on the patient's training requirements, the therapists can choose from the training program repertoire. The patients control the training program (or video game) by specific (whole) body movements. To present the virtual training programs from the ExerCube training software licence in the physical environment, the ExerCube hardware and harness system is used to serve as a physical training room. It allows the virtual video game environment to be presented in the physical world. This summative usability study aims to assess the training system's safety, usability and validate the user experience. Primary end-users (defined as patients aged 18 and above) and secondary end-users (defined as sports scientists, training therapists or physiotherapists/occupational therapists with a focus on sports/training therapy) will test and review the system in different testing scenarios.
Dementias secondary to cerebrovascular diseases are of significant epidemiological and clinical relevance. As a result, the management of individuals with comorbid dementia should involve early diagnosis, effective treatment, and patient-centered care planning, both in specialist and in non-specialist settings. It is well known that physical exercise can improve various aspects of health, including resistance, balance, strength, and cognitive functions such as attention and executive performance. However, the efficacy of cognitive rehabilitation is still not definitive and requires further clarification. Preliminary evidence suggests that a combination of cognitive and motor training along with novel technological approaches has the potential to maintain or improve compromised cognitive function more effectively compared to a single intervention. A multidomain intervention could enhance cognitive functioning in elderly individuals with multiple morbidities. In the present study, patients with early neurocognitive impairment based on a vascular disorder or due to multiple etiologies, as defined by the Diagnostic and Statistical Manual of Mental Disorders, 5th Edition, will be screened in an outpatient multidisciplinary setting and subsequently undergo different models of rehabilitation training. Primary aim of this study: - Assess the effectiveness of different rehabilitation protocols for improving cognitive functions in patients with comorbid cognitive impairment. Specifically, the investigators will test the effectiveness of three rehabilitation protocols (digital-based cognitive rehabilitation combined with motor rehabilitation, paper-based cognitive rehabilitation combined with motor rehabilitation, and motor rehabilitation alone) by means of a set of multidimensional outcome measures. Secondary aims: - evaluating the enhancement of cognitive performance using various cognitive questionnaires categorized by cognitive domains. Additionally, the investigators will examine multidimensional variables such as motor skills, mood and anxiety levels, quality of life, patient adherence to treatment, the role of communication in patient management, caregiver burden, and the usability of digital devices (when utilized).
The study aims to investigate the efficacy and safety of intermittent theta burst stimulation (iTBS) guided by the personalized Brain Functional Sector (pBFS) technique in the treatment of patients with chronic post-stroke cognitive impairment.
The study, identified as VIX001-PACS-01, is a Phase 1, open-label, dose-escalation trial evaluating the safety, tolerability, preliminary efficacy, and dose effect of VIX001, an amniotic fluid product, in patients with Post-Acute COVID-19 Syndrome (PACS) and cognitive impairment. Conducted at the University of Miami Hospital and Clinics, the trial aims to enroll up to nine participants, or up to 18 using a 3+3 dose escalation design. Intravenous injections of VIX001 will be administered at three ascending doses (1 ml, 3 ml, or 10 ml), and participants will be assessed for safety, cognitive impairment, pain, activity, and quality of life at baseline and various timepoints. The primary objective is to evaluate the safety of VIX001, while secondary objectives include assessing its potential efficacy and patient-reported outcomes. The study duration is expected to last approximately 18 months, including enrollment, evaluation, and post-study observation periods. The findings will contribute to understanding VIX001's safety and efficacy in treating PACS-related cognitive impairment.
to assess executive network using resting-state fMRI and patterns of brain activation using task fMRI with a cognitive paradigm, against the background of taking the drug in comparison with placebo in patients with post-COVID asthenic syndrome.
The overall objective of the proposed randomized controlled (RCT) is to determine the feasibility and efficacy of a 16-week theory-based, remotely-delivered, combined exercise (aerobic and resistance) training intervention for improving cognitive and physical function in older adults (50+ years) with multiple sclerosis (MS) who have mild-to-moderate cognitive and walking impairment. Participants (N=50) will be randomly assigned into exercise training (combined aerobic and resistance exercise) condition or active control (flexibility and stretching) condition. The 16-week intervention will be delivered and monitored remotely within a participant's home/community and supported by Zoom-based chats guided by social cognitive theory (SCT) via a behavioral coach. Participants will receive training materials (e.g., prescriptive manual and exercise equipment), one-on-one coaching, action-planning via calendars, self-monitoring via logs, and SCT-based newsletters. It is hypothesized that the home-based exercise intervention will yield beneficial effects on cognition, mobility, physical activity, and vascular function compared with an active control condition (flexibility and stretching intervention), and these improvements will be sustained during a 16-week follow-up period.
This functional near-infrared spectroscopy-based personalized multidomain intervention study aims to prevent cognitive impairment and reduce dementia and cerebrovascular events in 45-74 years old persons with high risk of stroke in China. The primary outcome is 6-months change in global cognitive score measured by a modified National Institute of Neurological Disorders and Stroke and Canadian Stroke Network-Canadian Stroke Network protocol. The investigators hypothesize that the intervention based on functional near-infrared spectroscopy will prevent cognitive decline by the initial 6-months intervention. The long-term primary outcome is the development of dementia and cerebrovascular events during a total of 2 years' follow-up. The investigators hypothesize that the functional near-infrared spectroscopy-based personalized intervention may reduce the 2-year risk of dementia and cerebrovascular events, mainly through the improvement in vascular risk factors control, social activity, and cognitive training activities.
The purpose of this study is to investigate the brain activity associated with cognitive tasks (thinking, reasoning, remembering) in order to understand how the brain works during certain tasks and to improve treatment for diseases like dementia and attention deficit disorders. Cognitive (thinking) impairment may include poor memory function, poor attention span, or psychiatric disorders (ex: ADD, depression). The investigators are interested in the brain activity related to these issues, and want to investigate changes in brain activity while we record activity from specific areas of the brain. These recordings are in addition to clinical (routine or standard of care) recordings being performed to monitor for seizures and do not impact the clinical care.
In a laboratory protocol in healthy adults, exposed to a prolonged period of wakefulness with a restricted opportunity for sleep (40h of wakefulness / 3h of sleep / 21h of wakefulness), we hypothesize that the relative increase in spectral power of Delta waves [ 1 - 4 Hz] in NREM in the frontal territory, identified as a potential marker of the restorative function of sleep, during a night of sleep with limited recovery (3 h of time in bed) after sleep deprivation (40 h of continuous wakefulness), will be less important in subjects with poor recovery in terms of cognitive performance than in those with good recovery.
The goal of this clinical trial is to learn about the effect of urolithin A, a dietary supplement, on blood flow in middle-aged adults with obesity. The main question it aims to answer is: - Does urolithin A supplementation improve blood flow in large and small blood vessels in middle-aged adults with obesity? Participants will be asked to: - Take the dietary supplement daily for 4 weeks - Attend two study visits to have their blood vessels checked, answer questionnaires, and give a sample of blood Researchers will compare people who took the dietary supplement with others who took a placebo to see if the blood flow in the blood vessels improved.