42 Clinical Trials for Various Conditions
The purpose of this study is to see if 6 months of home-based walking will improve memory, and brain structure and function, compared to health education in older adults that have chronic kidney disease and mild cognitive impairment.
The investigator aims to assess the extent to which a brief exercise intervention improves systemic growth factor concentrations, reverses loss of systemic vascular networks and hypertension, and by extension, improves neurocognition. To test the investigator's hypothesis that increased cardiovascular fitness will correlate with improved vascular density, the investigator proposes the innovative use of retinal density scans.
This study examines the behavioral, molecular, and structural biomarkers of brain health that will allow for the stratification of individuals according to their "cognitive signature" and function. This study will randomize older adults into one of four interventions for a period of 12 months: 1) Aerobic Exercise, 2) Resistance Exercise, 3) Yoga Exercise, 4) Health Education (involves stretching and range of motion activities). This aims of this study will examine whether and how these different types of training interventions exert effects cognitive function, brain structure, biomarkers of brain health and cognition, and physical function.
The purpose of this research study is to examine the potential benefits of vortioxetine in combination with at-home computerized cognitive training program to improve cognition, such as memory, attention, and concentration. This study will compare the effectiveness of vortioxetine plus cognitive training versus placebo plus cognitive training.
The aim of this study is to determine the efficacy of 6 months' dietary supplementation with omega-3 fatty acids and whole freeze dried blueberry powder in improving cognition in older adults. The effects of each of these interventions alone will also be assessed in order to determine whether the combined treatment confers synergistic or additive benefit relative to the effect of each therapy.
The primary objective of this study is to determine if increasing age confers greater vulnerability to the acute A) cognitive (e.g., memory, attention, psychomotor function), B) subjective (e.g., anxiogenic and rewarding effects), and C) cardiovascular (heart rate and blood pressure), effects of THC in adults \> 21 years old. The secondary aims of the study are to explore age-related acute effects of THC on electrophysiological indices of information processing (e.g., auditory steady-state response (ASSR), oddball paradigm \[P300\], and resting state cortical noise) and to determine age-related differences in the metabolism of THC. It is hypothesized that increasing age will confer greater vulnerability to THC-induced cognitive impairments, anxiogenic effects, and cardiovascular effects but are less vulnerability to its rewarding effects. Increasing age will confer greater vulnerability to THC-induced deficits in electrophysiological indices of information processing including.
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 mindfulness practice with 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.
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.
This study aims to examine the longer-term benefits of a novel, neuroplasticity-based, computerized and web-deliverable training program (PACR-CT) five years from the initial 10 weeks of training from our Phase II study - Protocol #: PSC-0605-17 (Aim 1) and test the interactive effect of previous training and 10 weeks of booster training (Aim 2). Both the study and the software being investigated meet the criteria of Non-Significant Risk.
This project capitalizes on a natural experiment imposed by the COVID-19 pandemic in conjunction with an extensive set of cognitive, emotional, biological, and neuroimaging variables already collected at multiple time points in older adults participating in a clinical trial of exercise and mindfulness. This project will elucidate the effects of stress on cognitive function and emotional health in later life, including biological measures of Alzheimer Disease risk, stress, and aging, with the ultimate goal of discovering how to mitigate these effects, among older adults who have made and maintained a lifestyle change.
To test a 14-hour prolonged nightly fasting (PNF) protocol in a group of older adults (≥ 65 years old) with self-identified age-related cognitive decline (ARCD) on the primary outcome of neurocognitive function and performance as measured by objective outcomes. The investigators will use an 8-week single group pre-post pilot study design to measure outcomes related to neurocognitive function and performance and cardiometabolic risk factors (i.e., sleep disturbances, body mass index).
This study evaluated the feasibility of a remote web-based ecological cognitive training protocol to healthy older adults. The training protocol involves 5 training sessions.
Older adults at risk for dementia show a variety of cognitive deficits, which can be ameliorated by different cognitive training (CT) exercises. The best combination of CT exercises is unknown. The aim is to discover the most efficacious combination of CT exercises as compared to cognitive stimulation (which will serve as a stringent, active control) to modify the functional trajectories of older adults' with MCI, who are at high risk for dementia. The primary objective of the U01 phase was to design and pilot-test an adaptive, randomized clinical trial (RCT) of cognitive training (CT) combinations aimed to enhance performance of instrumental activities of daily living (IADL) among persons with mild cognitive impairment (MCI). In the R01 phase, the objective is to identify the best combination of CT exercises to delay dementia onset among persons with MCI. The longitudinal endpoint goal is reducing incident dementia. The primary aim of the study is to determine which CT combination has the best probability to delay dementia by producing the largest IADL improvements. The study further aims to explore neuroimaging and novel blood-based biomarkers.
