Tailoring Mobile Health Technology to Reduce Obesity and Improve Cardiovascular Health in Resource-Limited Neighborhood Environments
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About
Background:
Heart disease is a leading cause of death. People can reduce their heart disease risk by exercising more. Mobile health technology may make people more successful at increasing their exercise. This includes things like physical activity monitors and smartphone apps.
Objective:
To find out if mobile health technology can increase physical activity.
Eligibility:
African American women ages 21-75 who:
- Are overweight or obese
- Live in certain areas near Washington, DC
- Have a smartphone that can use the study app
Design:
At visit 1, participants will
- Answer survey questions. These may be about medical history, physical activity, and weight. They may also cover body image, health perception, and spirituality.
- Have body size measured and get blood tests
- Get a device to wear on the wrist. It will record physical activity and hours of sleep.
- Learn how to download and use the study mobile app
For 2 weeks, researchers will collect data about participants physical activity.
Then participants will have a study visit with additional blood tests.
All participants will get messages from the app that encourage exercise.
Some participants will get data from the app about exercise near their home or work.
Some participants may get face-to-face coaching.
Participants may get wireless devices. These measure body weight, blood pressure, and blood glucose. Participants can measure these at home and upload the data to the app for the study.
Participants will have visits after 3 and 6 months. They will repeat the visit 1 tests.
Full description
Targeted, effective behavioral interventions are critically needed to ameliorate the disproportionate prevalence of poor cardiometabolic health for African-American women. We propose a sequential, multiple-assignment, randomized trial targeting physical activity (PA) among at-risk African-American women in resource-limited, Washington, D.C. communities using mobile health (mHealth) technology. We hypothesize that by beginning a community-based, adaptive PA intervention with remote coaching tailored to neighborhood environment PA resources, we will see greater increases in PA levels as compared to standard remote coaching. In Aim 1, we will determine if beginning an adaptive intervention with remote coaching tailored to neighborhood environment resources and delivered using mHealth technology (wearables and mobile applications) will lead to a greater PA increase (as measured by steps per day) as compared to standard remote coaching. In Aim 2, we will examine which of four embedded adaptive interventions produce the largest PA increase over the six-month study period. In Aim 3, we will evaluate the feasibility of remote capture of cardiometabolic measures, including blood pressure, weight, and glucose, using mHealth technology. We will also examine intervention effects on cardiometabolic health (adiposity, blood pressure, fasting lipids/glucose, self-reported PA, dietary intake, cigarette smoking). In Aim 4a, we will characterize effects of increasing PA on integrated serologic cytokine/chemokine and lipid inflammatory intermediates to identify potential novel inflammatory pathways linked to cardiometabolic risk phenotypes most responsive to the multi-level, community-based PA intervention. In Aim 4b, we examine the feasibility of measuring potential psychosocial and behavioral mediators of the relationship between PA change and CV health. In Aim 5, we will conduct iterative testing of the mobile health technology used in the protocol with a user-centered design approach. In Aim 6a and 6b, we will assess for changes in cardiac structure and function as well as body composition using MRI before and after the intervention. We will also determine the feasibility of measuring behavioral and psychosocial mediating factors of the relationship between PA change and cardiometabolic health in this intervention, including chronic psychological/environmental stress and sedentary behavior/sleep. In addition, because of the COVID-19 pandemic in 2020, we will measure exposure to COVID-19 and psychosocial stress caused by the pandemic as potential confounders of immunologic outcomes and psychosocial stressors in this study. Finally, we will explore the relationships between PA, social determinants of health, and biological markers in this intervention cohort and compare them to other populations using available cohort data. This project provides fundamental knowledge towards the development of tailored, effective behavioral interventions incorporating mHealth technology to promote health among populations most impacted by health disparities.
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Inclusion and exclusion criteria
- INCLUSION CRITERIA:
Individuals eligible for this protocol are overweight or obese (BMI >= 25 kg/m^2) African American women aged 21-75 years who live in Washington, DC Wards 5,7, or 8 and neighboring areas of Prince George s County, MD. Eligible participants should also have access to a smartphone compatible with the mobile app for the protocol that they can use for the study. Eligible participants must be able to provide informed consent independently and also speak and read English at the 8th grade level.
EXCLUSION CRITERIA:
- Medical condition, including heart failure, recent unintentional weight loss or physical limitation, that might prohibit safe participation in physical activity for any reason
- Heart disease as indicated by history of myocardial infarction in past 1 year, documented obstructive coronary artery disease on coronary angiography, coronary artery stent placement, within the last year significant structural heart disease (e.g. hypertrophic or dilated cardiomyopathy with EF <35%, severe valvular heart disease) with evidence of decompensation.
- Pregnant women due to large hormonal changes during pregnancy that affect study variables and potential pregnancy-related restrictions on exercise. All participants of childbearing potential will need to self-report a negative pregnancy at the screening visit, baseline visit, and at the three-month and six-month visits, unless the participant self-reports being postmenopausal, having had a tubal ligation, or having undergone a complete hysterectomy.
Pilot Study INCLUSION CRITERIA:
- Must be an African-American female
- Must be within the age of 21-75 years old
- Must be overweight or obese (Body Mass Index (BMI) >= 25 kg/m^2)
- Must live in Washington DC Wards (5, 7, or 8) or live in Prince George s County, Maryland
- Must have a smartphone that is compatible with the study software (mobile app)
- Must be willing to use the software on personal smartphone for the study
- Must be able to provide consent
- Must be willing to wear the wrist-worn physical activity device for the study
- Must not be pregnant
Optional MRI Tests
Subjects will be screened for implanted metal objects or devices that may be incompatible with MRI (i.e. cerebral aneurysm clip, cochlear implant, pacemaker, etc.) These subjects will be eligible to proceed with study enrollment, but will not undergo the optional MRI study.
Trial design
Primary purpose
Allocation
Interventional model
Masking
325 participants in 2 patient groups
Trial contacts and locations
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Central trial contact
Tiffany M Powell-Wiley, M.D.; Marie Marah, R.N.
Data sourced from clinicaltrials.gov
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