Next Article in Journal
Association of Bioelectrical Impedance Phase Angle with Physical Performance and Nutrient Intake of Older Adults
Previous Article in Journal
Impact of Caloric Restriction and Exercise on Trimethylamine N-Oxide Metabolism in Women with Obesity
Previous Article in Special Issue
Socioeconomic Inequalities Impact the Ability of Pregnant Women and Women of Childbearing Age to Consume Nutrients Needed for Neurodevelopment: An Analysis of NHANES 2007–2018
 
 
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Article

Delivering Food Resources and Kitchen Skills (FoRKS) to Adults with Food Insecurity and Hypertension: A Pilot Study

1
Division of General Internal Medicine and Geriatrics, Department of Medicine, School of Medicine, Indiana University, Indianapolis, IN 46202, USA
2
Clem McDonald Center for Biomedical Informatics, Regenstrief Institute, Inc., Indianapolis, IN 46202, USA
3
Eskenazi Health, Indianapolis, IN 46202, USA
4
Department of Biostatistics and Health Data Science, School of Medicine, Richard M. Fairbanks School of Public Health, Indiana University, Indianapolis, IN 46202, USA
5
Indiana University Center for Aging Research, Regenstrief Institute, Inc., Indianapolis, IN 46202, USA
6
Department of Health & Wellness Design, School of Public Health, Indiana University, Bloomington, IN 47405, USA
7
Center for Health Innovation and Implementation Science, Indiana University, Indianapolis, IN 46202, USA
*
Author to whom correspondence should be addressed.
Nutrients 2023, 15(6), 1452; https://doi.org/10.3390/nu15061452
Submission received: 13 February 2023 / Revised: 10 March 2023 / Accepted: 14 March 2023 / Published: 17 March 2023

Abstract

:
Food insecurity affects nearly 50 million Americans and is linked to cardiovascular disease risk factors and health disparities. The purpose of this single-arm pilot study was to determine the feasibility of a 16-week dietitian-led lifestyle intervention to concurrently address food access, nutrition literacy, cooking skills, and hypertension among safety-net primary care adult patients. The Food Resources and Kitchen Skills (FoRKS) intervention provided nutrition education and support for hypertension self-management, group kitchen skills and cooking classes from a health center teaching kitchen, medically tailored home-delivered meals and meal kits, and a kitchen toolkit. Feasibility and process measures included class attendance rates and satisfaction and social support and self-efficacy toward healthy food behaviors. Outcome measures included food security, blood pressure, diet quality, and weight. Participants (n = 13) were on average {mean (SD)} aged 58.9 ± 4.5 years, 10 were female, and 12 were Black or African American. Attendance averaged 19 of 22 (87.1%) classes and satisfaction was rated as high. Food self-efficacy and food security improved, and blood pressure and weight declined. FoRKS is a promising intervention that warrants further evaluation for its potential to reduce cardiovascular disease risk factors among adults with food insecurity and hypertension.

Graphical Abstract

1. Introduction

The World Health Organization defines the social determinants of health (SDOH) as “conditions in the environment…that affect a wide range of health, functioning, and quality-of-life outcomes and risks [1].” As an adverse SDOH, food insecurity—inconsistent access to a sufficient quantity of affordable, palatable, and nutritious food—is inextricably linked to poor health outcomes and disparities [2,3,4]. Among adults with food insecurity, conditions such as hypertension (HTN) are as much as two times more prevalent [5,6]. Progressive safety-net health systems have integrated SDOH screening in primary care electronic medical records and some providers refer positive cases to community resources (e.g., food pantries) [7,8]. In recent years, many of these same health systems have also implemented chronic disease self-management education and support (SMES) programs. Currently, only SMES programs for diabetes and not HTN are eligible for reimbursement under Medicare, or in 44 states under Medicaid [9,10]. However, these two healthcare innovations—addressing negative SDOH and providing HTN SMES—have not themselves been integrated, despite strong evidence that the SDOH impact SMES outcomes [5,11,12].
Addressing food access and affordability is critical to improving SMES outcomes, particularly among historically marginalized populations [5,13]. Notably, studies have shown that providing nutritious food aligned with a Mediterranean-style dietary pattern to adults with food insecurity could be cost-effective, and potentially more so than some common antihypertensives [14,15,16,17]. Food insecure individuals are more likely to live in communities with reduced or inconsistent access to affordable and nutritious food, as well as having limited access to lower-cost groceries and cooking tools due to budget and transportation limitations [18,19]. Both general self-efficacy (e.g., I can generally manage to solve problems) and food-related self-efficacy are lower in food-insecure individuals, as are food preparation, management, and cooking skills [20]. This translates into less nutritious food in the home and lower quality diets [12,20]. This also results in less ability to self-manage diet-sensitive chronic conditions. For example, it has been shown that food-insecure individuals have lower chronic disease self-efficacy [12,21], less responsiveness to SMES interventions [22], and one-third more hospitalizations [23]. The effectiveness of SMES programs for food-insecure populations could be improved if they directly and simultaneously addressed food insecurity [24].
Experiential learning, when combined with food provisions, may help sustain healthy dietary behaviors by improving individuals’ nutrition literacy and culinary skills [25,26]. Programs for teaching nutrition education to participants with incomes at or near the federal poverty line (e.g., Cooking Matters and SNAP-Education) appear to have a positive effect on participants’ skills in stretching food dollars and making healthy choices despite limited budgets [27]. Moreover, several non-randomized trials of hands-on cooking classes have shown improved food management skills, diet quality, self-efficacy, and food security [28]. One randomized controlled trial of hands-on cooking with embedded nutrition lessons demonstrated a nearly three-fold improvement in Mediterranean-style diet scores and weekly food cost savings versus traditional dietary education [25,26]. However, this trial was not conducted with food-insecure individuals nor did it include health outcomes. Studies support the hypothesis that experiential culinary learning with food provisions helps to address food insecurity. Delivered in the context of SMES, interventions have been found to improve health outcomes [29,30].
The purpose of this study was to determine the feasibility of a lifestyle intervention to concurrently address food security, nutrition literacy, and cardiovascular disease risk factors among safety-net primary care patients with food insecurity and a diagnosis of HTN. The intervention design as well as the pilot trial feasibility and behavioral and health outcomes are presented. The findings demonstrate high participation and retention rates and trends for improvement in food-related self-efficacy and skills, food security, nutrition, weight, and blood pressure.

2. Materials and Methods

2.1. Study Design

The study design was a single-arm pilot feasibility trial that took place at Eskenazi Health from 7 September 2021 to 20 January 2022 in Indianapolis, Indiana. Assessments occurred at baseline prior to the first HTN SMES class and at post-training after the conclusion of the 16-week program.

2.2. Food Resources and Kitchen Skills (FoRKS) Intervention

A multidisciplinary team developed the dietitian-led Food Resources and Kitchen Skills (FoRKS) intervention by following a user-centered design process for Stages 0–1 of NIH’s Behavioral Intervention Development [31,32]. Together, clinical dietitians and experts in nutrition science, systems engineering, user experience design, and medical sociology produced a systems redesign of the existing HTN SMES with dietitian and patient workflow efficiencies that enabled participants to receive food and engage in experiential (i.e., hands-on) and social learning guided by the Social Cognitive Theory (SCT) [33]. As a social learning theory, SCT posits that environments designed to facilitate behavioral modeling and positive feedback from others will lead to self-efficacy gains [34]. Researchers conceptualized the system’s redesign as environmental levers through which to facilitate engagement in social and experiential learning that over time improves food-related self-efficacy and budget-conscious food-management skills (i.e., recipe selection, thrifty shopping, food planning and preparation, and cooking). In turn, these environmental levers form pathways to improved food security and health outcomes (Figure 1).

2.2.1. Hypertension (HTN) Self-Management Education and Support (SMES) Program

HTN SMES is an existing Centers for Disease Control-endorsed program offered at Eskenazi Health to provide information and skills for managing HTN. The course is led by Eskenazi Health registered dietitians, with physician, pharmacist, and health coach assistance. The standard HTN SMES structure includes five weekly classes and includes a blood pressure check and recording. The first 5 weeks of the intervention consisted of the HTN SMES program. Due to the COVID-19 pandemic, SMES class activities transitioned to live video telehealth with a typical class size of around 12 participants.