Dementia is the most expensive medical condition in the US and increases in prevalence with age. More than 5 million Americans have Alzheimer's disease, the most common form of dementia. Mild cognitive impairment is a transitional stage between normal cognitive aging and Alzheimer's disease or another type of dementia, and is indicative of higher risk for dementia. In addition to the obvious health and quality-of-life ramifications of dementia, there are high direct (e.g., subsidizing residential care needs) and indirect (e.g., lost productivity of family caregivers) economic costs. Implementing interventions to prevent MCI and dementia among older adults is of critical importance to health and maintained quality-of-life for millions of Americans. Recent data analyses from the Advanced Cognitive Training in Vital Elderly study (ACTIVE) indicate that a specific cognitive intervention, speed of processing training (SPT), significantly delays the incidence of cognitive impairment across 10 years. The primary contribution of the proposed research will be the determination of whether this cognitive training technique successfully delays the onset of clinically defined MCI or dementia across three years.
The proposed SBIR Phase I study tests the feasibility of PATH neurotraining for improving cognitive skills in older adults and, potentially, forestalling or protecting against cognitive decline and dementia. The feasibility of PATH neurotraining will be evaluated by comparing it with another cognitive training program, Brain HQ's Target Tracker, and ascertaining the relative advantage(s) of PATH neurotraining for enhancing cognition in older adults between 55 and 75 years of age whose cognition is either in the age-normative range or in the mild cognitive impairment (MCI) range of standardized psychometric measures. MEG/MRI source imaging will be used on 12 of the PATH group participants to determine whether the behavioral results are verified by improvements in the dorsal, attention, and executive control networks.
This study is a parallel arm, double-blind, randomized, controlled clinical trial to assess the efficacy of an experimental software program designed to improve cognitive functions versus a computer-based software control. Both the study and the software being investigated meet the criteria of Non-Significant Risk.
The purpose of this research is to examine the effects of four interventions on age-related cognitive decline in healthy older adults. The investigators will examine the effects of Mindfulness Based Stress Reduction (MBSR) psychotherapy, multi-component intensity-based aerobic exercise, and their combination, compared to a discussion group.
Healthy aging is associated with a decline in multiple cognitive domains, as well as motor control function. The long-term consequences of cognitive and functional impairment resulting from age-related cognitive decline are well documented in the scientific and clinical literature, with significant evidence of related problems with independent functional abilities. This study aims to understand how the experimental computer program can affect cognition and attention in participants with age-related cognitive decline.
Brain scans can help identify changes that appear to increase risk for cognitive decline and dementia. Some of these brain changes are thought to reflect actual damage to the small blood vessels that support normal brain function. This clinical trial will determine whether an omega 3 polyunsaturated fatty acid (PUFA) therapy can promote brain health by supporting the small blood vessels in the brain over 3 years in older adults at high risk for cognitive decline and dementia of Alzheimer's type.
This will be a systematic investigation of the role of walnuts in preventing or slowing age related cognitive decline and age related macular degeneration. 700 subjects will be recruited between 2 sites, Loma Linda University in California, USA and Hospital Clinic in Barcelona, Spain. Participants will be randomly assigned to either the walnut group or the control group for a 2 year intervention. Baseline and annual data will be collected and analyzed.
The primary purpose of this study is to apply state-of-the-art Magnetic Resonance Imaging (MRI) and Magnetic Resonance Spectroscopic Imaging (MRSI) techniques to measure changes over time in the brain.
The purpose of this study is to investigate the effect of docosahexaenoic acid (DHA, 22:6n-3) in improving cognitive functions in subjects with age-related cognitive decline. DHA is a long chain omega-3 fatty acid (LC-PUFA) that plays an important role in neural and visual development and cardiovascular health.
In the current study, we will examine how daily paced breathing affects plasma amyloid beta levels and the rate of learning in older adults. Healthy adults aged 50-70 who meet all eligibility criteria will be invited to this study. Participants will be randomly assigned to one of the two conditions: 1) Daily memory and attention training followed by a paced breathing protocol designed to increase relaxation or 2) Daily memory and attention training followed by a paced breathing protocol to increase alertness. Participants will be asked to complete pre and post intervention cognitive testing online, engage in 10 weeks of daily brain training (starting Week 2) and 9 weeks of paced breathing (starting Week 3) at home. They will also be asked to come in for lab visits on Weeks 2, 7 and 12 to provide blood and urine samples to assess amyloid beta levels and to complete magnetic resonance imaging scans to assess perivascular space volume.
