View clinical trials related to Cognitive Dysfunction.
Filter by:PoZibio™ capsules contains Lactobacillus paracasei which has been heat-killed (post-biotic). The researchers will recruit a cohort of middle aged and older adults (>50 years) who will be randomised into PoZibio™ (2 x capsules daily) or placebo (2 x capsules daily) supplementation for 6 weeks. Subjects will be asked to take both capsules in the morning with their breakfast. The placebo will be matched to the active product by taste and texture. Electroencephalography (EEG) shall be combined with 3 psychological tasks, to measure a variety of cognitive domains including attention, processing speed, accuracy, and response inhibition. These psychological tasks shall include the Stroop task, the Go/No-go task, and the Flanker task. Before taking part in the psychological tasks, participants shall be required to have their EEG resting state recorded, requiring them to participate in an Eyes Open/Closed Task. The Mini Mental State Exam (MMSE) questionnaire shall be used as a digital screening tool to assess global cognitive function in participants both prior to and following the 6-week PoZibio trial. The geriatric depression scale (GDS) shall also be used as a digital screening tool to assess for depressive symptomatology in older adults. The EQ-5D questionnaire shall be used to obtain an overall profile of the health state and quality of life of participants before and after the trial. The researchers will collect venous blood samples for the investigation into the chemical composition using metabolomics, the quantification of short chain fatty acids as well as clinical biochemistry, before and after the trial. Aim: A randomised, placebo controlled parallel human clinical trial of heat-treated Lactobacillus paracasei (post-biotics) in healthy middle aged and older subjects is proposed, to assess the potential for clinically relevant benefits in terms of cognitive function.
The goal of this interventional study is to implement and evaluate the adhesion to two types of interventional strategies for assessing cognitive function, at Family Health Units (FHU), providing primary care clinicians (PCCs) with support to the decision process, regarding the referral of patients suspected of having mild cognitive impairment (MCI) or early dementia to the specialized consultation of Neurology at the public hospital services. The defined intervention strategies are the paper version of the cognitive tests MMSE and MoCA -group MoCA/MMSE -and the class I digital medical device web-based Brain on Track - group Brain on Track/MoCA/MMSE -, which will be compared with the regular clinical practice as the Control Group. The main question it aims to answer is: • the impact on the referral process of the implemented cognitive assessment strategies in the two interventional study groups compared with the Control Group. Trained health professionals, at FHU, will administer the cognitive tests mentioned above to the eligible patients suspected of having MCI or early dementia, in the interventional groups and, according to the respective results and other criteria used during the consultation, PCCs will decide about the need of referral to the Neurology consultation. In the Control Group, health professionals will provide the regular clinical assistance practised in the respective FHU. If the referral occurs, the Neurology specialist will perform a complete clinical neuropsychological assessment of the referred patients and will validate the suspected diagnosis made at FHU. Eligible patients with suspected MCI or early dementia will perform the cognitive tests according to the interventional study group, at the FHU or remotely. In the Control Group, eligible patients will be assisted through the daily clinical practice in the respective FHU. The research team will compare the interventional study groups with the Control Group, to see if there is an improvement on the referral process in the interventional groups, compared with the Control Group .
The aim of the MAPEG 2 study is to explore gustatory function and to follow its evolution in the 5 following groups of participants: - Healthy subjects - Participants with isolated cognitive complaint - Participants with minor neurocognitive disorder - Participants with mild Alzheimer-type major neurocognitive disorders - Participants with moderate Alzheimer-type major neurocognitive disorders For this purpose, we want to compare the results of the following tests: - Subjective taste tests (tasting solutions, answering food preference questionnaires), - Gustatory evoked potential (GEP) parameters, recorded by electrodes placed on the scalp, - And nutritional parameters (hormones of food intake by blood test, measurement of the global body composition). Identifying and following the evolution of early taste disorders in case of cognitive disorders could improve the diagnosis of Alzheimer's disease in two ways: - To allow an early diagnosis of Alzheimer's disease, and thus improve its management, - To define groups of subjects at risk of developing Alzheimer's disease in later years.
This study is a multicentre, randomized, double-blind, controlled trial that aims to investigate the efficacy of multi-domain life-style intervention including low inflammatory-index diet, exercise, and cognitive training in patients with mild cognitive impairment and mild Alzheimer's disease.