2.2.2. Intervention Class Delivery

All 22 intervention classes were delivered by registered dietitians via live video telehealth conferencing. Participants received internet-enabled (via cellular data) tablet devices and tablet stands for remote participation [35]. Training on the device, including WebEx videoconference software, was completed either in person or via phone. Dietitians delivered the FoRKS intervention cooking classes from a teaching kitchen within a federally qualified health center equipped with a workstation for food preparation and cooking, and video conferencing and recording capabilities.

2.2.3. Food Delivery and Cooking Classes

Eskenazi Health’s executive chef, dietitians, and researchers developed 25 low-sodium, moderate-carbohydrate meals and recipes using culturally appropriate and familiar foods in line with the tenets of the Mediterranean diet. All meals contained less than 500 mg of sodium, and most had <15 g of sugar and <60 g of total carbohydrates per serving. Most meals included lean meats and fish as requested by the study population during recipe testing prior to study implementation, and many meals had >500 mg polyphenols. Eskenazi Health’s executive chef oversaw food procurement, meal and meal kit production, and delivery. Participants ordered from a list of medically tailored meals for home delivery on the mornings of non-cooking class days that were freshly prepared by Eskenazi Health Food Services. Up to three additional servings for meals and servings for meals and meal kits were provided based on the number of household members who routinely eat meals with the participant during the late afternoon or early evening.
Participants received a kitchen toolkit consisting of a cutting board, chef’s knife, paring knife, spatula, mixing spoon, measuring spoons, liquid and dry measuring cups, can opener, strainer, saucepan, skillet, mixing bowls, zester, vegetable peeler, and a meat thermometer to keep after the end of the study. Meal kits with fresh ingredients were delivered to participants’ homes during the mornings of cooking classes, approximately twice per week. Dietitians transitioned to cooking instruction as the SMES class component ended. Both dietitians were involved in each cooking class with one leading the cooking lesson and the other monitoring and communicating in real time with participants and the cooking dietitian. Classes 2, 4, 6, 12, and 16 did not involve cooking but focused on social learning on Food and Cooking Safety (Week 6, Class 2), Calories versus Nutrition Budget (Week 7, Class 4), Stocking a Healthy Pantry and Refrigerator (Week 10, Class 6), Seasoning and Whole Grain Review (Week 11, Class 12), and a Virtual Grocery Store Tour (Week 14, Class 16). In all other classes, the dietitians engaged participants in a discussion of the day’s recipe (ingredients, nutrition, budgeting strategies, and instructions) and cooking skills (food safety, proper tool use, and preparing ingredients—chopping/slicing, measuring, seasoning, etc.). Dietitians also provided general guidance on kitchen workspace organization. Post-cooking, there was a review of the lesson and clean-up tips. Dietitians and participants sampled the meal together virtually and shared thoughts about the meal and lesson.

2.3. Participants

Potentially eligible patients were identified during clinic visits by dietitians using convenience sampling and referred to the study research manager. A research assistant telephoned potential participants for further screening, including confirmation of food insecurity. Eligible participants were adults aged 35–75 years, fluent in English, and residents of Marion County with an HTN diagnosis, last systolic blood pressure ≥120 mm Hg, Hunger Vital Sign diagnosis of food insecure, and food insecurity score ≥2 on the 18-item United States Department of Agriculture (USDA) Household Food Security Survey Module (HFSSM), indicating low or very low food security over the past 30 days [19,36,37,38]. Additionally, participants must have self-reported stable housing, independent access to a kitchen with a functional stove or hotplate, refrigerator and freezer, activity independence per functional activities questionnaire [39,40], normal cognition per six-item screener [41], and willingness to provide blood samples, use a touchscreen device, and participate via live video telehealth conferencing.
Exclusion criteria included patients with a diagnosis or “problem list” of cognitive impairment (CI; mild CI, dementia, Alzheimer’s disease, or developmental disability), Parkinson’s disease, brain tumor, infection or surgery, serious mental illness (psychosis, schizophrenia, or bipolar disorder), or drug or alcohol abuse (alcohol consumption ≥8 drinks per week for women or ≥15 drinks per week for men), moving out of the area during the study timeline, or scheduling conflicts with the intervention. Patients currently receiving home-delivered meals through other programs (e.g., Meals on Wheels) were not eligible. FoRKS participants had access to all Eskenazi Health usual care services but received HTN SMES classes separately from non-study patients along with the additional intervention components (i.e., medically tailored, home-delivered Mediterranean-style meals and meal kits, kitchen tool kit, and live video telehealth cooking classes).

2.4. Data Collection

Eligible and willing patients provided informed study consent, a baseline assessment including a blood draw, and received tablet delivery with live video telehealth instruction from the research assistant who was also a licensed medical assistant. Participants connected with study personnel periodically via home visits, video conferences, or phone calls throughout the intervention setup and trial to provide feedback on their experience. Adverse events were recorded any time they became known to the study staff with action taken per the Data Safety and Monitoring Plan. Age, sex, race, ethnicity, employment status, household income, education, household size and composition, and marital status were confirmed or self-reported at baseline. The Newest Vital Sign was used to assess health literacy [42]. A mid-intervention assessment to collect blood pressure and weight and draw blood was completed in mid-December 2021. Questionnaires conducted at baseline were repeated at the post-training assessment via telephone within two weeks of completing the 16-week intervention.

2.5. Process Measures

2.5.1. Feasibility

Feasibility was assessed by the number of potential patients assessed for eligibility by phone, reasons for ineligibility, attendance rates, satisfaction with cooking classes, food delivery and tablet use, and participant experience. Satisfaction and experience were queried on 10–11 November 2021 and repeated on 8–9 December 2021 via individual phone calls or video conferences. Satisfaction with the cooking class, food delivery, and tablet use was measured using a five-item Likert scale ranging “not at all” to ”extremely” in response to “How happy were you with your most recent cooking class?”, “How happy were you with your most recent delivered foods?”, and “How happy were you with your most recent use of the tablet experience?”. Open-ended follow-up questions asked participants what they liked the most and least about the class and food delivery. The experience was assessed via brief, open-ended questions (e.g., “How is the class going for you?”) and a 16-item survey administered with satisfaction surveys [43]. The experience survey items asked participants how often they feel excited/interested/proud, have fun, and participate/interact with the intervention classes. Answer options included: never, hardly ever, monthly, weekly, and each day of class.

2.5.2. Social Support

Social support was assessed with the Social Support and Eating Habits Survey, which has been widely used in weight loss trials and has shown good test-retest reliability (range 0.57 to 0.86) and high internal consistency (coefficient alpha 0.80 to 0.87) [44,45,46,47]. This 10-item survey captures the support or sabotage of healthy food habits by family and friends. Participants responded using a five-item Likert scale ranging from “never” to “always” over a 30-day reference period to statements about how often friends and family encouraged (e.g., remind or encourage you not to eat high-salt, high-fat, or sweet foods) or discouraged (e.g., became angry when you encouraged them to eat low-salt or low-fat foods) healthy eating habits.

2.5.3. Food Self-Efficacy and Management Skills

Food self-efficacy was assessed by the nine-item Food Related Self-Efficacy Survey with part one capturing confidence and part two capturing the frequency of basic cooking, meal preparation, and meal planning skills. This survey has been shown to have good test-retest reliability (range 0.46 to 0.91) and high internal consistency (coefficient alpha 0.84 to 0.86) and to capture the change over time in response to cooking lessons [28,48]. Responses to the survey consist of a five-item Likert scale ranging from “not at all confident” to “very confident” for part one (questions 1–4) and “never” to “always” for part two (questions 5–9).
Food management skills were assessed using the approach taken in evaluating the SNAP-Ed programs of the University of California (UC) Cooperative Extension and the University of Kentucky (UK). Specifically, we administered the Plan, Shop, Save, and Cook checklist [49]. This seven-item survey contains items, such as “How often do you plan meals ahead of time?”, “How often do you compare unit prices before buying food?”, and “How often do you shop with a grocery list?”, with a five-item Likert scale ranging from “never” to “always”. The checklist has been found to have a Cronbach’s alpha of 0.77 [49]. Both the UC and UK programs showed a 7-week pre-post improvement in program participants with this scale. The scale is available on the USDA SNAP-Ed Toolkit site [50].

