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Risk factors for Veteran food insecurity: findings from a National US Department of Veterans Affairs Food Insecurity Screener

Published online by Cambridge University Press:  08 November 2021

Alicia J Cohen*
Affiliation:
Center of Innovation in Long Term Services and Supports, VA Providence Healthcare System, Providence, RI, USA Department of Family Medicine, Alpert Medical School of Brown University, Providence, RI, USA Department of Health Services, Policy, and Practice, Brown University School of Public Health, Providence, RI 02903, USA
David M Dosa
Affiliation:
Center of Innovation in Long Term Services and Supports, VA Providence Healthcare System, Providence, RI, USA Department of Health Services, Policy, and Practice, Brown University School of Public Health, Providence, RI 02903, USA Department of Medicine, Alpert Medical School of Brown University, Providence, RI, USA
James L Rudolph
Affiliation:
Center of Innovation in Long Term Services and Supports, VA Providence Healthcare System, Providence, RI, USA Department of Health Services, Policy, and Practice, Brown University School of Public Health, Providence, RI 02903, USA Department of Medicine, Alpert Medical School of Brown University, Providence, RI, USA
Christopher W Halladay
Affiliation:
Center of Innovation in Long Term Services and Supports, VA Providence Healthcare System, Providence, RI, USA
Michele Heisler
Affiliation:
Center for Clinical Management Research, VA Ann Arbor Healthcare System, Ann Arbor, MI, USA Department of Internal Medicine, University of Michigan Medical School, Ann Arbor, Michigan Department of Health Behavior and Health Education, University of Michigan School of Public Health, Ann Arbor, MI, USA
Kali S Thomas
Affiliation:
Center of Innovation in Long Term Services and Supports, VA Providence Healthcare System, Providence, RI, USA Department of Health Services, Policy, and Practice, Brown University School of Public Health, Providence, RI 02903, USA
*
*Corresponding author: Email [email protected]
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Abstract

Objective:

Food insecurity is associated with numerous adverse health outcomes. The US Veterans Health Administration (VHA) began universal food insecurity screening in 2017. This study examined prevalence and correlates of food insecurity among Veterans screened.

Design:

Retrospective cross-sectional study using VHA administrative data. Multivariable logistic regression models were estimated to identify sociodemographic and medical characteristics associated with a positive food insecurity screen.

Setting:

All US Veterans Administration (VA) medical centres (n 161).

Participants:

All Veterans were screened for food insecurity since screening initiation (July 2017–December 2018).

Results:

Of 3 304 702 Veterans screened for food insecurity, 44 298 were positive on their initial screen (1·3 % of men; 2·0 % of women). Food insecurity was associated with identifying as non-Hispanic Black or Hispanic. Veterans who were non-married/partnered, low-income Veterans without VA disability-related compensation and those with housing instability had higher odds of food insecurity, as did Veterans with a BMI < 18·5, diabetes, depression and post-traumatic stress disorder. Prior military sexual trauma (MST) was associated with food insecurity among both men and women. Women screening positive, however, were eight times more likely than men to have experienced MST (48·9 % v. 5·9 %).

Conclusions:

Food insecurity was associated with medical and trauma-related comorbidities as well as unmet social needs including housing instability. Additionally, Veterans of colour and women were at higher risk for food insecurity. Findings can inform development of tailored interventions to address food insecurity such as more frequent screening among high-risk populations, onsite support applying for federal food assistance programs and formal partnerships with community-based resources.

Type
Research paper
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
To the extent this is a work of the US Government, it is not subject to copyright protection within the United States. Published by Cambridge University Press on behalf of The Nutrition Society
Copyright
© United States Department of Veterans Affairs, 2021

Food insecurity—defined as limited or uncertain availability of nutritionally adequate and safe food(1)—is associated with a range of adverse health outcomes(Reference Gundersen and Ziliak2,Reference Wang, McGinnis and Goulet3) . Food insecurity is also associated with delayed or missed care(Reference Kushel, Gupta and Gee4,Reference Narain, Bean-Mayberry and Washington5) , increased acute care utilisation(Reference Kushel, Gupta and Gee4,Reference Dean, French and Mortensen6,Reference Berkowitz, Seligman and Meigs7) and higher healthcare costs(Reference Dean, French and Mortensen6,Reference Berkowitz, Basu and Meigs8) . In 2020, 10·5 % of US households—and 14·8 % of households with children—reported being food insecure at least some time during the prior 12 months(Reference Coleman-Jensen, Rabbitt and Gregory9). This financial strain is often more pronounced in households with individuals with acute or chronic medical conditions(Reference Berkowitz, Meigs and DeWalt10Reference McDougall, Anderson and Adler Jaffe12). Levels of food insecurity increased dramatically since the start of the COVID-19 pandemic, particularly among households with children and among racial and ethnic minority groups, due to a variety of factors including employer shut downs, loss of childcare and in-person schooling and health-related economic hardship(Reference Coleman-Jensen, Rabbitt and Gregory9,Reference Restrepo, Rabbitt and Gregory13Reference Wolfson and Leung15) .

