29 Clinical Trials for Various Conditions
This intervention is designed to promote enhanced use of compensation strategies including calendar and task list use, and organization systems, as well as increased engagement with brain health activities including physical exercise, cognitive activities, and stress reduction.
The objective of this study is to use a randomized controlled design to determine whether cardiorespiratory fitness training improves neurocognitive function and academic performance during preadolescent development.
The goal of this randomized, cross-over, single-site trial followed by an exploratory third intervention is to understand how indoor lighting affects different measures of brain health in older adults living in independent living residences. This is a community based study occurring in a local senior living facility. The main question this study aims to answer is: - How does the quality of ambient indoor lighting an older adult is exposed to affect measures of brain health, such as sleep quality, physical activity, cognitive function, and social engagement? Participants will be exposed to three different indoor lighting conditions for 4 weeks each while performing the following tasks: * Wear a smartwatch throughout the study to measure sleep quality and physical activity * Wear a small, wearable light sensor to measure light exposure during waking hours * Perform cognitive assessments throughout the study to detect any changes between each of the lighting conditions * Complete self-report of surveys to assess independence, social engagement, sleep quality, and mood Results from these tasks will be compared within and between subjects to assess whether the different lighting conditions affect these different measures of brain health.
This study tests the feasibility, acceptability, and efficacy of a multimodal intervention (walking, social engagement, and reminiscence), including the use of wearable digital biomarkers, for cognitively healthy and mildly cognitively impaired African Americans aged 65 and older.
This phase II trial tests whether an exercise intervention works to improve cognitive function in breast cancer survivors. Many breast cancer survivors report cancer-related cognitive impairment, which this has recently become a priority in clinical research due to its dramatic impact on daily functioning, quality of life, and long-term health. Aerobic exercise has the potential to improve cognitive function and brain health in older adults and is recommended as a safe, tolerable, and accessible complementary therapy for breast cancer survivors. This study aims to understand the effects of physical activity compared with health education on memory, attention, and brain health in women with breast cancer. Study findings may help researchers design more programs that can improve memory, attention, and brain health in other women with breast cancer.
This pilot study tests the effects of aerobic exercise training on cognitive function in breast cancer survivors (BCS). Participants will be randomized to a 12-week walking intervention or usual care. Walking participants will attend small group sessions led by an exercise specialist 3 times weekly. Usual care participants will complete baseline and post-testing and be offered two sessions with an exercise specialist. All participants will complete a fitness test, electrophysiology, and patient-reported outcomes at baseline and post-intervention. A subset of participants will also be invited to undergo magnetic resonance imaging (MRI). The investigators will generate preliminary data on clinical and biological correlates of exercise and cognition, including treatment protocol, cardiorespiratory fitness, brain structure and function, and cancer-related fatigue.
Given the accelerating growth of older adults worldwide and the decline in cognitive function with aging, therapeutics that remediate age-related cognitive decline are needed more than ever. The proposed research seeks to better understand and enhance the detection of exercise effects on hippocampal network function and learning and memory, which decline with aging and Alzheimer's. Success would lead to new ways to detect benefits of exercise on cognitive aging and would lead to mechanistic insight on how such plasticity is possible while also informing prevention strategies.
Physical activity interventions with older adults can improve brain health; however most interventions have been performed in gym-like settings that reach a small sector of the senior population. Since not everyone can access a gym, it is important to study whether brisk walking in real world environments can also help brain health. This study will use mobile health devices to help older adults independently walk for brain health, thus representing a critical step towards the dissemination of physical activity intervention programs aimed at preserving cognitive function in aging.
Numerous modifiable lifestyle factors have been identified that may affect the risk of older adults developing mild cognitive impairment (MCI) and Alzheimer's disease (AD). Evidence suggests that interventions to reduce risk factors and enhance protective factors would be beneficial in slowing cognitive decline and decreasing the risk of incident MCI and AD. The overall objective of this pilot study, funded as a supplement to Keep Active Minnesota (KAM) (03-024; R01-AG023410) is to develop and test the feasibility of conducting a multi-domain intervention to maintain cognitive health in adults ages 60-80 with the goal of reducing the incidence of and slowing progression to MCI and other more severe forms of cognitive decline.
Recent trends have identified decreasing levels of physical activity, fitness, and health in preadolescent children. Examining factors, such as physical activity behavior and aerobic fitness that positively influence cognitive health of school-age children are important for improving school performance, maximizing health, and improving the overall functioning of individuals as they progress through the human lifespan. A sample of preadolescent children from the Urbana, Illinois elementary school system will be randomly assigned to a 9- month afterschool program that focuses on either aerobic exercise or wait-list control group to determine the effects of physical activity on basic and applied aspects of cognition. Changes in neuroimaging and behavioral indices of cognitive function and performance on standardized academic achievement tests of mathematics and reading will be examined as a function of participation in the intervention. Preliminary research supports that physical activity is positively associated with basic and applied aspects of cognition, with a stronger relationship for tasks requiring extensive amounts of executive control. However, previous research has mainly focused on older adults, and little research has examined the relationship between physical activity and executive control in children. These findings will provide lifestyle considerations for children to improve their cognitive health across the lifespan.