2.6. Outcome Measures

2.6.1. Behavioral

Food insecurity was determined using the USDA HFSSM at baseline only and the Four Domain Food Insecurity Scale (4D-FIS) at baseline and post-training assessment time points, both using a 30-day reference period [36,51]. The USDA HFSSM primarily measures how often participants experience financial strain related to insufficient food access. Response options include “never true, sometimes true, or often true” with some questions asking participants to quantify the number of days the questions affirmed were true. The survey progresses from less severe household food hardship, such as asking about anxiety over not having enough food or money for food, to more severe situations, such as decreased quality or amount of food eaten, skipping meals, and not eating for entire days among household adults and children. The 4D-FIS is a 16-item tool that expands upon the financial-focused domains of the USDA HFFSM by adding a range of experiential questions around food security in the quantitative, qualitative, psychological, and social domains. The 4D-FIS uses a four-item Likert scale ranging from “never” to “often” or, for social domain questions, “disagree a lot” to “agree”. The 4D-FIS measures individual adult food security. The 18-item USDA HSFFM measures household food security, while the food security of household adults can be calculated using the first 10 items. Both scales base food security scores on the total number of affirmative responses, therefore, a lower score is indicative of less severe food insecurity while a higher score indicates more severe food insecurity. Standard scoring and food security classification protocols are presented elsewhere [36,51].
Dietary data were collected with interviewer assistance using the publicly-available National Cancer Institute’s (NCI) (Rockville, MD, USA) Automated Self-Assisted 24-h Dietary Recall Tool (ASA-24) [52]. Up to two recalls were collected per participant at baseline and post-training assessment time points [53]. The research assistant conducted the first ASA-24 in person, with the participant able to view the visual prompts on the computer screen, while the second was collected via telephone between two and seven days after the first ASA-24. Diet quality was calculated from the ASA-24 data using the publicly-available NCI’s Healthy Eating Index-2015 (HEI-2015) Simple Scoring Algorithm-Per Person (Rockville, MD, USA) [54]. Units for HEI-2015 component scores are cup, ounce, or gram equivalents per 1000 kilocalories, percent of total energy, or the ratio of poly-and monounsaturated fatty acids to saturated fatty acids [55].

2.6.2. Clinical

Systolic and diastolic blood pressure were measured with a digital blood pressure monitor. Body weight (pounds) was measured by the Tanita WB-800S scale (Tanita Corporation of America, Inc., Arlington Heights, IL, USA) (capacity of 660 lbs +/− 0.1 lbs).

2.7. Data Analysis

Feasibility outcomes for attendance rates, missed classes, satisfaction, and experience are presented as counts and averages from Likert scale scoring. Welch Two Sample T-tests were applied to detect the mean difference in outcomes between the baseline and post-training assessment time points for measures of social support, food self-efficacy, food resource management skills, food security (4D-FIS), diet quality, blood pressure, and weight. Results are reported as the means and standard deviations (mean ± SD). Significance is reported using 95% confidence intervals. Table 1 provides an overview of the study’s measurement tools.

3. Results

3.1. Participant Characteristics

Table 2 presents the baseline participant demographic information. A total of n = 13 (58.9 ± 4.5 y, 77% Female) were enrolled in the study. Twelve participants (92%) identified their race as Black or African American, and one participant identified as White. Although all participants were food insecure at baseline to meet study eligibility, about half were classified with very low food security (n = 7). Participants scored a mean of 3.5 ± 1.6 points on the Newest Vital Sign, indicating low to moderate health literacy. Nine participants previously completed HTN SMES: n = 2 in 2018, n = 3 in 2019, n = 2 in 2020, and n = 2 in 2021.

3.2. Process Measures

3.2.1. Feasibility: Screening and Eligibility

Study dietitians identified 27 patients with systolic blood pressure ≥120 mm Hg as potentially eligible for the study. Thirteen food-insecure patients meeting eligibility requirements consented. Of the remaining patients screened for eligibility (n = 14), reasons for study ineligibility included food security (n = 6), lack of access to functional kitchen appliances (n = 1), schedule conflicts (n = 3), a health issue requiring surgery (n = 1), and refusal or non-response (n = 3). Thirteen participants completed the study baseline and post-training assessments.

3.2.2. Feasibility: Attendance, Satisfaction, and Experience

The attendance rate averaged 87.1% across the 22 classes and 13 participants. Three participants attended all 22 classes, and ten participants missed an aggregated 37 classes. On average, each participant attended 19 of the 22 classes. Reasons provided for missing classes included emergency room visits (three classes), hospital admissions (two classes), illness (two classes), doctor appointments (two classes), housing insecurity (four classes), work schedule change (two classes), death of a family member (one class), and house guests (one class). A reason was not provided for 21 missed classes. Seven adverse events were recorded across six distinct participants. Table S1 (Supplementary Material) presents the number of classes missed by participants and the reason. One class was canceled (Week 10, Class 10) due to the American Thanksgiving holiday. The educational content and recipe planned for this canceled class were combined with two other classes. Appendix A provides details of the curriculum.
Participants rated satisfaction with the cooking class and food delivery extremely high. The mean score responses to how happy participants were with the cooking class and food delivery across both survey dates were 5 and 4.9, respectively. On the first satisfaction survey, participants highly rated both the cooking class and food delivery with an average score of 4.9. The cooking class reference for the first survey was Week 10, Class 9: Chicken Stir Fry with Brown Rice and Fruited Water, and the food delivery reference was Week 11, Class 11: Shrimp and Veggie Oven Packs. However, on the second satisfaction survey one month later, participants rated the cooking class higher with an average score of 5 and food delivery lower at 4.8. The cooking class reference for the second survey was Week 15, Class 17: Mix and Match Skillet Meal (participants procured their own ingredients), and the food delivery reference was Week 13, Class 15: Broccoli Alfredo and Baked Salmon. Satisfaction scores indicating extreme satisfaction with the cooking class and food delivery are presented in Table 3.
Regarding the medically tailored meals, participants reported liking that they were packaged and prepared, made to order, and fresh. Participants described the food delivery as convenient, on time, and professional. One participant who scored the cooking class with a 4 out of 5 on the first survey responded, “There wasn’t anything she [Pt 10] didn’t like about it. Would like to request her own recipes to Emily and Mariah [registered dietitians].” In reference to the food delivery that received scores of 4 on the second survey, participants reported, “[Pt 7] Doesn’t like the fish. It’s already been cooked and she likes her fish fresh.” One participant provided two ratings of 4 on the second survey but did not provide feedback about what they liked least about the cooking class or food delivery. Five participants did not like either the Mediterranean tuna salad or baked salmon dishes mainly because they do not eat or like fish. Two participants did not like the oven fajitas with chicken and beans; one reported an upset stomach and not liking the taste while the other was unsure about the red quinoa. Another reported that “She’s a picky eater—some of the food choices don’t agree with her.” Most participants provided positive feedback to open-ended satisfaction questions.
Participants rated satisfaction with tablet use experience as very high, with an average score of 4.8 across both satisfaction surveys. Ratings increased from an average of 4.7 to 4.8 from the first to second surveys. One rating of 3 was due to “difficult to get on at times” and two ratings of 4 from the same participant were due to “has trouble with it connecting” and “sometimes it messes up.” Participants provided positive responses to open-ended questions to describe their satisfaction with the tablet-use experience, such as, “ease of use”, “one button and connected”, and an “overall convenient experience”. Two participants missed the first satisfaction survey, and one participant missed the second survey.
Participants positively rated their overall experience with the intervention on the 16-item participant experience surveys administered with the satisfaction surveys. Responses revealed that participants were excited about and interested in the class, actively engaged in class activities and discussion, problem-solving, and focused on learning and participating. Out of a cumulative 23 possible responses across the two survey administrations, the response “each day of class” was provided between 17 and 23 times. Responses to questions asking about “zoning out”, a wandering mind, and pretending to or not participating in the class ranged from never to hardly never. Table 3 presents data from the participant experience surveys.
Participants found FoRKS to be a beneficial, enjoyable, and useful intervention. Thoughts participants shared include “the entire experience has just been awesome”, “recently learned how to use a cutting knife the proper way and is loving it”, “loves that everything is hands on”, and “the whole experience is so fun and they keep you captivated; it’s like a little family”. Table S2 (Supplementary Material) presents quotes from participants’ responses to the open-ended satisfaction questions.

