Partnership

This intervention was co-designed with food bank and FQHC partners, with significant input from community members accessing the food bank. In 2017–2018, partnerships with the food bank and health clinic were formed to develop an intervention approach that was responsive to the needs of clients and patients at both organisations. Initial work by our team provided insight into the dietary patterns of community members accessing the food bank^{(Reference Short, Kohler and Taren24)} and a deeper understanding of the perspectives of individuals with T2DM experiencing food insecurity^{(Reference Short, Sharma and Thompson25)}. Findings from these two studies informed the food and educational resources in the current feasibility study, including an emphasis on culturally acceptable foods and recipes.

Study design

Mixed methods research designs integrate quantitative and qualitative data to leverage the combined strengths of both datasets, with the goal of a more holistic evaluation of intervention feasibility than would be possible from either dataset alone^{(Reference Creswell26)}. This convergent mixed methods feasibility study consisted of a one group design with pre- and post-intervention data collection^{(Reference Wu, Deatrick and McQuaid22)}. Prior to the intervention initiation, we established a priori benchmarks focused on three criteria determined to be critical in order to progress to a larger definitive clinical trial: acceptability (> 50 % of participants are satisfied with the intervention), demand (> 50 % of participants use most or all intervention components) and implementation (participants receive > 75 % of food boxes and at least one dietitian visit; 80 % of participants are retained) – Table 1 ^{(Reference Bowen, Kreuter and Spring23)}. These benchmarks were based on retention and adherence challenges identified in prior research^{(Reference Seligman, Smith and Rosenmoss15,Reference Long, Rowland and Steelman27)} . The retention benchmarks also considered the sample size needed to generate estimates to inform a future definitive clinical trial. Acceptability and demand benchmarks were further refined based upon discussions with food bank and FQHC partners who identified their minimum thresholds to progress to a larger definitive clinical trial, while considering their respective goals, time and resource constraints. Consistent with mixed methods research^{(Reference Creswell26)}, quantitative and qualitative data addressing these criteria were collected and analysed in parallel. These data were then merged to compare results by transforming the qualitative data into numeric counts and linking quantitative and qualitative data in a joint display^{(Reference Creswell26,Reference Guetterman, Fetters and Creswell28)} . Transformation of qualitative data into quantitative counts (i.e. quantitising^{(Reference Sandelowski, Voils and Knafl29)}) facilitated integration and helped determine both whether the minimum quantitative benchmarks were met and whether the intervention was a feasible approach with this target population.

Table 1 Summary of select feasibility criteria, assessment methods and a priori benchmarks

Setting, participants, recruitment

Twenty-five patients with T2DM were recruited from an FQHC in Southern Arizona between March and July 2021 to participate in a 3-month food-plus DSMES-focused intervention. Patients were identified through provider referrals and electronic health record (EHR) screening conducted by FQHC staff. Study inclusion criteria included: FQHC patient, ability to read and speak English or Spanish (the most common languages spoken by patients at the FQHC), ≥ 18 years of age, diagnosis of T2DM with HbA1c ≥ 9 % (a priority patient population identified by our FQHC partners), home address, phone number, access to a kitchen and at risk for food insecurity per the Hunger Vital Sign^{TM(Reference Hager, Quigg and Black30)}. Eligible and interested respondents provided informed consent, were assigned a study ID, and completed baseline measures. Participants completed the intervention between May and October 2021. All participants received a $10 farmer’s market voucher, a can opener, a small paring knife and a set of measuring cups and spoons at the beginning of the study and a $25 gift card upon completion of the study activities. The University of Arizona Institutional Review Board reviewed and approved the study protocol.

Intervention

Components of the FRESH intervention included: a bi-monthly food package consisting of high-fibre and low-refined carbohydrate foods that met American Diabetes Association nutrition therapy recommendations^{(Reference Evert, Dennison and Gardner31)} (e.g. dried beans, rolled oats, canned mixed vegetables and canola oil), recipes that incorporated FRESH foods, DSMES materials from the American Diabetes Association and two, 30-minute virtual or in-person visits with an FQHC Registered Dietitian Nutritionist familiar with the intervention (see online Supplementary Appendix Tables 1–3 for all intervention components). Federally Qualified Health Center Registered Dietitian Nutritionists attended a 1-h training led by the study’s graduate research assistant to learn about the intervention and orient to the contents of the food and resource package. The FRESH food and resource package was designed to be a source of supplementary food to support the management of T2DM; contents were selected based on typical food packages distributed by the food bank and refined in response to feedback from food bank clients with T2DM^{(Reference Short, Sharma and Thompson25)}. Selected recipes featured 30 min or less of preparation time, and educational resources included information on batch cooking of high-fibre foundational ingredients (e.g. brown rice, beans). The FRESH food and education package was assembled by staff members at the food bank and delivered directly to participants’ homes twice per month by food bank drivers.

Quantitative data collection and analysis

Self-reported socio-demographic and health data were collected using the fifteen-item PRAPARE questionnaire at baseline and 3 months via telephone by trained interviewers from the University of Arizona Behavioral Measurement and Interventions Shared Resource⁽²¹⁾. Health-related quality of life was assessed using the four-item ‘Healthy Days Measures’ developed by the Centers for Disease Control and Prevention which asked participants to rate their recent physical and mental health⁽³²⁾. The six-item United States Department of Agriculture food security module was used to determine level of food security as high/marginal, low or very low food security^{(Reference Blumberg, Bialostosky and Hamilton33)}. The eight-item Diabetes Self-Efficacy Scale asked participants to rate their confidence in engaging in behavioural and medical management issues related to diabetes, on a scale of 1–10^{(Reference Ritter, Lorig and Laurent34)}.

