View clinical trials related to Cognitive Decline.
Filter by:Older veterans with a history of mild brain trauma exhibit early cognitive challenges, especially in driving-related tasks. This is attributed to alterations in the brain's excitatory/inhibitory (E/I) balance. This pilot project investigates this phenomenon by leveraging electroencephalography (EEG) to measure parietal lobe alpha rhythms during visual attention tasks. The hypothesis is that targeted visual attention training can modulate these alpha rhythms, improving instrumental activities in daily life. However, outcomes from such training vary, possibly due to individual differences in cortical inhibitory functions. This study will assess the relationship between EEG measures of E/I balance pre- and post-visual attention training and its effects on processing speeds in aging veterans. Our findings aim to provide a foundation for customized therapies and interventions for veterans with and without a history of brain trauma.
This study aims to conduct cognitive training for digital biomarkers among older adults.
This study will test the feasibility and effectiveness of an innovative model of care for cognitively impaired patients with heart failure. This program aims to improve cognition, reduce dementia risk and cardiovascular events, and will be supported by innovative digital technology for wide scale rollout and implementation. Findings from this research will transform the way healthcare is delivered to cognitively impaired patients with heart disease who have a very high risk of developing dementia.
The Effects of Successful OSA TreatmENT on Memory and AD BIomarkers in Older AduLts (ESSENTIAL) study is a 5-year, multicenter randomized open-label trial that will screen 400 cognitively normal older adults recruited from well-established sleep clinics at 4 academic medical centers, with newly diagnosed moderate-severe OSA. An expected 200 OSA patients will be then randomized to one of two groups: i) a 3-month OSA treatment by any combination of PAP, OAT, and positional therapy that results in an "effective" AHI4%< 10/hour and AHI3A<20/hour (see below); ii) a waitlist control group to receive treatment at the conclusion of the 3-month intervention period. Both groups will continue follow-up for 24 months on stable therapy to determine if sustained improvements in sleep are associated with improvement in cognitive function and AD biomarkers.
Physiological aging is often associated with memory function decline. Recently, the use of transcranial direct current stimulation (tDCS), a type of non-invasive brain stimulation, has been combined with adaptive working memory training interventions in healthy older adults, providing evidence for a significant improvement in memory functions. To the best of our knowledge, no study addressed the use of strategic memory training coupled with the use of tDCS in normal aging. Strategic memory trainings allow to improve participants' performance in the practiced task and to generalize the use of memory strategies to new materials. This Randomized Controlled Trial (RCT) aims to evaluate the effectiveness of a combined intervention associating strategic memory training with the use of tDCS. Healthy older adults and participants with subjective cognitive decline will be recruited and randomly assigned to the experimental group (strategic memory training + ACTIVE tDCS) or the control group (strategic memory training + SHAM tDCS). All participants will be evaluated on transfer and practiced tasks before (T0) and after (T1) the treatment and during follow-up visits, scheduled at 1 month (T2) and 3 months (T3) after the intervention.
This protocol study aims to evaluate the efficacy of the MOVI-ageing intervention, a complex home-based eHealth intervention of cognitive-demanding exercise for the elderly, in improving: global cognitive function and basic cognitive functions and cardiorespiratory and muscular fitness. In addition, this sudy aims to evaluate the efficacy of the MOVI-ageing intervention, in improving: body composition (waist circumference and fat percentage), blood pressure, and health-related quality of life. The MOVI-ageing project has been designed in three phases comprising: i) a tool development study; ii) a 12-week randomized efficacy/feasibility trial of the intervention; and iii), a large-scale implementation phase with a 12-week randomized trial. The investigators will use a qualitative approach to improve the plataform design with the users perspective. Participants will have access to a platform where participants will be able to view videos of cognitively demanding physical exercise programs. The videos will be directed by an avatar and the research staff will be able to know the degree of compliance with the program and the correct execution of the program through the use of Physio Galenus technology. The platform will have information on how to be more active, and chat lines to communicate with the research group. Participants will receive feedback on their compliance with the routines and reinforcement messages.
To test the effects of 6 month additional intervention of ORIENT diet versus usual medical treatment for Intracranial / Carotid Stenosis on cognitive decline, multi-mode MRI image markers and serum and fecal biomarkers in a randomized controlled trial of 120 patients with intracranial / carotid stenosis, who are aged older than 40 years and without dementia.
Rationale: Individuals with spinal cord injury (SCI) suffer from accelerated cognitive aging. In able-bodied individuals, a vast amount of studies have shown that exercise interventions can improve cognitive function. Myokines (i.e. factors released into the blood stream from muscle cells) are considered one of the mediators of this beneficial effect. Neuromuscular electrical stimulation (NMES), used to replace or support muscle training in disabled individuals with poor exercise possibilities, was shown to elicit a large release of myokines (in some studies larger than following voluntary exercise). However, so far, the effects of NMES on cognitive function have never been studied before. In fact, only one study has previously investigated the effect of exercise on cognitive function in persons with SCI. Objective: The primary aim is to assess to what extent a 12 week intervention with NMES to the quadriceps muscles of people with SCI can change their performance on a set of cognitive tests. Secondarily, the investigators will measure to what extent NMES to the quadriceps muscles of people with SCI induces changes in blood levels of the myokine brain-derived neurotrophic factor (BDNF), which is considered a potential mediator of the exercise-cognition effect, facilitating neuroplastic processes. Study design: A single case experimental design (SCED) with sequential multiple baseline time series and a single-armed prospective study design, with a random duration of the baseline phase ranging from 3 to 6 weeks, an intervention phase of 12 weeks, and a 12 week period without measurements, followed by a follow-up phase of 3 weeks; in addition to a single-armed prospective study design. Study population: Individuals (n = 15) aged 18 years and older with a chronic SCI (>1y post-injury) and with visible or palpable contraction of the quadriceps muscles upon NMES will be recruited at the rehabilitation centre of Adelante in Hoensbroek, the Netherlands. Intervention: The study participants will receive 30min of NMES using surface electrodes on the quadriceps muscles three times per week for a total duration of 12 weeks. Main study parameters/endpoints: The primary outcome is cognitive function changes which will be measured using a secured smartphone application (e.g. m-Path). Secondary outcome measures are changes in the blood myokine levels of BDNF and changes in cognitive outcome scores on an verbal cognitive test battery.
COVID-19 has swept the world, and while some people may experience long-term cognitive decline as a result of infection, no effective treatment has been announced. The primary goal of this study was to determine the efficacy of hyperbaric oxygen therapy in patients with SARS-CoV-2 infection, as well as to assess the effect of hyperbaric oxygen therapy on brain function in patients with COVID-19-related cognitive decline. In this study, approximately 80 people were randomly assigned to either hyperbaric oxygen or regular oxygen therapy to compare the effects of these two treatments on disease.
Alzheimer's disease (AD) is characterised by a progressive loss of memory and cognitive function. In the early stages of AD, there is a progressive accumulation of molecules: β-amyloid peptides (Aβ) in the brain. There is a link between the accumulation of Aβ peptides and the deterioration of sleep, but current knowledge does not confirmed this link. The objective of this study is to define whether there is a link between cognitive decline and sleep disorders. If a correlation is found, this could allow earlier treatment of sleep disorders in the longer term in order to slow the development of AD. Treatment protocols in the field of Alzheimer's disease (AD) are directed towards participants at risk of developing the disease, such as those who carry at least one ε4 allele on apolipoprotein E (APOE ε4). An individual with 2 ε4 copies has a 30-55% risk of developing AD with an age of onset around 68 years and a dose effect of the allele on risk and age of onset of symptoms.