3.2.3. Social Support, Food Self-efficacy, and Food Resource Management Skills

Family encouragement of healthy food habits decreased on average by a mean score of 2.4 (7.5) units {95% CI (−8.0, 3.0)}. Family discouragement significantly decreased on average by a mean score of 2.5 (3.5) units {95% CI (−6.5, −0.5)}. Friend encouragement increased on average by a mean score of 2.0 (6.6) units {95% CI (−2.5, 8.5)}. Friend discouragement decreased on average by a mean score of 1.2 (2.9) units {95% CI (−5.0, 1.0)}. Food self-efficacy total score improved on average by a mean score of 1.7 (5.9) units {95% CI (−2.4, 5.8)}, with significant improvement in part one by 1.8 (2.9) units {95% CI (0.5, 6.0)}, indicating increased confidence with basic cooking, meal preparation, and meal planning, and a slightly increased trend in the frequency of these behaviors shown by a 0.7 (5.3) unit improvement in part two {95% CI (−2.5, 4.0)}. Food management skills significantly improved by 2.6 (3.3) units, indicating an increase in the frequency of applying thrifty food strategies for meal planning and cooking {95% CI (0.5, 5.0)}.

3.3. Behavioral Outcomes: Food Security and Diet Quality

Participants’ food security scores significantly improved by 6 (3.7) units on average from a mean total score of 7.4 (3.7) at baseline to 1.4 (1.8) units at post-training on the USDA HFSSM {95% CI (−8.5, −3.5)}. Participants improved in each of the four food insecurity domains. Participants’ mean HEI-2015 Total score increased by 3.7 (13.1) points {95% CI (−4.2, 11.6)}. Whole fruits, greens and beans, whole grains, total protein foods, fatty acids, refined grains, added sugars, and saturated fats component scores improved, while total fruits, total vegetables, dairy, seafood and plant proteins, and sodium component scores decreased.

3.4. Clinical Outcomes: Blood Pressure, HbA1c, and Weight

Mean systolic blood pressure decreased on average by 6.4 (19.0) mmHg from 141.6 (15.6) at baseline to 135.2 (18.0) mmHg at post-training. Diastolic blood pressure decreased by an average of 2.9 (13.2) mmHg. Participants lost an average of 3.2 (5.5) pounds during the 16-week intervention. Outcomes are presented in Table 4.

4. Discussion

The prevalence of HTN and type 2 diabetes in the United States is increasing; however, evidence for the effective management of these diseases among individuals with food insecurity is limited. Our study supported the feasibility of a lifestyle intervention with a clinic-based teaching kitchen component to address food insecurity among a low-income largely Black or African American patient population with HTN. High rates of enrollment, retention, and satisfaction with multiple intervention components provide promising support for the feasibility of the FoRKS intervention. Improvements in the social cognitive process measures give hope that this intervention will show clinically meaningful effectiveness. The pilot study findings fill gaps in the current literature by offering a potentially scalable solution to address health disparities among food-insecure populations.
As NIH directors have recommended [56], we created an academic-clinic-patient team and applied Stages 1A and 1B of the NIH Stage Model for Behavioral Intervention Development to achieve a feasible and promising intervention that, in principle, is human-centered and culturally appropriate. For Stage 1A, we applied a co-design method to translate a theoretical framework, the SCT, into a specific lifestyle intervention in a specific context. SCT is the basis of federal nutrition education programs targeting lower-income adults [57], increasing the potential for merging and scaling our lifestyle intervention with other existing nutrition education and chronic disease self-management education and support programs. Using the well-established SCT (which in the NIH Stage Model represents the Stage 0 foundational science underpinning intervention design) ensured that the intervention had experiential learning as its cornerstone; thus, the intervention was grounded in theory about sustainable human (health) behavior [32,34].
Input from multiple stakeholders was provided during the co-design process, including participants, dietitians, researchers, and clinicians. These intervention end users worked alongside professional intervention designers and subject matter experts to collaboratively create the intervention. Advantages of the co-design method include the ability to tailor an intervention to the sociocultural environment and increase end-user commitment [58]. Additionally, the co-design method provides and encourages the engagement of historically and currently underrepresented voices, such as those represented by the participants in this study. For example, we added more lean meat and fish recipes and increased the number of cooking sessions based on participant feedback. As shown in this pilot, co-design promotes the development of interventions that are acceptable, palatable, and enjoyable by the patient and health system participants [59]. This balance in benefits across stakeholder types (i.e., participants and clinicians) is one approach to achieving what Holden et al. consider the two forms of intervention design validity: “clinical validity”, evidenced in meeting the needs of clinical best practices and workflows, and “user validity”, evidenced in meeting user needs, preferences, and values [60,61].
The co-designed intervention was then tested in a Stage 1B pilot study. This study was not designed or powered to detect significant differences in outcomes due to the intervention. Nevertheless, participants demonstrated significantly improved food security, food resource management skills, and food-related self-efficacy. Additionally, trends of improvement in systolic and diastolic blood pressure and weight were evident.
The major strength of this study was the innovative integration of addressing food access and experiential learning through an existing and expanded HTN SMES. This structure gives repetition spaced across classes, which is a key to adult learning [62]. Each class also contained novelty via semi-structured discussions and unique recipes, which were key to engagement [63]. While preparing and cooking the recipe, the dietitians also demonstrated and shared tips and lessons. We anticipate that co-designed interventions and experiential learning will achieve higher engagement than traditional nutrition education and more significant and lasting behavior changes and health outcomes. Additional strengths included collecting validated measures for food security, food resource management, and self-efficacy. The assessment of food security status using the USDA HFSSM allows for the comparison of our results to other studies and national food security surveillance. Furthermore, the addition of the Four-Domain FIS tool provided more granular insights than the USDA HFSSM as to how participants experience food insecurity socially and psychologically, and specifics on the type of foods affected. The ASA-24 is the gold standard dietary assessment tool used in nutrition surveillance and nutrition studies; however, it has not been widely used among patient populations. This study provided a unique opportunity to simultaneously assess the feasibility of using a 24-h dietary recall in a pre-post study design among a patient population at risk for health disparities.
The major limitation of this study was the lack of a control or comparison group and insufficient statistical power to detect differences in outcomes due to the intervention. Additionally, a lack of follow-up precluded assessing the sustainability of the intervention’s impact. We do not know whether participants maintained their improvements in food security or other health behaviors and outcomes or what adaptations would have been made or needed to sustain the intervention. The primary purpose of this pilot study was to assess the feasibility to inform a subsequent, fully powered randomized controlled trial (R01 MD017961) which will include long-term follow-up to determine the causality and effect size for health outcomes as well as cost-effectiveness. Another limitation is the dearth of evidence linking change over time in measures to health outcomes. A five-point lower systolic blood pressure or weight loss is significant if maintained [64], but changes on a self-report survey scale do not clearly map the magnitude of behavior and health outcome changes. Establishing these associations between survey measures and health outcomes is an important challenge for future studies.
In conclusion, participants were engaged and satisfied with a live video telehealth lifestyle intervention that concurrently addressed food insecurity, nutrition literacy, and cardiovascular disease risk factors through group cooking classes with experiential learning. After participating in the FoRKS intervention, the study sample of safety-net primary care patients achieved higher food security and food resource management skills. Integrating cooking classes, nutrition education, and food resources with HTN SMES has the potential to improve food security, food-related behaviors, and clinical outcomes among patients at risk for health disparities.

Supplementary Materials

The following supporting information can be downloaded at: https://www.mdpi.com/article/10.3390/nu15061452/s1, Table S1: Counts of Classes Missed by Participant and Reason; Table S2: Cumulative Responses of Participant Experience.

Author Contributions

Conceptualization, D.O.C.; methodology, D.O.C., R.J.H. and R.L.R.; software, R.L.R. and X.Z.; formal analysis, R.L.R., X.Z. and W.T.; writing—original draft preparation, R.L.R. and D.O.C.; writing—review and editing, R.L.R., D.O.C., R.J.H., A.P., E.D., M.A. and A.C.; supervision, A.C.; project administration, E.D. and M.A.; funding acquisition, D.O.C. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding and was supported by the Indiana University Department of Medicine, Regenstrief Institute, Inc., and Eskenazi Health.

Institutional Review Board Statement

The study was conducted in accordance with the Declaration of Helsinki and approved by the Institutional Review Board of Indiana University protocol #12445 on 23 August 2021.

Informed Consent Statement

Informed consent was obtained from all subjects involved in the study.

Data Availability Statement

Not applicable.

