View clinical trials related to Age-Related Cognitive Decline.
Filter by:Some types of meditation lead heart rate to become more steady as breathing quiets whereas others lead to large heart rate swings up and down (oscillations) as breathing becomes deeper and slower. The current study is designed to investigate how daily practice of heart rate biofeedback during breathing in a pattern that either increases or decreases heart rate oscillation affect attention and memory and blood biomarkers associated with Alzheimer's disease.
Life expectancy has been increasing for the last 150 years, but the maintenance of health has not kept pace with increased lifespan, and on average, UK adults spend the last decade of life in poor-health, with major consequences for society and the individual. Persistent physical inactivity is thought to be a key contributing factor to the risk of poor health and functional decline occurring in middle-aged and older adults. It is therefore concerning that most middle-aged adults spend >8hrs/day being sedentary, with average step count of 3000-4000 steps/day. To be able to holistically assess the effectiveness of future strategies to address age-related decline in health, and devise public health messages to help individuals reach older age in better health, it is essential that the complex physiological effects that activity and inactivity have across biological systems are characterised. The goal of this intervention study is to compare the impact of physical activity and inactivity on body functioning. Twenty moderately active participants will decrease their physical activity for six months to match the average amount carried out by middle-aged people in the UK. They will then undertake 3-months of reconditioning training to restore their fitness. In addition, twenty sedentary participants will increase their physical activity to UK recommended levels for six months. Before and at points during the intervention period, participants will be asked to make some measurements at home and attend the University of Nottingham to have multiple assessments made. These include; - fitness, muscle strength and function tests, - completion of questionnaires and computer-based brain puzzles - having muscle and fat tissue biopsies and blood samples taken. - The study also involves having MRI scans. This 5-year study will commence in January 2024, with participant recruitment starting in March 2024 and finishing in May 2027.
This is an observational cohort study of long-living adults (participants aged 90 and above) from the Central Federal District of Russia. The study seeks to determine the genetic and cellular and molecular determinants of healthy longevity and to assess the impact of lifestyle and socioeconomic and environmental factors on healthy longevity. The study is expected to result in the development of a panel of markers of healthy longevity and/or a model of healthy aging based on the analysis of all factors under consideration.
The goal of this interventional non-pharmacological study is to investigate the effects of a multi-domain intervention ( "active intervention"), compared to that followed by normal clinical practice ("self-guided intervention"), in older adults. The primary objective is whether these interventions can prevent functional and cognitive decline in at-risk subjects. The multi-domain interventions will include physical exercise, a Mediterranean diet-based nutritional plan, cognitive training, regular medical check-ups, oral hygiene treatments and counseling, monitoring and counseling on visual and auditory abilities, counseling on sleep hygiene and treatment, control of cardiovascular, metabolic, and infectious risk factors, adjustment of drug therapy, suggestions for improving social interactions.
Background: Ageing is frequently accompanied by physiological changes that might result in a deterioration in physical and cognitive abilities, which frequently leads to institutionalization or the loss of autonomy. Mild cognitive impairment (MCI) is an intermediate state between normal cognitive aging and early dementia, the optimal period to intervene with preventive strategies and early treatments. Thus, the current study intends to investigate the effects of aerobic and computer-based cognitive training on age-related cognitive decline. Methods: This is a single-blinded, randomized controlled trial. Elderly patients with mild cognitive impairment (n = 60) will be randomized to 2 arms and treated for 12 weeks: arm 1 (aerobic exercise and computerized cognitive training) and arm 2 (Placebo; will not receive any intervention). Outcome measure used were Montreal Cognitive Assessment (MOCA) test, Barthel Index (BI) and short form survey-12 (SF-12). Statistical Analysis: To compare the baseline characteristics and outcome variables between the two groups, independent t-tests was employed. A two-way repeated measures ANOVA was utilized to determine the interaction effect of time (baseline, post-treatment, and follow-up) and group (intervention vs. control) on the outcome measures.
The goal of this clinical trial is to compare conventional clinical data collected as part of usual practice with data collected by the two digital tools to help diagnose major and minor neurocognitive disorders in elderly people consulting a memory center for cognitive complaints. The main question[s] it aims to answer are: - Is it possible to create a classification between the different intensities of cognitive impairment? - Is it possible to create a diagnostic tool consistent with the reference diagnosis? Participants will be asked to complete a series of cognitive and fine motor tasks, and will be given questionnaires on their lifestyle and medical history. They will be asked to wear a connected watch for 1 week. There is no comparison group.
The purpose of this research is to examine whether and to what extent training of different types of cognitive engagement will improve performance on fluid cognitive abilities that typically decline with age. The research covered by this protocol will use behavioral data that yield response latencies and accuracies of the untrained tasks, and brain activations in fMRI tasks, to test specific hypotheses about neural plasticity and cognitive plasticity from these engagement techniques. Hence, human subjects will be employed in an experiment lasting for 20 hours spanning over 2 months where they will either receive real-time strategy-based videogame training or crystallized intelligence training. In addition, long-term retention data will be obtained after 6 month post-training to investigate any long-term benefits.
The primary goal is to develop a multidomain intervention program focused on preserving global or regional brain volume and functions while simultaneously improving physical mobility and cognitive functions in older individuals with mobility frailty. This initiative seeks to unravel the brain-muscle axis mechanisms contributing to the accelerated functional declines observed in older populations. Moreover, our objective includes examining the relationships between the intervention and a broad spectrum of clinical characteristics, phenotypic traits, biochemical profiles, myokines, proteomics, metabolomics, brain imaging, and our previously identified discoveries involving exosomal miRNA.
This is a prospective follow-up study conducted at the Department of Psychiatry, The Chinese University of Hong Kong. The participants, including high-performing elderly (SuperAgers), normal ageing elderly and neurocognitive disorder (NCD) patients will be re-invited from our previous cohort (2013-2014) (N=488).
The aim of the current study is to investigate whether acute and 12-weeks daily intake of Nordic berries can improve cognitive abilities of adults without cognitive disease, and whether the effect can be linked to changes in metabolic parameters.