Research design and setting

This cross-sectional study is a secondary analysis of data from a larger evaluation study of the North Carolina Healthy Food Small Retailer Program (NC HFSRP), which is detailed in other manuscripts^{(5,Reference Jilcott Pitts, Wu and Truesdale9,Reference Jilcott Pitts, Wu and Truesdale17–Reference Haynes-Maslow, Jilcott Pitts and Boys20)} . A total of twenty-two small food retailers were evaluated, including customer intercept surveys and bag checks among 1261 customers between 2017 and 2020. While the NC HFSRP was first designed to promote healthy food access in rural areas, it was eventually expanded so that seven of the stores were in rural areas and fifteen were in more urban areas. To classify stores as rural or urban, the stores were spatially joined to census tract-level data from the USDA Food Access Research Atlas dataset which defines rural and urban based on the geographic centroid of the census tract, with census tracts containing more than 2500 people being urban, and all others being rural⁽²¹⁾.

Study population and data collection

Participants in this study were a convenience sample of adults (18 years or older) who purchased food or beverage items at small food retailers participating in the larger evaluation study⁽¹⁸⁾. Verbal consent was given after research staff provided individuals with information about the study. If interested and eligible, participants completed a survey with demographic information and researchers conducted a bag check by recording detailed information on each item purchased, consistent with procedures in prior studies^{(Reference Caspi, Pelletier and Harnack22,Reference Kiszko, Cantor and Abrams23)} .

Skin carotenoid scores

SCS were measured using the Veggie Meter®, a non-invasive, portable device that uses pressure-mediated reflection spectroscopy to quantify skin carotenoids^{(Reference Ermakov and Gellermann24)}. The Veggie Meter® has been validated against plasma carotenoids and self-reported FV intake and has been successfully used in community settings among racially and ethnically diverse participants^{(18,Reference May, Jilcott Pitts and Stage25–Reference Bayles, Peterson and Jilcott Pitts28)} . SCS are associated with plasma carotenoids and FV intake^{(Reference Jilcott Pitts, Moran and Wu29,Reference Mayne, Cartmel and Scarmo30)} , key components of the federal Dietary Guidelines for Americans^{(31–Reference Chiavaroli, Viguiliouk and Nishi34)}.

Each participant’s right index finger was inserted into the instrument’s finger cradle to bring the fingertip in contact with the collecting contact lens, while simultaneously applying light pressure so that blood was temporarily squeezed out of the measured skin region^{(Reference Ermakov, Ermakova and Sharifzadeh27)}. Participants’ fingers were scanned three times in the single-scan mode to obtain a mean SCS. SCS range from 0 to 800, with a higher score indicating more skin carotenoids present. The device was calibrated with a light and dark reference before each measurement session.

Bag check purchase data

Bag check data were analysed to generate a total of four scores detailing individuals’ purchases: (1) Healthy Purchases; (2) Healthy Purchases-Proportion; (3) Carotenoid-Containing Purchases; and (4) Carotenoid Containing Purchases-Proportion. To classify foods, one Registered Dietitian/Nutritionist (RDN (PhD) and one Nutritional Epidemiologist (PhD) were given a list of all recorded food and beverage items and independently classified items as healthy or unhealthy and carotenoid-containing or non-carotenoid-containing. Coding results were compared, and a second RDN, PhD, served as the tiebreaker on items when consensus was not reached. The criteria used to classify healthy items followed the 2020 Dietary Guidelines for Americans and included fruits, vegetables, eggs, beans, bread, low-fat dairy products, lean protein and 100 % juice⁽³¹⁾. Common non-healthy items included processed meats, sweetened drinks, salty and sweet snacks, and ready-to-eat meals^{(Reference Mayne, Cartmel and Scarmo30,Reference Chiavaroli, Viguiliouk and Nishi34)} . The criteria used to classify carotenoid-containing were that items must have had ≥ 0·1 mg per serving of either α-carotene, β-carotene, β-cryptoxanthin, lycopene, lutein and zeaxanthin (the most common forms of carotenoids in the human diet)^{(Reference Eggersdorfer and Wyss35)}. Examples of carotenoid-containing foods and beverages included orange juice, tangerine fruit cups, avocadoes, string beans, tomatoes, green peppers, yams, spinach, eggs, sweet potato, salad and collards. Further details on food and beverage classifications can be found in Table 1.

Table 1 Decision criteria for coding bag check food and beverage items as healthy or unhealthy, and example food and beverage items*

* All items not to be consumed by an adult (e.g. infant formula) or non-edible (e.g. gasoline and laundry detergent) were not coded or included in the denominator of proportion scores.

To calculate the Healthy Purchases score, participants received a score of 1 if any healthy items were purchased and a score of 0 if no healthy items were purchased. To calculate the Healthy Purchases-Proportion score, all items in a purchase were scored as healthy (1) or not healthy (0) and summed, and the number of healthy purchases was divided by the total number of items purchased (healthy and unhealthy). Multi-component items (e.g. BLT sandwich) were coded as their individual components (e.g. bacon, lettuce, tomato and bread).

To calculate the Carotenoid-Containing Purchases score, participants received a score of 1 if any carotenoid-containing items were purchased and a score of 0 if no carotenoid-containing items were purchased. To calculate the Carotenoid-Containing Purchases-Proportion score, all items in a purchase were scored as a carotenoid-containing food (1) or non-carotenoid-containing foods (0), and carotenoid-containing foods were summed and then divided by the total number of items purchased (carotenoid and non-carotenoid containing foods). Multi-component items were coded as their individual components, similar to coding for the healthy proportion purchases.

Analysis

Data analyses were conducted using SAS version 9.4 (SAS Institutes). Univariate statistics, including means and frequencies, were used to describe demographic variables. Chi-square tests and two-sample t tests were used to compare the demographics between those who purchased healthy/carotenoid items and those who did not. To examine associations between purchase of healthy items and carotenoid-containing items and VM®-assessed skin carotenoids, t tests and multiple linear regression models were computed, including covariates of sex, age, race and smoking status. These covariates were included because they could all be associated with FV intake and with SCS^{(Reference Madore, Hwang and Park36–Reference Parks, Blaser and Smith39)}. The four main independent variables considered were Healthy/Carotenoid-Containing Purchasing scores and Healthy/Carotenoid-Containing Purchases-Proportion scores. Data were collected for 1086 participants; however, due to missing data, sample sizes ranged from 966 to 967 in linear regression models. In an analysis of missing data, there were no significant differences between those missing and not missing data on the variables of interest (healthy/carotenoid-containing purchases and skin carotenoids). For bivariate analyses between proportion of healthy items and proportion of carotenoid-containing items, Pearson’s correlation coefficients were used, with Cohen’s criteria for the strength of association (0 < 0·3 = small; 0·3–0·5 = moderate; > 0·5 = large)^{(Reference Cohen40)}.