Acknowledgments

The authors thank Lyndsi Moser, Allie Carter, Catherine Miller, Jessica Broughton, and Dugan Wetzel for their contributions to facilitating this research. The authors are grateful to Eskenazi Health dietitians and co-authors, Mariah Adams and Emily Dawkins, for energetically planning and leading cooking classes for the study participants. The authors express appreciation to Denisha Ferguson and Philip Adeoye for conducting participant interviews and home visits in the Stage 1 design work, and to Rebekah Huerta for creating the graphical abstract.

Conflicts of Interest

The authors declare no conflict of interest. The funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, or in the decision to publish the results.

Appendix A

Table A1. Food Resources and Kitchen Skills (FoRKS) Curriculum.
Table A1. Food Resources and Kitchen Skills (FoRKS) Curriculum.
Week
#
Class
#
Topic and DescriptionCurriculumRecipes
61Ready to Cook
Identify needs for kitchen equipment and safe spaces for cooking; introduce knife skills
Review the cooking tool kit
Knife skills during the recipe
Mediterranean tuna salad
62Ready to Cook Continued
Identify needs for kitchen equipment, cooking zones, and general food safety
Pictionary
Cooking zones
Food safety story
Not Applicable (N/A)
73Food Selection and Building Ingredient Lists
Using the plate method to optimize choices among food groups and plan a balanced meal
Plate method Oven fajitas with chicken and beans
74Calories vs. Nutrition Budget
Concepts of energy density and nutrient density
Energy needs and energy density activitiesN/A
85Cooking Techniques
Measuring (dry and liquid); Ggrating; stirring and mixing ingredients
Measuring practice
Healthy breakfasts
Overnight oats
86Stocking a Healthy Pantry and Refrigerator
Focus on whole grains, produce, healthy protein, and fats
Simple substitutions
Price is right
N/A
97Fats: Good and Bad Fats
Distinguish between different types of dietary fat and their role in the body
Artery and plaque visual activityHealthy chicken nuggets with sweet potato and broccoli “your way”
98Fats: Cooking Methods
Gain an understanding of simple steps for roasting/baking; steaming; sautéing; and identifying food sources of dietary fat and opportunities for substitutions
Crisco activity
Flavorful veggie “Wheel of Fortune”
N/A (broccoli was not available, so demo of create your own veggie)
109Carb: Quality Carbohydrates and Fiber
Cooking with whole grains and fresh produce; emphasize choosing/cleaning/forms; knife skills review Carb: Carbohydrates/Sugar
Healthy beverages and knife skills review
Sugar in drinks visual activityChicken stir fry with brown rice
and
fruited water
1010The session was canceled due to Thanksgiving. Recipe combined with week 10 (session 9); education split among week 10 (session 9) and week 11 (session 12)N/AN/A
1111Sodium: Sodium and Sources (re-review from SMES)
Cooking to create salty, bitter, sour, and umami flavor profiles
Comparing the sodium content of store-bought taco seasoning to a homemade recipeShrimp and veggie oven packs (uses salt-free taco seasoning)
1112Sodium: Seasoning Without the Salt
Heart-healthy seasoning at home
Heart-healthy grains: whole grain vs. refined grain
Whole grains and salt-free seasoning blendsN/A
1213Protein: Choosing Healthy Meats and Meat Alternatives
Methods to emphasize better sources and preparation methods
Comparing the nutrition of different ground meatsTurkey and mushroom burgers
1214Get Ready: Cooking with Self-Purchased Ingredients
Continuation of protein discussion
Lentils and plant-based proteins—recipe as a guide for discussionLentil and vegetable soup
1315Get Ready: Preparing for Grocery Shopping
Outlining steps before food purchasing with pre-store planning activity
Review of shopping list infographic and options for self-acquired ingredientsBroccoli alfredo and baked salmon
1416Field Trip: Virtual grocery tour
First-person video grocery shopping field trip- produce nutrition bang and unit price
Live demo of shopping for ingredients for the final two recipes and unit price discussionN/A
1517BYOI: Bring Your Own Ingredients
Shopping review
Cooking together with self-gathered ingredientsMix and match skillet meal
1618BYOI: Additional Purchasing Tips
Shopping review; graduation
Cooking together with self-gathered ingredientsPersonal pizza