Limited research has focused on food insecurity among the 8 % of the US population that has served in the US armed forces. Many Veterans face unique economic and employment challenges following their military service, stemming both from service-related mental and physical health issues as well difficulty reintegrating into civilian life(Reference Rabbitt and Smith16). Previously published estimates of the prevalence of food insecurity among US Veterans vary from a low of 6 % to as high as 24 % depending on the criteria utilised(Reference Wang, McGinnis and Goulet3,Reference Rabbitt and Smith16Reference Brostow, Gunzburger and Thomas20) . Two studies have examined food insecurity among the general Veteran population using nationally representative survey data, with respective prevalence rates of 6·5 % in the prior 30 d(Reference Pooler, Mian and Srinivasan17) and 8·4 % in the prior 12 months(Reference Miller, Larson and Byrne18). A study analysing data from 2002 to 2008 waves of the Veterans Aging Cohort Study, a multisite investigation of Veterans receiving Department of Veterans Affairs (VA) health care, found that 24 % of Veterans reported food insecurity(Reference Wang, McGinnis and Goulet3). Higher rates of food insecurity have been reported among Veterans of Iraq and Afghanistan (27 %)(Reference Widome, Jensen and Bangerter21), women Veterans (28 %)(Reference Narain, Bean-Mayberry and Washington5), homeless and formerly homeless Veterans (49 %)(Reference O’Toole, Roberts and Johnson22) and Veterans with serious mental illness (35 %)(Reference Pooler, Mian and Srinivasan17).

The Veterans Health Administration (VHA), the country’s largest integrated federally funded health care system, has invested heavily in screening for and addressing Veteran food insecurity. Following 2015 congressional briefings on Veteran food insecurity, recommendations from a subsequently chartered VA Ensuring Veteran Food Security Workgroup, and a food insecurity screening pilot in VA homeless clinics(Reference O’Toole, Roberts and Johnson22), VHA developed a national food insecurity screener in 2017. This food insecurity clinical reminder, which is integrated into the electronic health record, prompts staff to administer a single-item screening question annually to all Veterans receiving VA health care who are not residents of a long-term care facility. Veterans endorsing food insecurity based on the single-item screener are offered a referral to a social worker and/or a dietitian as part of the clinical reminder. The food insecurity clinical reminder was first piloted at six sites across the country in July 2017, and implemented across VA medical centres nationally in October 2017(Reference Cohen, Rudolph and Thomas23).

Little is known about prevalence or correlates of food insecurity among Veterans receiving VHA care, as measured by this universal VA food insecurity screener. To address this gap, we analysed data from the first 18 months following implementation of the food insecurity clinical reminder to identify: (1) the prevalence of reported food insecurity and (2) selected sociodemographic, medical and psychosocial characteristics associated with a positive screen. Based on prior literature, we hypothesised that while many sociodemographic and medical characteristics associated with food insecurity among US Veterans would be similar to those in the general US population, US Veterans may have additional military service and/or trauma-related risk factors for food insecurity.

Methods

Data source and study cohort

Data were extracted from the VA Corporate Data Warehouse, a national data repository that includes VA administrative and electronic health record data. The cohort consisted of all Veterans who were screened using the VA food insecurity clinical reminder between when it was first piloted in July 1, 2017 and December 31, 2018. Veterans were eligible for screening with the clinical reminder if they (1) received VA clinical care during the above time period, and (2) were not residing in a long-term care facility. During this time period, 3 513 321 food insecurity clinical reminder screens were completed. An additional 7496 (0·2 %) of Veterans declined or were unable to answer the screening question, or were flagged in the electronic health record to receive the food insecurity clinical reminder but were ineligible due to residence in a long-term care facility. For those Veterans screened more than once during the study period, we restricted analyses to their first food insecurity screen, resulting in a final analytic sample of 3 304 702 Veterans.

Measures

The food insecurity clinical reminder prompts VA clinical staff to ask each eligible Veteran: ‘In the past 3 months did you ever run out of food and were you not able to access more food or have the money to buy more food?’ (yes/no). A ‘yes’ response is considered a positive screen for food insecurity.

