Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT04056624 |
| Other study ID # |
1R01HL142544-01A1 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
June 28, 2021 |
| Est. completion date |
April 14, 2022 |
Study information
| Verified date |
May 2023 |
| Source |
East Carolina University |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
The central goal of this proposal is to examine validity and sensitivity of RS-assessed skin
carotenoid status as a marker of F&V intake in a racially and ethnically diverse sample of
individuals. First, investigators will examine the association (RS Device Validity) between
RS-assessed skin carotenoids and the primary outcomes of objectively-measured plasma
carotenoids and self-reported F&V consumption across four diverse groups:
African-American/Black, Asian, White, and Hispanic/Latino (n=213). Then the investigators
will conduct a randomized controlled trial to define the relative skin carotenoid responses
(RS Device Sensitivity) across racial-ethnic groups, in comparison with plasma carotenoid
responses. The investigators will conduct a 6-week randomized controlled trial of a
carotenoid-containing juice intervention [placebo control, low and high dose juice (N=156).
Finally, the genetic basis for racial/ethnic group differences in skin carotenoid responses
to diet will be investigated through hypothesis-driven genomic analysis of participants from
Aims 1 and 2.
Description:
A diet rich in fruits and vegetables (F&Vs) is associated with lower risk of
nutrition-related chronic diseases and all-cause mortality. Despite these benefits, the US
population under-consumes F&Vs, with particularly low intake in disadvantaged populations.
Low F&V intake results in higher rates of nutrition-related chronic disease among
disadvantaged populations when compared with more advantaged populations. Detecting and
addressing inadequate F&V intake in these populations is needed to reduce such disparities.
Yet, there is still no commonly used predictive, objective measure of F&V intake for
surveillance or determination of policy or intervention effectiveness. The current objective,
"gold standard" marker of F&V intake is blood carotenoid concentration-an expensive,
time-intensive, and invasive measurement. Traditional methods of self-reported dietary
assessment are imprecise and have diminished utility in rural and disadvantaged populations
due to low literacy, numeracy, and internet connectivity. In the past decade, skin carotenoid
status assessed by non-invasive resonance Raman spectroscopy (RRS) has emerged as a promising
biomarker of F&V intake. Reflection spectroscopy (RS) is an improvement over RRS, offering
stronger signals, faster data acquisition, and greater portability in a commercially
available device (Veggie Meter, Longevity Link Corporation). However, a hurdle impedes use of
RS in scientific studies: to date, nearly all of the non-invasive skin carotenoid validation
has been conducted in non-Hispanic whites, primarily by RRS. Therefore, it is critical to
evaluate RS in racially and ethnically diverse populations. The central goal of this proposal
is to examine validity and sensitivity of RS-assessed skin carotenoid status as a marker of
F&V intake in a racially and ethnically diverse sample of individuals. First, the
investigators will examine the association (RS Device Validity) between RS-assessed skin
carotenoids and the primary outcomes of objectively-measured plasma carotenoids and
self-reported F&V consumption across four diverse groups: African-American/Black, Asian,
White, and Hispanic/Latino (target n = 320 but due to Covid-19, N=213). Then the
investigators will conduct a randomized controlled trial to define the relative skin
carotenoid responses (RS Device Sensitivity) across racial-ethnic groups, in comparison with
plasma carotenoid responses. The investigators will conduct an 6-week randomized controlled
trial of a carotenoid-containing juice intervention [placebo control, low and high dose juice
across 4 genetically-stratified racial-ethnic groups (goal n = 156). Finally, the genetic
basis for racial/ethnic group differences in skin carotenoid responses to diet will be
investigated through hypothesis-driven genomic analysis of participants from Aims 1 and 2.
The results of this study will prepare RS for mass deployment in population surveillance
studies and community-based intervention trials, ultimately leading to more accurate
determination of the most effective strategies to reduce health disparities related to low
F&V intake in the United States and beyond.