References

  1. World Health Organization Social Determinants of Health. Available online: https://www.who.int/health-topics/social-determinants-of-health (accessed on 10 February 2023).
  2. Gundersen, C.; Ziliak, J.P. Food insecurity and health outcomes. Health Aff. 2015, 34, 1830–1839. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  3. Ziliak, J.P.; Gundersen, C.; Ismail, M. Introduction to senior hunger special issue. Appl. Econ. Perspect. Policy 2022, 44, 534–548. [Google Scholar] [CrossRef]
  4. Byhoff, E.; Kangovi, S.; Berkowitz, S.A.; DeCamp, M.; Dzeng, E.; Earnest, M.; Gonzalez, C.M.; Hartigan, S.; Karani, R.; Memari, M.; et al. A Society of General Internal Medicine position statement on the internists’ role in social determinants of health. J. Gen. Intern. Med. 2020, 35, 2721–2727. [Google Scholar] [CrossRef] [PubMed]
  5. Berkowitz, S.A.; Berkowitz, T.S.Z.; Meigs, J.B.; Wexler, D.J. Trends in food insecurity for adults with cardiometabolic disease in the United States: 2005-2012. PLoS ONE 2017, 12, e0179172. [Google Scholar] [CrossRef] [Green Version]
  6. Golovaty, I.; Tien, P.C.; Price, J.C.; Sheira, L.; Seligman, H.; Weiser, S.D. Food Insecurity May Be an Independent Risk Factor Associated with Nonalcoholic Fatty Liver Disease among Low-Income Adults in the United States. J. Nutr. 2020, 150, 91–98. [Google Scholar] [CrossRef]
  7. Kovach, K.A.; Reid, K.; Grandmont, J.; Jones, D.; Wood, J.; Schoof, B. How engaged are family physicians in addressing the social determinants of health? A survey supporting the American Academy of Family Physician’s Health Equity Environmental Scan. Health Equity 2019, 3, 449–457. [Google Scholar] [CrossRef] [PubMed]
  8. Gold, R.; Bunce, A.; Cottrell, E.; Marino, M.; Middendorf, M.; Cowburn, S.; Wright, D.; Mossman, N.; Dambrun, K.; Powell, B.J.; et al. Study protocol: A pragmatic, stepped-wedge trial of tailored support for implementing social determinants of health documentation/action in community health centers, with realist evaluation. Implement. Sci. 2019, 14, 9. [Google Scholar] [CrossRef]
  9. Centers for Disease Control. Diabetes Self-Management Education and Support (DSMES) Toolkit|Diabetes|CDC. Available online: https://www.cdc.gov/diabetes/dsmes-toolkit/index.html (accessed on 10 February 2023).
  10. Centers for Disease Control. Hypertension Management Program (HMP) Toolkit|CDC.Gov. Available online: https://www.cdc.gov/dhdsp/pubs/toolkits/hmp-toolkit/index.htm (accessed on 10 February 2023).
  11. Cockerham, W.C.; Hamby, B.W.; Oates, G.R. The social determinants of chronic disease. Am. J. Prev. Med. 2017, 52, S5–S12. [Google Scholar] [CrossRef] [Green Version]
  12. Kamimura, A.; Jess, A.; Trinh, H.N.; Aguilera, G.; Nourian, M.M.; Assasnik, N.; Ashby, J. Food insecurity associated with self-efficacy and acculturation. Popul. Health. Manag. 2017, 20, 66–73. [Google Scholar] [CrossRef]
  13. Micha, R.; Peñalvo, J.L.; Cudhea, F.; Imamura, F.; Rehm, C.D.; Mozaffarian, D. Association between dietary factors and mortality from heart disease, stroke, and type 2 diabetes in the United States. JAMA 2017, 317, 912–924. [Google Scholar] [CrossRef] [Green Version]
  14. Lee, Y.; Mozaffarian, D.; Sy, S.; Huang, Y.; Liu, J.; Wilde, P.E.; Abrahams-Gessel, S.; de Souza Veiga Jardim, T.; Gaziano, T.A.; Micha, R. Cost-effectiveness of financial incentives for improving diet and health through Medicare and Medicaid: A microsimulation study. PLoS Med. 2019, 16, e1002761. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  15. Mozaffarian, D.; Liu, J.; Sy, S.; Huang, Y.; Rehm, C.; Lee, Y.; Wilde, P.; Abrahams-Gessel, S.; de Souza Veiga Jardim, T.; Gaziano, T.; et al. Cost-effectiveness of financial incentives and disincentives for improving food purchases and health through the US Supplemental Nutrition Assistance Program (SNAP): A microsimulation study. PLoS Med. 2018, 15, e1002661. [Google Scholar] [CrossRef] [PubMed]
  16. Berkowitz, S.A.; Terranova, J.; Hill, C.; Ajayi, T.; Linsky, T.; Tishler, L.W.; DeWalt, D.A. Meal delivery programs reduce the use of costly health care in dually eligible Medicare and Medicaid beneficiaries. Health Aff. 2018, 37, 535–542. [Google Scholar] [CrossRef] [PubMed]
  17. Berkowitz, S.A.; Delahanty, L.M.; Terranova, J.; Steiner, B.; Ruazol, M.P.; Singh, R.; Shahid, N.N.; Wexler, D.J. Medically tailored meal delivery for diabetes patients with food insecurity: A randomized cross-over trial. J. Gen. Intern. Med. 2019, 34, 396–404. [Google Scholar] [CrossRef] [Green Version]
  18. Nackers, L.M.; Appelhans, B.M. Food insecurity is linked to a food environment promoting obesity in households with children. J. Nutr. Educ. Behav. 2013, 45, 780–784. [Google Scholar] [CrossRef]
  19. Coleman-Jensen, A.; Rabbitt, M.P.; Gregory, C.A.; Singh, A. Household Food Security in the United States in 2021. Available online: http://www.ers.usda.gov/publications/pub-details/?pubid=104655 (accessed on 10 February 2023).
  20. Ranjit, N.; Macias, S.; Hoelscher, D. Factors related to poor diet quality in food insecure populations. Transl. Behav. Med. 2021, 10, 1297–1305. [Google Scholar] [CrossRef]
  21. Vijayaraghavan, M.; Jacobs, E.A.; Seligman, H.; Fernandez, A. The association between housing instability, food insecurity, and diabetes self-efficacy in low-income adults. J. Health Care Poor Underserved 2011, 22, 1279–1291. [Google Scholar] [CrossRef]
  22. Lyles, C.R.; Wolf, M.S.; Schillinger, D.; Davis, T.C.; DeWalt, D.; Dahlke, A.R.; Curtis, L.; Seligman, H.K. Food insecurity in relation to changes in hemoglobin a1c, self-efficacy, and fruit/vegetable intake during a diabetes educational intervention. Diabetes Care 2013, 36, 1448–1453. [Google Scholar] [CrossRef] [Green Version]
  23. Becerra, M.B.; Allen, N.L.; Becerra, B.J. Food insecurity and low self-efficacy are associated with increased healthcare utilization among adults with type II Diabetes Mellitus. J. Diabetes Complicat. 2016, 30, 1488–1493. [Google Scholar] [CrossRef]
  24. Ippolito, M.M.; Lyles, C.R.; Prendergast, K.; Marshall, M.B.; Waxman, E.; Seligman, H.K. Food insecurity and diabetes self-management among food pantry clients. Public Health Nutr. 2017, 20, 183–189. [Google Scholar] [CrossRef] [Green Version]
  25. Razavi, A.C.; Sapin, A.; Monlezun, D.J.; McCormack, I.G.; Latoff, A.; Pedroza, K.; McCullough, C.; Sarris, L.; Schlag, E.; Dyer, A.; et al. Effect of culinary education curriculum on Mediterranean diet adherence and food cost savings in families: A randomized controlled trial. Public Health Nutr. 2021, 24, 2297–2303. [Google Scholar] [CrossRef] [PubMed]
  26. Razavi, A.C.; Dyer, A.; Jones, M.; Sapin, A.; Caraballo, G.; Nace, H.; Dotson, K.; Razavi, M.A.; Harlan, T.S. Achieving dietary sodium recommendations and atherosclerotic cardiovascular disease prevention through culinary medicine education. Nutrients 2020, 12, 3632. [Google Scholar] [CrossRef] [PubMed]
  27. Adedokun, O.A.; Plonski, P.; Jenkins-Howard, B.; Cotterill, D.B.; Vail, A. Healthy choices for every body adult curriculum improves participants’ food resource management skills and food safety practices. J. Nutr. Educ. Behav. 2018, 50, 638–644. [Google Scholar] [CrossRef]
  28. Caspi, C.E.; Davey, C.; Friebur, R.; Nanney, M.S. Results of a pilot intervention in food shelves to improve healthy eating and cooking skills among adults experiencing food insecurity. J. Hunger Environ. Nutr. 2017, 12, 77–88. [Google Scholar] [CrossRef] [Green Version]
  29. Ahn, S.; Basu, R.; Smith, M.L.; Jiang, L.; Lorig, K.; Whitelaw, N.; Ory, M.G. The Impact of Chronic Disease Self-Management Programs: Healthcare Savings through a Community-Based Intervention. BMC Public Health 2013, 13, 1141. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  30. Ernawati, U.; Wihastuti, T.A.; Utami, Y.W. Effectiveness of Diabetes Self-Management Education (DSME) in Type 2 Diabetes Mellitus (T2DM) Patients: Systematic Literature Review. J. Public Health Res. 2021, 10, 2240. [Google Scholar] [CrossRef]
  31. Bellg, A.J.; Borrelli, B.; Resnick, B.; Hecht, J.; Minicucci, D.S.; Ory, M.; Ogedegbe, G.; Orwig, D.; Ernst, D.; Czajkowski, S.; et al. Enhancing treatment fidelity in health behavior change studies: Best practices and recommendations from the NIH behavior change consortium. J. Health Psychol. 2004, 23, 443–451. [Google Scholar] [CrossRef]
  32. National Institutes of Health NIH. Stage Model for Behavioral Intervention Development. Available online: https://www.nia.nih.gov/research/dbsr/nih-stage-model-behavioral-intervention-development (accessed on 10 February 2023).
  33. Bandura, A. Toward a psychology of human agency: Pathways and reflections. Perspect. Psychol. Sci. 2018, 13, 130–136. [Google Scholar] [CrossRef]
  34. Bandura, A. Health promotion by social cognitive means. Health Educ. Behav. 2004, 31, 143–164. [Google Scholar] [CrossRef]
  35. Center for Connected Health Policy. What Is Telehealth? Available online: https://www.cchpca.org/what-is-telehealth/ (accessed on 10 February 2023).
  36. United States Department of Agriculture, Economic Research Service. USDA ERS—Survey Tools. Available online: https://www.ers.usda.gov/topics/food-nutrition-assistance/food-security-in-the-u-s/survey-tools/#household (accessed on 10 February 2023).
  37. Gattu, R.K.; Paik, G.; Wang, Y.; Ray, P.; Lichenstein, R.; Black, M.M. The hunger vital sign identifies household food insecurity among children in emergency departments and primary care. Children 2019, 6, 107. [Google Scholar] [CrossRef] [Green Version]
  38. Rottapel, R.; Sheward, R. The Hunger Vital Sign: Best Practices for Screening and Intervening to Alleviate Food Insecurity | SIREN. Available online: https://sirenetwork.ucsf.edu/tools-resources/resources/hunger-vital-sign-best-practices-screening-and-intervening-alleviate-0 (accessed on 10 February 2023).
  39. Teng, E.; Becker, B.W.; Woo, E.; Knopman, D.S.; Cummings, J.L.; Lu, P.H. Utility of the functional activities questionnaire for distinguishing mild cognitive impairment from very mild Alzheimer disease. Alzheimer Dis. Assoc. Disord. 2010, 24, 348–353. [Google Scholar] [CrossRef]
  40. González, D.A.; Gonzales, M.M.; Resch, Z.J.; Sullivan, A.C.; Soble, J.R. Comprehensive Evaluation of the Functional Activities Questionnaire (FAQ) and Its Reliability and Validity. Assessment 2022, 29, 748–763. [Google Scholar] [CrossRef] [PubMed]
  41. Callahan, C.M.; Unverzagt, F.W.; Hui, S.L.; Perkins, A.J.; Hendrie, H.C. Six-item screener to identify cognitive impairment among potential subjects for clinical research. Med. Care 2002, 40, 771–781. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  42. Weiss, B.D. Quick assessment of literacy in primary care: The newest vital sign. Ann. Fam. Med. 2005, 3, 514–522. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  43. Wang, Z.; Bergin, C.; Bergin, D.A. Measuring Engagement in Fourth to Twelfth Grade Classrooms: The Classroom Engagement Inventory. Sch. Psychol. Q. 2014, 29, 517–535. [Google Scholar] [CrossRef] [Green Version]
  44. Rieger, E.; Sellbom, M.; Murray, K.; Caterson, I. Measuring social support for healthy eating and physical activity in obesity. Br. J. Health Psychol. 2018, 23, 1021–1039. [Google Scholar] [CrossRef] [PubMed]
  45. Kiernan, M.; Moore, S.D.; Schoffman, D.E.; Lee, K.; King, A.C.; Taylor, C.B.; Kiernan, N.E.; Perri, M.G. Social support for healthy behaviors: Scale psychometrics and prediction of weight loss among women in a behavioral program. Obesity 2012, 20, 756–764. [Google Scholar] [CrossRef] [Green Version]
  46. Sallis, J.F.; Grossman, R.M.; Pinski, R.B.; Patterson, T.L.; Nader, P.R. The development of scales to measure social support for diet and exercise behaviors. Prev. Med. 1987, 16, 825–836. [Google Scholar] [CrossRef]
  47. Berkman, L.F.; Kawachi, I.; Glymour, M.M. (Eds.) Social Epidemiology, 2nd ed.; Oxford University Press: New York City, NY, USA, 2014. [Google Scholar]