The purpose of this project is to determine whether restoring the post-prandial metabolic/inflammatory balance via supplementation with raspberries results in improved cognitive performance, and if these enhancements are mediated through improvements in vascular function.
Different cognitive intervention approaches have been developed to attenuate decline (e.g., cognitive engagement, training, or stimulation), but it is not clear which approaches are efficacious. It is also not clear when, along the continuum of normal cognitive aging to mild cognitive impairment (MCI-a transitional stage before dementia onset), it is most efficacious to intervene. This randomized clinical trial will determine the efficacy of a novel cognitive engagement intervention approach (music training) as compared to cognitive stimulation (which will serve as a stringent, active control). Grounded in theory, the central hypothesis is that interventions enhancing central auditory processing (CAP), a strong, longitudinal predictor of MCI and dementia, will improve cognition. Music training is increasingly recognized as a feasible means to attenuate age-related cognitive decline. Prior research and preliminary data suggest that intense piano training enhances CAP and is likely more effective than cognitive stimulation. Correlational studies indicate superior CAP, executive function, and other cognitive abilities for adults with formal music training compared to non-musicians. The specific aims of the study are to examine the efficacy of music training relative to cognitive stimulation (active controls) to improve CAP, cognition, and everyday function among older adults with and without MCI. The efficacy of music training will be established and moderating effects of MCI status will be examined. The proposed study further aims to elucidate the underlying mechanisms of effective cognitive intervention approaches by exploring mediators of training gains. The proposed study is the first phase II randomized trial of music training to enhance older adults' cognition. Mediation analyses will elucidate the underlying mechanisms of intervention effects.
The goal of this study is to evaluate the impact of systemic therapy on cognition in older breast cancer patients, explore change in APE, LM and Cognition domains, measure associations between cognitive decline and QOL, and describe how genetic polymorphisms, inflammatory biomarkers, sleep and physical measures moderate cognitive outcomes. This study is being done nationally, with recruiting sites at Georgetown University, Montgomery General Hospital, Virginia Cancer Specialists, Washington Hospital Center, Reston Breast Care Specialists, Memorial Sloan-Kettering, Moffitt Cancer Center, City of Hope National Medical Center, Hackensack University Medical Center, Indiana University and University of California, Los Angeles.
This study is being conducted to assess the effect of dietary strawberry supplementation on cognition and mobility in obese middle-aged and older adults. It is hypothesized that plant compounds, present in strawberries, may improve cognition and mobility.
Tart cherries are a rich source of antioxidants. Studies have shown that tart cherries exert anti-oxidative and anti-inflammatory properties. The purpose of this study is to learn about the effects of drinking tart cherry juice on cardiovascular and cognitive health.
The purpose of this investigation is to assess the effectiveness of a multi-disciplinary Acute Care for Elders (ACE) program dedicated to the care of patients age 70 and older admitted to Oregon Health \& Science University's hospital medicine service. The ACE program will aim to improve the quality of care of older patients in the investigators hospital by implementing focused interventions and recommendations specific to geriatric needs and syndromes, including: reduced fall rate, decreased incidence and duration of delirium, early recognition and treatment of impaired mobility and function, careful minimization of medication use, prevention of unnecessary catheter and restraint use, decreased hospital readmission rates, improved transitional care following hospital discharge, and high levels of patient and referring physician satisfaction. Additionally, the ACE program aims to improve resident and student competence in treating geriatric syndromes, and to improve staff and learner satisfaction with caring for older adults. ACE programs have been well studied at other institutions, so the investigators will be implementing a program that is already standard of care, and studying the elements that are unique to OHSU. This will be a quality improvement project. Study participants will be a convenience sample of OHSU faculty, staff, residents and students who are employed by or on rotation with General Medicine Team 1 of the Medicine Teaching Service. Faculty, staff, and learners (ACE team members) will receive the ACE training. Study personnel will conduct prospective and retrospective chart review of patients admitted to the ACE service to determine outcomes as noted above.
To evaluate the dose-response of relevant blood biomarkers to remote ischemic conditioning in patients with age-related cerebral white matter hyperintensities on MRI, in preparation for a subsequent larger efficacy trial.