All clinical reminder data are housed in the Corporate Data Warehouse in a national ‘Health Factors’ database. Sociodemographic characteristics—including gender, age at the time of screening, race, ethnicity, marital status, history of military sexual trauma (MST) and Veteran enrolment priority status—were obtained from the medical record. MST is defined as sexual assault or harassment experienced during military service, and is a standardised screen administered to all Veterans. Enrolment priority determines Veterans’ eligibility for, and cost-share associated with, VA health benefits. We collapsed enrolment priority into three categories based on VA benefits: Veterans with some percentage of service-connected disability and disability-related VA compensation, Veterans not receiving VA disability compensation who are low income, and Veterans not receiving VA disability compensation who have income above the VA administered means test.

Most recent BMI was obtained from electronic health record vital sign data. We used the 10th revision of the International Classification of Diseases -10 codes to define medical and behavioural diagnoses including diabetes mellitus type II, hypertension, depression, post-traumatic stress disorder (PTSD) and substance use disorder. Separate VA clinical reminder data were used to define current tobacco use in the prior year. We defined homelessness/housing instability as having a positive homelessness clinical reminder screen and/or an International Classification of Diseases-10 code associated with homelessness or housing instability in the prior year. We identified Veterans living in a rural area using a standardised VA definition based on rural–urban commuting area codes.

Statistical methods

Standard descriptive statistics (frequencies and percentages) were calculated for all variables. We estimated bivariate and multivariable logistic regression models to identify sociodemographic, medical and psychosocial characteristics associated with a positive food insecurity clinical reminder screen. Because of potential unobserved facility-level differences in screening practices and populations served, all models include fixed effects for VA medical centres. For covariates with ≥ 5 % missing values—race/ethnicity, marital status and BMI—we included missing as a separate category in the regression models. Missing values for the remaining variables were each ≤ 1 %. All analyses were conducted both for the full sample and stratified by gender.

In order to account for potential differences in screening practices during the initial ‘ramp up’ of the clinical reminder as sites were adapting to a new screening instrument, we conducted sensitivity analyses excluding the first 6 months of screening data and restricting our sample to Veterans screened between January 2018 and December 2018. R, version 3.6.1, was used for all analyses. This study was approved by the Providence VA Medical Center Institutional Review Board.

Results

Between July 2017 and December 2018, 3 304 702 Veterans were screened using the food insecurity clinical reminder (Table 1). Of those screened, 3 005 797 (91·0 %) were male and 298 905 (9·0 %) were female. Female Veterans were overall younger than male Veterans. 43·6 % of women and 26·5 % of men identified as non-white. More than half of men (54·6 %) and nearly two-thirds of women (66·2 %) had some level of service-connected disability. Six percent of men and 8·2 % of women had experienced homelessness or housing instability during the prior year. Clinically, the majority of men (73·2 %) and women (69·9 %) were overweight or obese. Men were more likely than women to have a diagnosis of diabetes (25·7 % v. 11·4 %) and hypertension (54·6 % and 28·0 %), whereas women were more likely to have a diagnosis of depression (15·6 % v. 30·7 %) and PTSD (14·2 % v. 21·3 %). Nearly one-third of women (31·1 %) reported a history of MST, compared with 1·9 % of men.

Table 1 Characteristics of US Veterans Health Administration patients screened using the food insecurity clinical reminder, overall and by gender: July 2017–December 2018

Abbreviation: SC, service connected; VA, US Department of Veterans Affairs; BMI, body mass index.

* Enrolment priority determines US Veterans’ eligibility for, and cost-share associated with, VA health benefits.

SC disability provides a monetary benefit paid to Veterans who are determined by VA to be disabled by an injury or illness that was incurred or aggravated during active military service.

Non-service connected Veterans determined by the VA to be low-income.

§ Non-service connected Veterans who have income above the VA administered means test.

Overall, 44 298 Veterans (1·3 %) screened positive for food insecurity on their initial clinical reminder screen (1·3 % of men and 2·0 % of women, Table 2). There was substantial variation in the percentage of positive screens across VA medical facilities, ranging from 0·11 to 11·1 % (median 1·2 %, IQR 0·9–1·6 %). Compared with Veterans screening negative for food insecurity, Veterans with a positive screen were more likely to be < 65 years of age (77·9 % v. 50·2 %), and to identify as a racial/ethnic minority (46·3 % v. 27·7 %), non-married/partnered (70·2 % v. 41·7 %) and low income (44·1 % v. 21·9 %). Veterans with a positive food insecurity screen were also more likely have experienced homelessness or housing instability in the prior year (58·1 % v. 5·5 %); smoke tobacco (48·3 % v. 23·8 %); have a history of MST (11·6 % v. 4·4 %) and have a diagnosis of depression (36·2 % v. 16·7 %), PTSD (23·8 % v. 14·7 %) and/or substance use disorder (28·9 % v. 8·8 %). Trends were overall similar in gender-stratified analyses (Table 2). The prevalence of MST was substantially higher among women regardless of food insecurity status—48·9 % of women with a positive food insecurity screen and 30·7 % of women with a negative food insecurity screen reported a history of MST (compared with 6·0 % and 1·8 % of men, respectively).