  48. Barton, K.L.; Wrieden, W.L.; Anderson, A.S. Validity and reliability of a short questionnaire for assessing the impact of cooking skills interventions: Questionnaire assessing cooking interventions. J Hum. Nutr. Diet. 2011, 24, 588–595. [Google Scholar] [CrossRef]
  49. Kaiser, L.; Chaidez, V.; Algert, S.; Horowitz, M.; Martin, A.; Mendoza, C.; Neelon, M.; Ginsburg, D.C. Food resource management education with SNAP participation improves food security. J. Nutr. Educ. Behav. 2015, 47, 374–378.e1. [Google Scholar] [CrossRef]
  50. United States Department of Agriculture Food and Nutrition Service University of California Cooperative Extension—Plan, Shop, Save, and Cook Survey. Available online: https://snaped.fns.usda.gov/library/materials/university-california-cooperative-extension-plan-shop-save-and-cook-survey (accessed on 10 February 2023).
  51. Johnson, C.M.; Ammerman, A.S.; Adair, L.S.; Aiello, A.E.; Flax, V.L.; Elliott, S.; Hardison-Moody, A.; Bowen, S.K. The Four Domain Food Insecurity Scale (4D-FIS): Development and evaluation of a complementary food insecurity measure. Transl. Behav. Med. 2020, 10, 1255–1265. [Google Scholar] [CrossRef]
  52. National Cancer Institute. ASA24® Dietary Assessment Tool. Available online: https://epi.grants.cancer.gov/asa24/ (accessed on 10 February 2023).
  53. National Cancer Institute. Summary Tables: Recommendations on Potential Approaches to Dietary Assessment for Different Research Objectives Requiring Group-Level Estimates | Dietary Assessment Primer. Available online: https://dietassessmentprimer.cancer.gov/approach/table.html (accessed on 10 February 2023).
  54. National Cancer Institute. HEI Scoring Algorithm | EGRP/DCCPS/NCI/NIH. Available online: https://epi.grants.cancer.gov/hei/hei-scoring-method.html (accessed on 10 February 2023).
  55. Reedy, J.; Lerman, J.L.; Krebs-Smith, S.M.; Kirkpatrick, S.I.; Pannucci, T.E.; Wilson, M.M.; Subar, A.F.; Kahle, L.L.; Tooze, J.A. Evaluation of the Healthy Eating Index-2015. J. Acad. Nutr. Diet. 2018, 118, 1622–1633. [Google Scholar] [CrossRef] [PubMed]
  56. National Insitutes of Health. NIA Strategic Directions 2020–2025. Available online: https://www.nia.nih.gov/about/aging-strategic-directions-research (accessed on 10 February 2023).
  57. Rivera, R.L.; Maulding, M.K.; Eicher-Miller, H.A. Effect of Supplemental Nutrition Assistance Program–Education (SNAP-Ed) on food security and dietary outcomes. Nutr. Rev. 2019, 77, 903–921. [Google Scholar] [CrossRef]
  58. Werner, N.E.; Campbell, N.L.; Boustani, M.; Ganci, A.; Holden, R.J. Helping the helpers—A research protocol for user-centered technology to aid caregiver management of medications for people with Alzheimer’s disease and related dementias. Res. Soc. Adm. Pharm. 2022, 18, 3680–3686. [Google Scholar] [CrossRef] [PubMed]
  59. Holden, R.J.; Carayon, P.; Gurses, A.P.; Hoonakker, P.; Hundt, A.S.; Ozok, A.A.; Rivera-Rodriguez, A.J. SEIPS 2.0: A human factors framework for studying and improving the work of healthcare professionals and patients. Ergonomics 2013, 56, 1669–1686. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  60. Cornet, V.P.; Daley, C.; Bolchini, D.; Toscos, T.; Mirro, M.J.; Holden, R.J. Patient-Centered Design Grounded in User and Clinical Realities: Towards Valid Digital Health. Proc. Int. Symp. Hum. Factors Ergon. Health Care 2019, 8, 100–104. [Google Scholar] [CrossRef]
  61. Holden, R.J.; Cornet, V.P.; Valdez, R.S. Patient Ergonomics: 10-year mapping review of patient-centered human factors. Appl. Ergon. 2020, 82, 102972. [Google Scholar] [CrossRef]
  62. Kenner, C.; Weinerman, J. Adult learning theory: Applications to non-traditional college students. J. Coll. Read. Learn. 2011, 41, 87–96. [Google Scholar] [CrossRef]
  63. The Behavioral Insights Team MINDSPACE: Influencing Behaviour through Public Policy. Available online: https://www.bi.team/wp-content/uploads/2015/07/MINDSPACE.pdf (accessed on 10 February 2023).
  64. Rahimi, K.; Bidel, Z.; Nazarzadeh, M.; Copland, E.; Canoy, D.; Ramakrishnan, R.; Pinho-Gomes, A.-C.; Woodward, M.; Adler, A.; Agodoa, L.; et al. Pharmacological blood pressure lowering for primary and secondary prevention of cardiovascular disease across different levels of blood pressure: An individual participant-level data meta-analysis. Lancet 2021, 397, 1625–1636. [Google Scholar] [CrossRef]
Figure 1. The system, experiential, and social levers, and outcomes.
Figure 1. The system, experiential, and social levers, and outcomes.
Nutrients 15 01452 g001
Table 1. Summary of the measurement tools.
Table 1. Summary of the measurement tools.
ToolMeasureItemsAdministration
Screening (Baseline)
Hunger Vital Sign [38]Food security status2Interviewer
(in-person)
United States Department of Agriculture Household Food Security Survey Module (USDA HFSSM) [36]Food security status18Interviewer
(phone)
Functional Activities Questionnaire [39,40]Activities of daily living 10Interviewer
(phone)
Cognition Screening [41]Cognitive impairment6Interviewer
(phone)
The Newest Vital Sign [42]Health literacy2Interviewer
(in-person)
Feasibility (10–11 November 2021 and repeated on 8–9 December 2021)
SatisfactionSatisfaction with cooking class, food delivery, and tablet use3Interviewer
(phone)
Experience [43]Classroom engagement and learning16Interviewer
(phone)
Process Outcomes (Baseline and Post-training)
Social Support and Eating Habits Survey [45,46]Social support or sabotage of healthy eating by family and friends10Interviewer
(in-person)
Food-Related Self-Efficacy Survey [28,48]Food self-efficacy9Interviewer
(in-person)
Plan, Shop, Save, and Cook checklist [49,50]Food resource management skills7Interviewer
(in-person)
Behavioral Outcomes (Baseline and Post-training)
Four Domain Food Insecurity Scale (4D-FIS) [51]Food security status16Interviewer
(in-person)
Automated Self-Assisted 24-h Dietary Recall Tool (ASA-24) [52]Dietary intakeN/AInterviewer
(in-person and phone)
Healthy Eating Index (HEI)-2015 [54]Diet qualityN/AN/A
Table 2. Participant characteristics at baseline.
Table 2. Participant characteristics at baseline.
Characteristicn(%)
Age (years) {mean (SD)}58.9(4.5)
Sex
   Female10(77)
   Male3(23)
Race
   Black/African American12(92)
   White1(8)
USDA Household Food Security Status
   Low Food Security6(46)
   Very Low Food Security7(54)
Marital Status
   Single, never married7(54)
   Married4(31)
   Divorced2(15)
Household Composition
   Lives alone3(23)
   1 other person2(15)
   2 or more other people8(62)
Children in household (<18 years)
   Yes4(31)
   No9(69)
Employment status
   Employed (full or part-time)2(15)
   Unemployed due to health status6(46)
   Retired3(23)
   Student2(15)
Total income (U.S. dollars/month)
   Less than 15003(23)
   Between 1500–200010(77)
Education
   Less than high school diploma4(31)
   High school diploma or GED5(38)
   More than high school4(31)
SNAP participation
   Yes9(69)
   No4(31)
The Newest Vital Sign {mean (SD)}3.5(1.6)
GED: General Education Development; USDA: United States Department of Agriculture; and SNAP: Supplemental Nutrition Assistance Program.
Table 3. Average score and cumulative responses of participant experience.
Table 3. Average score and cumulative responses of participant experience.
How Often Are These Statements True in Regard to the FoRKS Program?Mean ScoreNeverHardly EverMonthlyWeeklyEach Day of Class
1. I feel excited.4.0---122
2. I feel interested.4.0----23
3. I feel happy.3.9-1--22
4. I have fun.3.9-1--22
5. I feel proud.3.81---22
6. I get really involved in class activities.3.9---221
7. I actively participate in class discussions.4.0---122
8. I form new questions in my mind as I join in class activities.3.4211217
9. I compare things I am learning with things I already knew.3.6-11417
10. I work with other participants and we learn from each other.3.4211118
11. If I make a mistake, I try to figure out where I went wrong.3.7-2-219
12. I go back over things I don’t understand.3.5-3-218
13. I ask myself some questions as I go along to make sure the class make sense to me.3.5-3-218
14. I am ‘zoned out’; not really thinking or participating in class.3.8185---
15. I let my mind wander.3.8185---
16. I just pretend like I’m participating.3.8194---
Results are presented as the cumulative counts across two 16-item experience surveys administered on 10–11 November 2021 and repeated on 8–9 December 2021. Out of n = 13 participants, 2 missed the first experience survey and 1 missed the second survey, for a total of 23 responses per item. Responses to statements were scored as integers ranging from 0 to 4 (i.e., never = 0, hardly ever = 1, monthly = 2, weekly = 3, and each day of class = 4). The final three questions were reverse-scored. The survey tool was a 16-item modified Classroom Engagement Learning Inventory used to assess participant experience.
Table 4. The mean difference in participant outcomes from baseline to post-training assessment.
Table 4. The mean difference in participant outcomes from baseline to post-training assessment.
Measure (Scale Range)BaselinePost-TrainingDifference95% CI
MeanSDMeanSDMeanSD
Process Outcomes
Social Support for Healthy Eating
(0, 25)
   Family Encouragement11.18.38.77.4−2.47.5(−8.0, 3.0)
   Family Discouragement4.23.21.82.0−2.53.5(−6.5, −0.5)
   Friend Encouragement6.77.28.77.42.06.6(−2.5, 8.5)
   Friend Discouragement3.02.71.82.0−1.22.9(−5.0, 1.0)
Food Self-efficacy Total (0, 45)22.24.823.95.41.75.9(−2.4, 5.8)
   Part 1 (0, 20)13.03.214.82.21.82.9(0.5, 6.0)
   Part 2 (0, 25)9.23.39.94.10.75.3(−2.5, 4.0)
Food Resource Management (0, 35)14.84.417.54.62.63.3(0.5, 5.0)
Behavioral Outcomes
Four-Domain Food Security Total (0, 16)7.43.71.41.8−6.03.7(−8.5, −3.5)
   Quantitative (0, 3)1.81.00.30.6−1.51.0(−2.5, −1.0)
   Qualitative (0, 6)2.91.30.81.2−2.11.6(−3.0, −1.0)
   Psychological (0, 3)1.51.300−1.51.3(−3.0, −2.0)
   Social (0, 4)1.31.00.30.6−1.01.4(−2.0, −0.5)
HEI-2015 Total (0, 100)51.511.955.212.53.713.1(−4.2, 11.6)
   Total Fruits (cups) (0, 5)2.52.12.12.4−0.42.6(−2.0, 1.2)
   Whole Fruits (cups) (0, 5)1.72.11.92.40.22.3(−1.2, 1.6)
   Total Vegetables (cups) (0, 5)3.21.83.02.2−0.31.8(−1.3, 0.8)
   Greens and Beans (cups) (0, 5)1.22.01.52.40.32.3(−1.1, 1.7)
   Whole Grains (ounces) (0, 10)2.32.94.34.12.04.1(−0.4, 4.5)
   Dairy (cups) (0, 10)5.03.14.34.0−0.74.7(−3.5, 2.2)
   Total Protein Foods (ounces) (0, 5)4.60.74.90.20.30.8(−0.2, 0.8)
   Seafood and Plant Proteins (ounces) (0, 5)2.52.52.02.3−0.53.1(−2.4, 1.4)
   Fatty Acids (ratio) (0, 10)4.93.95.24.10.24.8(−2.7, 3.1)
   Refined Grain (ounces) (0, 10)7.92.19.21.91.32.3(−0.1, 2.7)
   Sodium (grams) (0, 10)3.52.63.24.0−0.44.4(−3.0, 2.3)
   Added Sugars (% energy) (0, 10)8.72.210.00.41.12.4(−0.3, 2.6)
   Saturated Fats (% energy) 3.53.03.93.30.44.0(−2.0, 2.8)
Clinical Outcomes
Systolic Blood Pressure (mmHg)141.615.6135.218.0−6.419.0(−18.5, 5.6)
Diastolic Blood Pressure (mmHg)88.310.985.311.5−2.913.2(−11.3, 5.4)
Weight (pounds)227.270.4224.071.6−3.25.5(−6.7, 0.3)
The Social Support for Healthy Eating (SSHE) Questionnaire queried family/friend encouragement/discouragement of healthy eating habits over the past 30 days. The Four-Domain Food Security survey reference period was the past 30 days. Units for HEI-2015 component scores are cup, ounce, or gram equivalents per 1000 kilocalories, percent of total energy, or the ratio of poly-and monounsaturated fatty acids to saturated fatty acids. mmHg: millimeters of mercury.
Disclaimer/Publisher’s Note: The statements, opinions and data contained in all publications are solely those of the individual author(s) and contributor(s) and not of MDPI and/or the editor(s). MDPI and/or the editor(s) disclaim responsibility for any injury to people or property resulting from any ideas, methods, instructions or products referred to in the content.