A study conducted in Finland discovered that a multidomain intervention, consisting of physical activity, nutritional guidance, cognitive training, social activities, and management of vascular risk factors, effectively decelerated cognitive decline in healthy older adults who were at an increased risk of cognitive decline. The HERITAGE study is a 2-year clustered randomized controlled trial (clustered-RCT) that explores the efficacy of a multidomain intervention among 1200 elderly residents with a higher risk of cognitive decline and dementia in Zhejiang Province, China
The goal of this observational study is to compare to investigate the effect of dual task performance on straight and curved walking in elderly people with mild cognitive impairment. The main question[s] it aims to answer are: - The purpose of this study was to investigate the effect of dual task performance on the activity of the prefrontal cortex in the elderly with mild cognitive impairment during straight and curved walking. - The purpose of this study was to investigate the effect of dual task performance on gait speed during straight and curved walking in elderly people with mild cognitive impairment. Participants will: For mild cognitive impairment 65 and older who can do dual tasks. - single task (motor task) : an exercise task, which will perform a 10-meter walking test and a figure-eight walking test. - double task (motor task + cognitive task) : planned to perform a motor task and a cognitive task together. The cognitive task is scheduled to be a simple calculation problem so that it can be performed without great difficulty while walking.
Assistive Technologies (ATs) can help people living with dementia (PwD) maintain their everyday activity. Still, there is a gap between potential and supply. Involving future users can close the gap. But the value of participation from PwD is unclear. The study examined smartwatch interactions from people with dementia or with mild cognitive impairment. Participants received "regularly" (n=20) or "intensively" (n=20) intrusive audio-visual prompts on a customized smartwatch to perform everyday tasks. Participants' reactions were observed via cameras. Users' feedback was captured with questionnaires.
Stroke is a major cause of death and disability worldwide, frequently resulting in persistent cognitive deficits among survivors. These deficits negatively impact recovery and therapy engagement, and their treatment is consistently rated as high priority by stakeholders and clinicians. Although clinical guidelines endorse cognitive screening for post-stroke management, there is currently no gold standard approach for identifying cognitive deficits after stroke, and clinical stroke services lack the capacity for long-term cognitive monitoring and care. Currently available assessment tools are either not stroke-specific, not in-depth or lack scalability, leading to heterogeneity in patient assessments. To address these challenges, a cost-effective, scalable, and comprehensive screening tool is needed to provide a stroke-specific assessment of cognition. The current study presents such a novel digital tool, the Imperial Comprehensive Cognitive Assessment in Cerebrovascular Disease (IC3), designed to detect both domain-general and domain-specific cognitive deficits in patients after stroke with minimal input from a health professional. To ensure its reliability, we will utilise multiple validation approaches, and aim to recruit a large normative sample of age-, gender-, and education-matched UK-based controls. Moreover, the IC3 assessment will be integrated within a larger prospective observational longitudinal clinical trial, where post-stroke cognition will be examined in tandem with brain imaging and blood biomarkers to identify novel multimodal biomarkers of recovery after stroke. By leveraging this rich dataset, our study will allow more precise targeting of cognitive rehabilitation to stroke survivors that are most at risk of progressive cognitive decline and have the greatest potential for recovery.
The purpose of this study is to evaluate the effectiveness and cost-effectiveness of group robot therapy with the PARO therapy robot in terms of quality of life and neuropsychiatric symptoms in people living with dementia in residential centers. In addition, the acceptability of the robot on the part of the users participating in the study will be evaluated. The evaluation will be carried out through a multicenter pragmatic clinical trial randomized to an intervention group (PARO therapy robot) or a control group (treatment as usual). Participants in the intervention group will complete three sessions per week with the PARO therapy robot during 12 weeks. Participants in the control group will maintain their standard care. In addition, a follow-up evaluation will be made three months after the end of the intervention to assess the duration of the possible effects.
Study Design - A Counterbalanced Study Aims - To determine the effect of a) warm-up exercises and b) mental visualisation on the musculoskeletal demands and cognitive demands respectively during robot-assisted laparoscopic surgery. Outcome Measures - 1. EMG measurements of frequency and amplitude across muscle fibres. 2. EEG measurements of peak alpha power, and alpha spindle duration and amplitude. Study Participants and Eligibility - Surgeons who have certificates of completion of training (CCT) and performing surgical procedures using the minimally invasive techniques of RALS. Planned Size of Sample - The investigators have chosen the higher value for our power calculation (an effect size of 0.24) which requires 10 surgeons per condition performing 1 -2 operations for 80% power to detect a difference between conditions, at an alpha of 0.05. Planned Study Period-Duration - Each surgeon will be required to participate in the study for approximately 3 - 4 weeks performing 3 surgical procedures and based on estimates that surgeons routinely perform an average of 1 robotic procedure per week we anticipate the study will run for 6 months. Research Question - Does structured simulated warm-up exercises prior to performing surgery improve surgeons' ergonomic awareness and maintain the low muscle fatigue impact associated with RALS? The investigators also hypothesize that mental imagery, inducing a flow state associated with overall cortical synchronisation could decrease cognitive demands experienced by surgeons and potentially mitigate against the cognitive fatigue surgeons experience whilst performing procedures.