Table 2 Characteristics of Veterans screened using the food insecurity clinical reminder, by screening status: July 2017–December 2018

Abbreviations: SC, service connected; VA, US Department of Veterans Affairs; BMI, body mass index.

* Enrolment priority determines US Veterans’ eligibility for, and cost-share associated with, VA health benefits.

SC disability provides a monetary benefit paid to Veterans who are determined by VA to be disabled by an injury or illness that was incurred or aggravated during active military service.

Non-service connected Veterans determined by the VA to be low-income.

§ Non-service connected Veterans who have income above the VA administered means test.

Adjusted and unadjusted odd ratios for correlates of a positive food insecurity clinical reminder, stratified by gender, are presented in Table 3. In adjusted models specific to male Veterans, a positive food insecurity screen was associated with age < 65 years (18–34 years: adjusted OR (aOR) = 1·93, 95 % CI = 1·71, 2·18; 35–44 years: aOR = 1·87, 95 % CI = 1·68, 2·08; 45–54 years: aOR = 1·66, 95 % CI = 1·51, 1·82; and 55–64 years: aOR = 1·58, 95 % CI = 1·44, 1·73); identifying as non-Hispanic Black (aOR = 1·32, 95 % CI = 1·25, 1·40), Hispanic (aOR = 1·48, 95 % CI = 1·06, 2·08) or ‘other’ non-white, non-Hispanic race/ethnicity (aOR = 1·22, 95 % CI = 1·12, 1·33), being non-married/partnered (aOR = 1·36, 95 % CI = 1·30, 1·42), and having experienced homelessness or housing instability in the prior year (aOR = 13·79, 95 % CI = 12·36, 15·40). Low-income Veterans without service-connected disability compensation had higher odds of a positive food insecurity screen (aOR = 1·52, 95 % CI = 1·47, 1·58) relative to Veterans with service-connected disability compensation. Veterans who were clinically underweight (BMI < 18·5, aOR = 1·31, 95 % CI = 1·21, 1·41), had a diagnosis of diabetes (aOR = 1·13, 95 % CI = 1·09, 1·18), smoked tobacco (aOR = 1·35, 95 % CI = 1·30, 1·41), had a diagnosis of depression or PTSD (aOR = 1·25, 95 % CI, 1·20, 1·31 and aOR = 1·05, 95 % CI = 1·01, 1·09, respectively) or a history of MST (aOR = 1·42, 95 % CI = 1·35, 1·50) also had increased odds of a positive screen. History of substance use disorder was associated with a positive clinical reminder screen in bivariate analyses, but not in the adjusted model.

Table 3 Correlates of a positive food insecurity clinical reminder screen, by gender

Abbreviations: aOR, adjusted OR; SC, service connected; VA, US Department of Veterans Affairs, BMI, body mass index.

Multivariable logistic regression model, adjusted for VA Medical Center-level fixed effects.

* Enrolment priority determines Veterans’ eligibility for, and cost-share associated with, VA health benefits.

SC disability provides a monetary benefit paid to Veterans who are determined by VA to be disabled by an injury or illness that was incurred or aggravated during active military service.

Non-service connected Veterans determined by the VA to be low-income.

§ Non-service connected Veterans who have income above the VA administered means test.

Correlates of a positive clinical reminder were generally similar for women, with the exception that identifying as Hispanic was not associated with higher odds of a positive food insecurity (aOR = 1·00, 95 % CI = 0·89, 1·12). Additionally, while PTSD among women trended towards higher odds of a positive screen in adjusted analyses, this did not reach statistical significance (aOR = 1·05, 95 % CI = 0·99, 1·13) (Table 3). Adjusted and unadjusted odd ratios for correlates of a positive food insecurity clinical reminder for the overall cohort were similar to correlates among male Veterans given that 91 % of the cohort was male (see online supplementary material, Supplemental Table 1).

Sensitivity analyses excluding a 6-month ‘ramp-up’ period from July 2017 to December 2017 did not yield substantively different findings relative to results from analyses using the full July 2017–December 2018 period.