Share and Cite

MDPI and ACS Style

Rivera, R.L.; Adams, M.; Dawkins, E.; Carter, A.; Zhang, X.; Tu, W.; Peña, A.; Holden, R.J.; Clark, D.O. Delivering Food Resources and Kitchen Skills (FoRKS) to Adults with Food Insecurity and Hypertension: A Pilot Study. Nutrients 2023, 15, 1452. https://doi.org/10.3390/nu15061452

AMA Style

Rivera RL, Adams M, Dawkins E, Carter A, Zhang X, Tu W, Peña A, Holden RJ, Clark DO. Delivering Food Resources and Kitchen Skills (FoRKS) to Adults with Food Insecurity and Hypertension: A Pilot Study. Nutrients. 2023; 15(6):1452. https://doi.org/10.3390/nu15061452

Chicago/Turabian Style

Rivera, Rebecca L., Mariah Adams, Emily Dawkins, Amy Carter, Xuan Zhang, Wanzhu Tu, Armando Peña, Richard J. Holden, and Daniel O. Clark. 2023. "Delivering Food Resources and Kitchen Skills (FoRKS) to Adults with Food Insecurity and Hypertension: A Pilot Study" Nutrients 15, no. 6: 1452. https://doi.org/10.3390/nu15061452

APA Style

Rivera, R. L., Adams, M., Dawkins, E., Carter, A., Zhang, X., Tu, W., Peña, A., Holden, R. J., & Clark, D. O. (2023). Delivering Food Resources and Kitchen Skills (FoRKS) to Adults with Food Insecurity and Hypertension: A Pilot Study. Nutrients, 15(6), 1452. https://doi.org/10.3390/nu15061452

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop