Kidney Blood Flow During Exercise in Older African American Adults

Not Applicable

Recruiting

• Conditions: Healthy

• Registration Number: NCT07029165
• Lead Sponsor: University of Massachusetts, Boston

Brief Summary

The goal of this preliminary study is to learn if healthy older African American (AA) adults have a larger change in their kidney blood flow during exercise compared to White (W) adults. The main questions that this study aims to answer are:

* Do healthy older AA adults have a larger decrease in kidney blood flow during exercise compared to W adults?

* Do healthy older AA adults have a larger decrease in kidney blood flow during other types of stress compared to W adults?

During one visit in the research lab, participants will:

* Perform cycling exercise while lying down

* Undergo a cold hand test

* Perform a mental math test

Completing this preliminary study will help researchers to understand more about why many AA adults have heart and kidney problems, so future research can study ways to reduce the number of AA adults who have these health issues.

Detailed Description

Racial disparities exist in the development of high blood pressure and heart and kidney disease. Over the last 25 years, African American (AA) adults have had the greatest prevalence of high blood pressure compared to any other racial identity group in the United States. In 2015, \~100,000 AA adults died from heart disease, accounting for one-third of all deaths in this population. AA adults also have a 2-3-times higher lifetime risk for developing end-stage kidney disease compared to White (W) adults. Further, advanced age is one of the most significant risk factors for developing high blood pressure, heart disease, and kidney disease. In 2013-2014, \~29% of deaths of adults aged 65 years or older were caused by heart disease, the leading cause of death in this population.

Elevated sympathetic nervous system activity is associated with increased incidence of heart and kidney disease. Physical activity, such as exercise, acutely increases sympathetic nervous system activity, notably directed towards the kidneys, resulting in reflex narrowing of small blood vessels inside the kidneys. This response reduces blood flow to the kidneys to deliver greater blood flow to the active skeletal muscles. Most of the research studies in this area have involved participant groups who were wholly or predominantly of W racial identity, with smaller proportions of individuals of other racial identities. This underrepresentation of non-W participants, including AA adults, has occurred despite the known health disparities such as the greater incidence of high blood pressure and heart disease and kidney disease experienced by these populations.

A larger decrease in kidney blood flow during exercise has been observed in patients with heart failure and peripheral arterial disease compared to healthy adults. However, it is not known whether the decrease in kidney blood flow during exercise is larger in healthy older AA adults compared to other racial identity groups. Given the greater level of chronic psychological stress often experienced by AA adults due to systemic racism and social and environmental factors, the associated cumulative negative impact on cardiovascular health could underlie a physiological difference observed between AA and W adults. Therefore, it is hypothesized that healthy older AA adults will exhibit a larger decrease in kidney blood flow during exercise compared to W adults. This greater response in older AA adults could be a significant factor contributing to the higher rates of heart and kidney disease in this population given the negative effect that this larger response could have over time, highlighting the clinical significance of this area.

The goal of this project is to collect preliminary data regarding the kidney blood flow response to exercise in healthy older AA compared to W adults. This will be achieved through the innovative use of Doppler ultrasound to noninvasively measure kidney blood flow in real time during cycling exercise in 6 healthy older AA adults and 6 healthy older W adults. The preliminary data collected in this project will be used to strengthen future proposals to secure external funding to complete this project on a larger scale. Findings from a larger-scale project will have important implications for developing preventative strategies to reduce the elevated risk of developing heart and kidney disease in the AA population.

Study Timeline

• Study Start: 2024-12-04
• Status Verified: 2025-06
• Study First Submitted: 2025-06-04
• Study First Submitted QC: 2025-06-11
• Last Update Submitted: 2025-06-11
• Study First Posted: 2025-06-19
• Last Update Posted: 2025-06-19
• Primary Completion: 2025-12
• Study Completion: 2025-12

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 12

Inclusion Criteria

• Self-report as either African American or White racial identity
• Born in United States
• Both biological parents identify as same racial identity as participant
• Recreationally active (participating in physical activity for at least 20 minutes per day, at least three times per week, but not training for competitive events)
• Fluent in English

Exclusion Criteria

• Hispanic or Latino
• Females who are pregnant or lactating
• Cardiovascular or renal disease
• Hypertension (blood pressure of more than or equal to 130/80 mmHg)
• Diabetes
• Obesity (body mass index of more than or equal to 30 kg/m2)
• Smoker/Tobacco user
• Acute medical conditions
• Taking prescribed cardiovascular, antihypertensive, or renal medications

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Primary Outcome Measures

Name	Time	Method
Change in renal vascular resistance during acute exercise	Pre-acute exercise and during 5 minutes of steady-state exercise	For the acute exercise intervention, the percent change from pre-acute exercise to during steady-state exercise will be assessed.
Change in renal vascular resistance during mental stress test	Pre-mental stress test to after 1, 2, 3, 4, and 5 minutes of mental stress test	For the mental stress test intervention, the percent change from pre-mental stress test to 1-minute intervals during the mental stress test will be assessed.
Change in renal vascular resistance during cold pressor test	Pre-cold pressor test to after 30, 60, 90, and 120 seconds of cold pressor test	For the cold pressor test intervention, the percent change from pre-cold pressor test to 30-second intervals during the cold pressor test will be assessed.

Secondary Outcome Measures

Name	Time	Method
Change in renal blood flow velocity during acute exercise	Pre-acute exercise and during 5 minutes of steady-state exercise	For the acute exercise intervention, the absolute change from pre-acute exercise to during steady-state exercise will be assessed.
Change in mean arterial blood pressure during acute exercise	Pre-acute exercise and during 5 minutes of steady-state exercise	For the acute exercise intervention, the absolute change from pre-acute exercise to during steady-state exercise will be assessed.
Change in systolic blood pressure during acute exercise	Pre-acute exercise and during 5 minutes of steady-state exercise	For the acute exercise intervention, the absolute change from pre-acute exercise to during steady-state exercise will be assessed.
Change in diastolic blood pressure during acute exercise	Pre-acute exercise and during 5 minutes of steady-state exercise	For the acute exercise intervention, the absolute change from pre-acute exercise to during steady-state exercise will be assessed.
Change in heart rate during acute exercise	Pre-acute exercise and during 5 minutes of steady-state exercise	For the acute exercise intervention, the absolute change from pre-acute exercise to during steady-state exercise will be assessed.
Change in cardiac output during acute exercise	Pre-acute exercise and during 5 minutes of steady-state exercise	For the acute exercise intervention, the absolute change from pre-acute exercise to during steady-state exercise will be assessed.
Change in stroke volume during acute exercise	Pre-acute exercise and during 5 minutes of steady-state exercise	For the acute exercise intervention, the absolute change from pre-acute exercise to during steady-state exercise will be assessed.
Change in total peripheral resistance during acute exercise	Pre-acute exercise and during 5 minutes of steady-state exercise	For the acute exercise intervention, the absolute change from pre-acute exercise to during steady-state exercise will be assessed.
Change in renal blood flow velocity during cold pressor test	Pre-cold pressor test to after 30, 60, 90, and 120 seconds of cold pressor test	For the cold pressor test intervention, the absolute change from pre-cold pressor test to 30-second intervals during the cold pressor test will be assessed.
Change in mean arterial blood pressure during cold pressor test	Pre-cold pressor test to after 30, 60, 90, and 120 seconds of cold pressor test	For the cold pressor test intervention, the absolute change from pre-cold pressor test to 30-second intervals during the cold pressor test will be assessed.
Change in systolic blood pressure during cold pressor test	Pre-cold pressor test to after 30, 60, 90, and 120 seconds of cold pressor test	For the cold pressor test intervention, the absolute change from pre-cold pressor test to 30-second intervals during the cold pressor test will be assessed.
Change in diastolic blood pressure during cold pressor test	Pre-cold pressor test to after 30, 60, 90, and 120 seconds of cold pressor test	For the cold pressor test intervention, the absolute change from pre-cold pressor test to 30-second intervals during the cold pressor test will be assessed.
Change in heart rate during cold pressor test	Pre-cold pressor test to after 30, 60, 90, and 120 seconds of cold pressor test	For the cold pressor test intervention, the absolute change from pre-cold pressor test to 30-second intervals during the cold pressor test will be assessed.
Change in cardiac output during cold pressor test	Pre-cold pressor test to after 30, 60, 90, and 120 seconds of cold pressor test	For the cold pressor test intervention, the absolute change from pre-cold pressor test to 30-second intervals during the cold pressor test will be assessed.
Change in stroke volume during cold pressor test	Pre-cold pressor test to after 30, 60, 90, and 120 seconds of cold pressor test	For the cold pressor test intervention, the absolute change from pre-cold pressor test to 30-second intervals during the cold pressor test will be assessed.
Change in total peripheral resistance during cold pressor test	Pre-cold pressor test to after 30, 60, 90, and 120 seconds of cold pressor test	For the cold pressor test intervention, the absolute change from pre-cold pressor test to 30-second intervals during the cold pressor test will be assessed.
Change in renal blood flow velocity during mental stress test	Pre-mental stress test to after 1, 2, 3, 4, and 5 minutes of mental stress test	For the mental stress test intervention, the absolute change from pre-mental stress test to 1-minute intervals during the mental stress test will be assessed.
Change in mean arterial blood pressure during mental stress test	Pre-mental stress test to after 1, 2, 3, 4, and 5 minutes of mental stress test	For the mental stress test intervention, the absolute change from pre-mental stress test to 1-minute intervals during the mental stress test will be assessed.
Change in systolic blood pressure during mental stress test	Pre-mental stress test to after 1, 2, 3, 4, and 5 minutes of mental stress test	For the mental stress test intervention, the absolute change from pre-mental stress test to 1-minute intervals during the mental stress test will be assessed.
Change in diastolic blood pressure during mental stress test	Pre-mental stress test to after 1, 2, 3, 4, and 5 minutes of mental stress test	For the mental stress test intervention, the absolute change from pre-mental stress test to 1-minute intervals during the mental stress test will be assessed.
Change in heart rate during mental stress test	Pre-mental stress test to after 1, 2, 3, 4, and 5 minutes of mental stress test	For the mental stress test intervention, the absolute change from pre-mental stress test to 1-minute intervals during the mental stress test will be assessed.
Change in cardiac output during mental stress test	Pre-mental stress test to after 1, 2, 3, 4, and 5 minutes of mental stress test	For the mental stress test intervention, the absolute change from pre-mental stress test to 1-minute intervals during the mental stress test will be assessed.
Change in stroke volume during mental stress test	Pre-mental stress test to after 1, 2, 3, 4, and 5 minutes of mental stress test	For the mental stress test intervention, the absolute change from pre-mental stress test to 1-minute intervals during the mental stress test will be assessed.
Change in total peripheral resistance during mental stress test	Pre-mental stress test to after 1, 2, 3, 4, and 5 minutes of mental stress test	For the mental stress test intervention, the absolute change from pre-mental stress test to 1-minute intervals during the mental stress test will be assessed.

Trial Locations

Locations (1)

University of Massachusetts Boston; 🇺🇸 Boston, Massachusetts, United States