Height, weight and HbA1c data were extracted from the EHR and entered into Research Electronic Data Capture tool^{(Reference Harris, Taylor and Thielke35)}. The EHR data extraction protocol included obtaining measures that aligned most closely to study baseline and 3-month follow-up dates. BMI (kg/m²) was categorised using the WHO cut-points (healthy, 18·5–24·9 kg/m²; overweight, 25–29·9 kg/m² and obese, ≥ 30 kg/m²)⁽³⁶⁾.

Dietary intake was assessed using two, non-consecutive interviewer-administered 24-h dietary recalls (one weekday, one weekend day) collected at baseline and follow-up (for a total of four) conducted telephonically using the USDA multiple-pass method^{(Reference Moshfegh, Rhodes and Baer37)}. Dietary data were entered into the Nutrient Data System for Research software versions 2020 and 2021⁽³⁸⁾. Diet quality was calculated using the Healthy Eating Index (HEI-2015), a valid and reliable measure of diet quality that allows for the assessment of how individual intake aligns with national dietary guidelines^{(Reference Reedy, Lerman and Krebs-Smith39,Reference Krebs-Smith, Pannucci and Subar40)} .

Socio-demographic, health-related quality of life, food security, diabetes self-efficacy, diet quality and EHR variables were summarised at baseline using median (interquartile range) or frequency counts and percentages. Quantitative data collected at 3-months (‘post-intervention’) were not reported in this manuscript due to our a priori emphasis on feasibility as a primary study aim, including assessment and refinement of data collection tools and procedures for a future definitive clinical trial. Recruitment, retention and adherence (i.e. food box delivery, dietitian visits) rates were tracked by the research team and calculated across the three-month intervention. Quantitative data were summarised using Stata 16.1 (StataCorp, Stata Statistical Software).

Qualitative data collection and analysis

Participants were invited to complete one, semi-structured in-depth phone interview at the end of the study in English or Spanish (online Supplementary Appendix, Table 4). A ten-item interview script was designed by the study team to explore the feasibility of intervention components (e.g. acceptability and use of program). Two trained research assistants completed the interviews which were digitally recorded and then transcribed directly into English by GMR Transcription Services, Inc. Transcripts were coded by trained coders using structured thematic analysis^{(Reference Braun and Clarke41)}, in which a codebook was created a priori based on the study feasibility criteria and served as an audit trail of key decisions made during analysis. Subcodes were identified that captured dimensions of overall codes (e.g. positive v. negative dimensions of acceptability). Two researchers independently coded transcripts using NVivo (release 1.6.1, QSR International Pty Ltd, 2022) using the codebook and routinely met to compare and discuss any coding discrepancies. A third senior researcher served as an external auditor by independently coding two transcripts (one at the start of transcript coding and one halfway through coding) and meeting with the team to resolve any coding discrepancies. The first audit prompted the expansion of codebook definitions to ensure consistent application of codes. A second audit (conducted halfway through transcript coding) confirmed that definitions were sufficient and that codes were being consistently applied. After coding was complete, the senior researcher and one graduate research assistant met to review participant responses and to group codes into categories within feasibility domains. Select participant quotes that represented feasibility domains were identified by ethnicity and gender to provide context to participant responses, including potential differences in how the intervention was perceived based on participants’ social identities. During this process, participants’ responses within the feasibility domains grew repetitive, signalling that theoretical saturation was met.

One-on-one scripted interviews were also conducted with FQHC and regional food bank staff involved in the development and delivery of the intervention. Interviews were guided by a seven-item semi-structured interview script, with four additional questions tailored to the FQHC, and included perceived intervention demand among patients and staff, issues with implementation, perceived fit within organisational operations, potential for sustainability and suggestions for improvement. Following each staff interview, a trained graduate research assistant reviewed interview recordings and composed written summaries using the Key Point Summary (KPS) method, a qualitative method that enabled rapid summarisation and incorporation of qualitative findings into the mixed methods analysis^{(Reference Schneider, Hall and Hernandez42)}. The KPS summarised key ideas from each interview that reflected feasibility criteria. This rapid analysis method was chosen due to staff feedback being primarily related to the overall implementation and identification of factors to consider in future intervention implementation, while more structured qualitative analysis methods were used for participant feedback to give greater weight to the recipients of the food package and resources.

Data integration

Mixed methods research integrates both qualitative and quantitative data to provide deeper insights and a more nuanced understanding to a research question compared with analysing each dataset separately. This may be accomplished through data transformation and integration using a joint display^{(Reference Guetterman, Fetters and Creswell28)}. In this study, qualitative data from participant interviews were transformed into quantitative data^{(Reference Sandelowski, Voils and Knafl29)} to take a deeper look at acceptability and demand feasibility benchmarks. This process consisted of grouping qualitative categories into quantitative categories (e.g. number of participants with positive comments about intervention acceptability, number of participants that reported using intervention components). Participant quotes were the unit of measure, meaning a participant could share multiple comments within each feasibility criterion. However, similar comments were only counted once per participant for each category within a feasibility criterion (e.g. two positive quotes from a participant about the overall intervention would be counted once). A side-by-side joint display was created from which the research team were able to draw inferences regarding confirmation or discordance between the quantitative and qualitative datasets (Table 2)^{(Reference Guetterman, Fetters and Creswell28)}.

Table 2 Integration of qualitative and quantitative data through a joint display

* Data from participant interviews were transformed into quantitative values for the criteria acceptability and demand.