The overarching goal of this pilot clinical trial is to use a novel virtual reality (VR)-based intervention that simultaneously engages physical and cognitive activity aimed at improving brain and cognitive outcomes in older adults. Physical activity is a promising lifestyle intervention for mitigating cognitive decline or delaying onset of dementia. However, to fully leverage beneficial brain effects of physical activity, training the brain to learn and engage in a cognitively stimulating environment may be the key to enhanced brain and cognitive outcomes.
This multi-center, randomized controlled feasibility trial will assess a 20-week home-based exercise intervention in youth with Multiple Sclerosis (MS). The goal is to determine the feasibility of conducting a larger, definitive trial on exercise training as a non-pharmacological approach to improve disease outcomes in this population. Participants will be randomized to either an Exercise Training group or a Mobility and Flexibility Training group. The investigators will evaluate differences between the two groups in physical activity levels, mediators of physical activity, and psychosocial outcomes. Assessments, including clinical exams, brain MRI, eye tracking, cognitive testing, blood draws, and questionnaires, will occur at baseline and after 20 weeks. Accelerometry will be done at baseline, 10 weeks, and 20 weeks to track physical activity. The primary objectives are to assess the feasibility of recruiting, retaining, and randomizing youth with MS and to evaluate adherence to the exercise intervention and coaching sessions. Exploratory objectives include examining changes in depressive symptoms, cognitive function, blood biomarkers (BDNF and irisin), brain volume, and fitness levels in response to the intervention. Approximately 40 participants will be enrolled from four sites in Canada and the United States. Primary outcomes include feasibility, acceptability, and fidelity measures. Exploratory outcomes include blood biomarkers, brain MRI, cognitive testing, and other neuropsychological measures.
The primary purpose of this study is to examine the preliminary efficacy of 12-weeks of home-based exercise using consumer available virtual reality gaming technology, compared with a 12 week wait-list control group. The secondary purpose is to understand behavioral mechanisms that explain participation in exergaming through semi-structured interviews with participants from both groups at post-intervention or dropout.
The purpose of this project is to determine if participating in volunteer activity improves the psychological well-being of individuals with traumatic brain injury (TBI).
The growing U.S. cancer survivor population is projected to hit 26M by 2040. Chemotherapy represents an effective cancer treatment but can diminish cancer survivors' quality of life-particularly cognitive function-through select pathophysiological processes. Research on chemotherapy-induced cognitive impairment (hereafter, 'chemo-brain') is therefore critical. Chemotherapy disrupts immune system function and antioxidant regulation, causing inflammatory molecule release and damaging the brain's blood vessels. The brain's vascular function and, possibly, its neurons, are subsequently impaired-likely contributing to chemo-brain. Type 2 diabetes (T2D), a common cancer survivor comorbidity, shares underlying pathophysiology with chemo-brain. T2D-related insulin resistance can precipitate repeated high blood sugar episodes which increase inflammatory molecule release. In individuals with T2D without cancer, negative relationships are observed between inflammatory molecule concentrations and the brain's vascular and/or cognitive function. Cancer survivors with T2D might thus have higher chemo-brain risk than those without T2D. Yet, more research must compare how the brain's vascular function, as well as cognitive, inflammatory, and cardiometabolic indices, differ between these groups. Physical activity (PA) counteracts chemo-brain's and T2D's pathophysiology, with higher PA/fitness resulting in better vascular function of the brain, lower inflammatory molecule concentrations, and improved insulin sensitivity. We are therefore conducting a 30-participant quasi-experimental pilot study in cancer survivors with (cases) and without (controls) T2D. We will first investigate between-group differences in the brain's vascular function as well as cognitive, inflammatory, cardiometabolic, and epigenetic outcomes. We will then examine between-group changes in these outcomes and select psychosocial metrics during a 12-week technology-based PA program-potentially further elucidating involved mechanisms.
This randomized trial aims to determine the effectiveness a virtual wellness intervention program in individuals with traumatic brain injury (TBI). Participants will be randomized at enrollment into two groups: immediate treatment (IT) and delayed treatment (DT) group. This study will also provide insights into the impact of these intervention's components in helping emotional, physical, and nutritional outcomes post-injury in the context of social determinants of health (SDOH).
The goal of this clinical trial is to evaluate GetUp\&Go, a program for promoting increased physical activity in individuals at least 6 months post moderate-to-severe traumatic brain injury. GetUp\&Go is a remotely delivered 10-week program that includes one-on-one sessions with a therapist and a mobile health application (RehaBot). The main question is whether participants in the 10-week GetUp\&Go program increase their physical activity, and exhibit associated benefits in mental and physical health, relative to those who are put on a waitlist. * Question 1: Do participants who receive immediate treatment with GetUp\&Go show more increased physical activity, measured by accelerometer activity counts per day, and improve more on secondary outcomes, such as self-reported physical activity, emotional function, fatigue, sleep, pain, and health-related quality of life, compared to their baseline, relative to those who are put on a waitlist? * Question 2: Do participants who have continued access to the mobile health component of the intervention, RehaBot, show better maintenance of physical activity gains compared to those who no longer have access to RehaBot? * Question 3: Are individual participant characteristics associated with participants' response to the treatment program?
The aim of this study is to compare brain changes in individuals with overweight or obesity enrolled in either the Noom Healthy Weight program or a matched control. The study objectives (primary and secondary) are to measure brain change reported as ERP and EEG data over a 16-week timeframe. Additionally, we will explore changes in the default mode network (resting-state asymmetry in EEG measurements), changes in executive functioning, quality of life, mood, and salivary markers as they relate to EEG data.
This study evaluates the effect of a physical exercise + caregiver skills training on feelings of burden, mood, and biological markers of inflammation in persons who provide care for Veterans with a TBI or dementia. Half of the caregivers will participate in a balance and flexibility + caregiver skills training program, while the other half will participate in a moderate/high intensity aerobic and resistance + caregiver skills training program.
Although exercise is known to delay cognitive decline and decrease our risk of Alzheimer's Disease, there is a lack of understanding of how exercise protects the aging brain. The proposed research takes a novel approach to this problem by testing the concept that there are acute, direct effects of exercise in the same brain regions that are affected by chronic exercise training. If the investigators are successful, the acute paradigm will allow us to determine the critical exercise parameters that modulate brain function in humans using only a single exercise dose.
The objective of the research is to test the hypothesis that participating in group-based gardening activities alters brain network activation and function, and that such change occurring in the brain forms the neurobiological basis for much of the nonphysical activity portion of the therapeutic benefits of gardening and horticultural therapy. Assessment of the effects of the gardening activities on the experimental population will take two approaches, the first being the use of functional Magnetic Resonance Imaging (fMRI) to assess the regions of the brain that may become activated as a consequence of experiencing the cumulative gardening activities and associated stimuli. The allied approach will employ widely used and well-established self-reported assessment instruments that will capture information about the health and well-being that will then provide a psychometrically-based before and after physical and health summary of the participants in the control group and those engaged in the gardening activities.
The purpose of this study is to explore whether an implementation process composed of offering CR to staff in a single hospital nursing unit has any potential impact on unit-level quality measures post-implementation.
The purpose of this study is to evaluate the use of Cereset Research to improve the symptoms of stress in healthcare workers in an open label, waitlist controlled pilot clinical trial, during the period of COVID-19.
Non-randomized pilot intervention using mobile-administered sub-threshold exercise to treat youth with prolonged symptoms of concussion.
The goal of this research study is to learn about how brain activity, cognitive tests (tests of participant's brain function), and stress hormones are related to taking part in a health and wellness program in elementary-aged students.
The goal of this clinical trial is two-fold. First to investigate the feasibility of whether a remotely administered smartphone app can increase the volume and intensity of physical activity in daily life in individuals with a LRRK2 G2019S or GBA1 N370S genetic mutation over a long period of time (24 months). Second, to explore the preliminary efficacy of exercise on markers for prodromal Parkinson's disease progression in individuals with a LRRK2 G2019S or GBA1 N370S genetic mutation. Participants will be tasked to achieve an incremental increase of daily steps (volume) and amount of minutes exercised at a certain heart rate (intensity) with respect to their own baseline level. Motivation with regards to physical activity will entirely be communicated through the study specific Slow Speed smartphone app. A joint primary objective consists of two components. First to determine the longitudinal effect of an exercise intervention in LRRK2 G2019S or GBA1 N370S variant carriers on a prodromal load score, comprised of digital biomarkers of prodromal symptoms. The secondary component of the primary outcome is to determine the feasibility of a remote intervention study. The secondary objective is the effect of a physical activity intervention on digital markers of physical fitness. Exploratory outcomes entail retention rate, completeness of remote digital biomarker assessments, digital prodromal motor and non-motor features of PD. Using these biomarkers, the investigators aim to develop a composite score (prodromal load score) to estimate the total prodromal load. An international exercise study with fellow researchers in the United Kingdom are currently in preparation (Slow-SPEED-UK) and active in the Netherlands (Slow-SPEED-NL). Our intention is to analyse overlapping outcomes combined where possible through a meta-analysis plan, to obtain insight on (determinants of) heterogeneity in compliance and possible efficacy across subgroups
The purpose of this study is to conduct a 6-month pilot randomized trial to determine the feasibility and acceptability of theory-based mobile weight loss interventions for survivors of adolescent and young adult cancer (AYAs). The interventions use a mobile smartphone application, previously developed for individuals at risk for type 2 diabetes and adapted for AYAs, that integrates weight and physical activity from digital devices with simplified dietary monitoring in a behavioral weight loss program.
Randomized, controlled study of long-term maintenance Cereset Research after an initial 4-session intervention bolus versus usual care control following an initial 4-session intervention bolus.
The purpose of this prospective, interventional, single-arm pilot study is to evaluate whether virtually delivered group-based physical activity is feasible for adolescent and young adult (AYA) cancer survivors. AYAs who were diagnosed with cancer and have completed cancer treatment will be recruited for this study. This study will enroll 20 participants in total and will last approximately 3 months.