Discussion

This study is, to our knowledge, the first to examine prevalence and risk factors associated with US Veteran food insecurity as identified in a nationwide VA food insecurity screener. More than 3·3 million non-institutionalised Veterans were screened for food insecurity in the first 18 months following implementation of the VA food insecurity clinical reminder. More than 44 000 Veterans were identified as food insecure on their initial screen, representing 1·3 % of men and 2·0 % of women. While measures of lower income and financial hardship were associated with a positive food insecurity clinical reminder screen, a positive screen was also associated with numerous medical and trauma-related comorbidities such as MST. Veterans of colour and women were also at increased risk for a positive food insecurity screen.

The prevalence of Veteran food insecurity identified by the VA food insecurity clinical reminder is markedly lower than rates found in prior studies(Reference Wang, McGinnis and Goulet3,Reference Narain, Bean-Mayberry and Washington5,Reference Pooler, Mian and Srinivasan17Reference Schure, Katon and Wong19) . This may reflect differences in the single-item question used in the VA screener compared with those used in prior research(Reference Wang, McGinnis and Goulet3,Reference Narain, Bean-Mayberry and Washington5,Reference Pooler, Mian and Srinivasan17,Reference Miller, Larson and Byrne18,Reference Widome, Jensen and Bangerter21) . For example, the gold standard USDA Food Security Survey Module includes questions such as being ‘worried’ whether food would run out before there was money to buy more(24). In contrast, the VA food insecurity clinical reminder asks whether a Veteran has ‘run out of food,’ a more severe form of food hardship. Additionally, the food insecurity clinical reminder provides binary ‘yes/no’ response options, which have been shown to identify substantially less need than offering ‘often/sometimes/never’ categories(Reference Makelarski, Abramsohn and Benjamin25). For these reasons, it is likely that the VA screener was capturing only the most severe cases of food insecurity among Veterans. Reported rates of food insecurity may also have been lower in our sample compared with survey-based estimates due to well-recognised barriers to disclosure of food insecurity in clinical settings including stigma, fear of judgment and concern about being reported to child protective services(Reference Cullen, Attridge and Fein26Reference Palakshappa, Doupnik and Vasan29). As with other food insecurity instruments commonly used both in clinical settings and in survey research(24,Reference Hager, Quigg and Black30) , the VA clinical reminder also focuses on financial barriers to food access and does not provide information on the nutritional adequacy of the food Veterans are able to obtain.

Similar to prior studies, we found that Veterans who were non-married/partnered(Reference Rabbitt and Smith16,Reference Pooler, Mian and Srinivasan17,Reference Brostow, Gunzburger and Thomas20,Reference Widome, Jensen and Bangerter21) , low income(Reference Wang, McGinnis and Goulet3,Reference Narain, Bean-Mayberry and Washington5,Reference Rabbitt and Smith16,Reference Pooler, Mian and Srinivasan17,Reference Brostow, Gunzburger and Thomas20) or experienced housing instability within the past year(Reference Wang, McGinnis and Goulet3,Reference O’Toole, Roberts and Johnson22) were at increased risk for food insecurity. While the association between food insecurity and other markers of financial hardship such being low income or having unstable housing is unsurprising, findings of increased risk for food insecurity among those who are non-married/partnered may reflect having fewer financial reserves and potentially less social support to help stretch limited resources. Also consistent with other studies, we found that Veterans of colour were at increased risk of food insecurity(Reference Wang, McGinnis and Goulet3,Reference Pooler, Mian and Srinivasan17) . This increased risk likely reflects a number of complex and interrelated factors including a disproportionate burden of poverty and unemployment resulting from structural racism and disparities in social and economic opportunity(Reference Morales, Morales and Beltran14,Reference Odoms-Young and Bruce31) , as well as experiences of racism and racial and ethnic discrimination(Reference Phojanakong, Brown and Grimaldi32,Reference Burke, Jones and Frongillo33) .

Also consistent with prior studies, we found that Veterans with a history of depression and/or PTSD had higher odds of a positive food insecurity screen(Reference Wang, McGinnis and Goulet3,Reference Narain, Bean-Mayberry and Washington5,Reference Pooler, Mian and Srinivasan17,Reference Brostow, Gunzburger and Thomas20) . Veterans with diabetes also had higher odds of food insecurity, which can impede pharmaceutical-based efforts to ensure adequate control of this diet-related disease. This is consistent with prior work finding poorer diabetes control among both Veterans and non-Veterans experiencing food insecurity(Reference Wang, McGinnis and Goulet3,Reference Berkowitz, Meigs and DeWalt10,Reference Seligman, Jacobs and López34) . Although US households in rural areas experience food insecurity at rates significantly higher than the national average(Reference Coleman-Jensen, Rabbitt and Gregory9), we did not find an association between living in a rural area and food insecurity. One reason for this may be that because the clinical reminder question focuses on financial barriers to obtaining food, the screener does not explicitly assess other barriers to food access that may be more salient in rural areas such as limited food availability or lack of transportation.

Findings from our study and others(Reference Pooler, Mian and Srinivasan17,Reference Brostow, Gunzburger and Thomas20,Reference Widome, Jensen and Bangerter21) that Veterans under 65 were more likely to screen positive for food insecurity likely reflects multiple factors. Volunteer-era (i.e. post-Vietnam) Veterans have both poorer financial stability and higher levels of material hardship than their counterparts from earlier service periods(Reference Pooler, Mian and Srinivasan17,Reference Miller, Larson and Byrne18,Reference Widome, Jensen and Bangerter21,Reference Gustman, Steinmeier and Tabatabai35) . Volunteer-era Veterans are more likely to come from a lower socioeconomic background and have lower educational attainment(Reference Cohen, Warner and Segal36,Reference Lutz37) , and are more likely to report a history of childhood or other trauma prior to military service(Reference Blosnich, Dichter and Cerulli38). Each of these factors has been associated with higher risk of food insecurity later in life(Reference Vogel, Lewis and Ntani39,Reference Chilton, Rabinowich and Woolf40) . Furthermore, Veterans age 65 and older may be more likely to have resources to promote financial stability compared to Veterans under age 65. These resources may include social security retirement benefits, receipt of a military pension or retirement savings from a civilian job.

Veterans with some degree of service-connected disability—and who therefore also receive VA disability-related compensation—had lower odds of a positive food insecurity screen than low-income Veterans without a service-connected disability. This parallels findings of Montgomery and colleagues pertaining to service-connected disability and Veterans’ risk of homelessness and housing instability(Reference Montgomery, Dichter and Thomasson41). Together, these findings suggest that VA disability compensation provides some measure of protection from material hardship. Future work is needed to better understand how this protective effect may vary by type and severity of service-connected disability as well as benefit amount. Findings also suggest that Veterans who are low-income and not receiving VA disability-related compensation may benefit from additional targeted food insecurity screening efforts.

Our study is the first to have specifically examined the association between MST and food insecurity. There is, however, a well-established association between food insecurity and past and/or current trauma such as sexual or physical violence(Reference Ricks, Cochran and Arah42) as well as history of adverse childhood experiences(Reference Chilton, Rabinowich and Woolf40). Prior studies have also found an association between history of MST and post-deployment homelessness(Reference Pavao, Turchik and Hyun43,Reference Brignone, Gundlapalli and Blais44) . These relationships are likely multifactorial and reflect the association between trauma and medical and mental health-related comorbidities, as well as higher rates of unemployment, financial hardship and decreased self-management capacity. Similar to our findings that history of MST was independently associated with food insecurity, Brignone and colleagues found that MST was independently associated with homelessness even after adjusting for co-occurring mental health conditions(Reference Brignone, Gundlapalli and Blais44). Taken together, these findings underscore the complex interplay between trauma exposure and subsequent material hardship.

History of MST was associated an increased odds of food insecurity among both men and women. Woman overall, however, were nearly 17 times more likely than men to have experienced MST (31·1 % of women v. 1·9 % of men), which is consistent with previously reported rates of MST(Reference Kimerling, Gima and Smith45). Among women screening positive for food insecurity, nearly half (48·9 %) reported a history of MST. Compared with men, women overall also had twice the rate of depression, 50 % higher rates of PTSD and as in prior studies they were also more likely to have experienced recent homelessness or housing instability(Reference Montgomery, Dichter and Thomasson41,Reference Peterson, Gundlapalli and Metraux46) , all of which were associated with increased risk for food insecurity. Each of these factors highlights the unique and complex challenges commonly faced by women Veterans.

Collectively, these findings can help clinicians focus additional targeted screening efforts which may include both more frequent screening among populations at particularly high risk for food insecurity, and also expansion of routine screening beyond primary care to include settings such as mental health clinics. Identifying Veterans vulnerable to food insecurity is particularly urgent given the current COVID-19 pandemic, which has both exacerbated existing disparities around food access and plunged many who were previously food secure into new material hardship(Reference Wolfson and Leung15). In some settings such as VA homeless clinics, it may be appropriate to screen for food insecurity at every visit. The strong association independent between food insecurity and both MST and PTSD underscores the need for trauma informed care regardless of screening setting.

Our findings can also help providers and health care organisations prioritise the development of wrap-around, team-based interventions tailored to specific high-risk groups. Given that Veterans with diabetes and mental health-related comorbidities are at increased risk for food insecurity, targeted trainings regarding risks for and sequalae of food insecurity may be indicated for those providing clinical care for these populations including primary care and mental health providers, endocrinologists, pharmacists and dietitians. Trainings should cover the need to review medication lists with patients for any cost-related barriers to adherence, medications with high risk for hypoglycaemia or medications requiring specific food availability, as well as the importance of providing context-appropriate nutritional counselling based on patients’ medical and social circumstances. Interventions to ameliorate food insecurity may include development and/or expansion of onsite food pantries, referrals to community-based emergency food resources to meet immediate needs, onsite support applying for federal food assistance programs and/or direct provision of food through produce prescriptions or medically tailored meal programs. VA facilities may also partner with Veteran Service Organizations to facilitate connecting Veterans with available community and governmental resources.

The substantial variation in rates of positive screens across individual VA medical facilities likely reflects several factors including both geographical variation in the community-level prevalence of food insecurity as well as facility-level differences in screening practices and populations of Veterans served. Although the VA food insecurity clinical reminder question and follow-up prompts are uniform across VA medical centres, there is local variation in who administers the screening (e.g. clinician, nurse, medical assistant, social worker, dietitian) and whether the screener is administered prior to seeing a provider or during the clinical encounter. Additional research is needed to explore variation in how—and how reliably—screening is administered, as well as how variation in screening administration may impact Veterans’ responses. Prior work has found patients prefer self-administered paper or tablet-based food insecurity screening rather than being screened verbally(Reference Cullen, Attridge and Fein26,Reference Cullen, Woodford and Fein47,Reference Palakshappa, Goodpasture and Albertini48) , and that disclosure rates for food insecurity in clinical settings are higher when screening is self-administered(Reference Cullen, Woodford and Fein47Reference Gottlieb, Hessler and Long49). While the VA food insecurity clinical reminder—similar to other VA clinical reminders—is currently designed to be verbally administered by a member of the clinical care team, considering potential mechanisms for self-administered screening may be warranted.

Future work should examine variation at both the individual and medical centre level in how Veterans’ needs are addressed once they are identified as food insecure. There is also a need to better understand how Veterans’ experiences of food insecurity and food insecurity clinical reminder screening results may change over time, as well as optimal intervals for rescreening and whether this should vary by population. Finally, in April of 2021, which post-dated our study period, VHA updated the food insecurity clinical reminder to use a two-question instrument that has been validated to assess risk for food insecurity in clinical settings(Reference Hager, Quigg and Black30). Future work should explore how the prevalence of food insecurity identified within VHA may change with this new instrument.

Limitations

Our study has several limitations. First, because the VA food insecurity clinical reminder asks about particularly severe food hardship it may be underestimating the true prevalence of food insecurity among Veterans receiving VA care. While future validation studies are needed to understand how findings from the VA screener compare with other food insecurity instruments, it seems likely that those Veterans identified by the VA clinical reminder are at particularly high risk for having immediate food needs. Second, we were only able to analyse data for Veterans who presented for care within VHA and were screened during the first 18 months following implementation of the food insecurity clinical reminder. In particular, we were unable to examine food security status for those Veterans who did not engage in VHA care during the 18-month study period either because they did not seek healthcare during this period, they sought care outside of the VA using other benefits such as Medicare or Medicaid and/or they sought care in the community through the Choice Act(50). A unique strength of this study is we were able to use a national administrative VA database to evaluate the entire population of 3·3 million Veterans screened. Third, there is local variation in how screening is administered which could impact Veterans’ response. We did, however, include VA medical centre-level fixed effects in our models to account for stable facility-level differences in screening practices and populations. Fourth, responses may have been influenced by perceived stigma, social-desirability bias and Veterans’ comfort with or trust in the person administering the screening. Results may have varied with a self-administered screener(Reference Gottlieb, Hessler and Long49).

Conclusions

Systematic universal screening for food insecurity in the VA is a critical first step towards identifying Veterans currently experiencing or at high risk for experiencing food insecurity. Future work is needed to identify best practices for connecting Veterans experiencing food insecurity with VA and community resources to most effectively address the unique needs of the Veteran population.

Acknowledgements

Acknowledgements: We thank Robert McConeghy for his assistance with early data analyses, as well as Jason Buxbaum for his thoughtful review of the manuscript. Financial support: This work was supported by grant CIN 13–419 from the VA Health Services Research and Development Center of Innovation in Long Term Services and Supports. A.J.C. was additionally supported by CDA 20–037 from the Department of Veterans Affairs Health Services Research and Development. M.H. was supported by grant P30DK092926 (MCDTR) from the National Institute of Diabetes and Digestive and Kidney Diseases. K.S.T was supported by CDA 14–422 from the Department of Veterans Affairs Health Services Research and Development. The funders had no role in the design and conduct of the study; collection, management, analysis and interpretation of the data; preparation, review or approval of the manuscript or the decision to submit the manuscript for publication. The manuscript’s contents are solely the responsibility of the authors and do not reflect the position or policy of the Department of Veterans Affairs, the US government, the National Institutes of Health, or other affiliated institutions. Conflict of interest: There are no conflicts of interest. Authorship: Study concept and design: A.J.C., D.M.D., J.L.R., M.H., K.S.T. Acquisition, analysis or interpretation of data: all authors. Drafting of the manuscript: A.J.C. Critical revision of the manuscript for important intellectual content: all authors. Statistical analysis: C.W.H., A.J.C. Obtaining funding: J.L.R., A.J.C. Administrative, technical, or material support and supervision: A.J.C., D.M.D., J.L.R., K.S.T. Final approval of the version to be published: all authors. Ethics of human subject participation: This study was conducted according to the guidelines laid down in the Declaration of Helsinki and all procedures involving research study participants were approved by the Providence VA Medical Center IRB, including a waiver of informed consent as analyses were limited to retrospective chart review.

Supplementary material

For supplementary material/s referred to in this article, please visit https://doi.org/10.1017/S1368980021004584

References

USDA ERS (2021) Food Insecurity in the US – Measurement. https://www.ers.usda.gov/topics/food-nutrition-assistance/food-security-in-the-us/measurement/#security (accessed September 2021).Google Scholar
Gundersen, C & Ziliak, JP (2015) Food insecurity and health outcomes. Health Aff Proj Hope 34, 18301839.CrossRefGoogle ScholarPubMed
Wang, EA, McGinnis, KA, Goulet, J et al. (2015) Food insecurity and health: data from the veterans aging cohort study. Public Health Rep 130, 261268.CrossRefGoogle ScholarPubMed
Kushel, MB, Gupta, R, Gee, L et al. (2006) Housing instability and food insecurity as barriers to health care among low-income Americans. J Gen Intern Med 21, 7177.CrossRefGoogle ScholarPubMed
Narain, K, Bean-Mayberry, B, Washington, DL et al. (2018) Access to care and health outcomes among women veterans using veterans administration health care: association with food insufficiency. Womens Health Issues 28, 267272.CrossRefGoogle ScholarPubMed
Dean, EB, French, MT & Mortensen, K (2020) Food insecurity, health care utilization, and health care expenditures. Health Serv Res 55, 883893.CrossRefGoogle ScholarPubMed
Berkowitz, SA, Seligman, HK, Meigs, JB et al. (2018) Food insecurity, healthcare utilization, and high cost: a longitudinal cohort study. Am J Manag Care 24, 399404.Google ScholarPubMed
Berkowitz, SA, Basu, S, Meigs, JB et al. (2017) Food insecurity, health care expenditures in the United States, 2011–2013. Health Serv Res 53, 16001620.CrossRefGoogle ScholarPubMed
Coleman-Jensen, A, Rabbitt, MP, Gregory, C et al. (2021) Household Food Security in the United States in 2020. http://www.ers.usda.gov/publications/pub-details/?pubid=102075 (accessed October 2021).Google Scholar
Berkowitz, SA, Meigs, JB, DeWalt, D et al. (2015) Material need insecurities, control of diabetes mellitus, and use of health care resources: results of the measuring economic insecurity in diabetes study. JAMA Intern Med 175, 257265.CrossRefGoogle ScholarPubMed
Berkowitz, SA, Seligman, HK & Choudhry, NK (2014) Treat or Eat: food Insecurity, cost-related Medication Underuse, and Unmet Needs. Am J Med 127, 310.e3.CrossRefGoogle ScholarPubMed
McDougall, JA, Anderson, J, Adler Jaffe, S et al. (2020) Food insecurity and forgone medical care among cancer survivors. JCO Oncol Pract 16, e922e932.CrossRefGoogle ScholarPubMed
Restrepo, BJ, Rabbitt, MP & Gregory, CA (2021) The effect of unemployment on food spending and adequacy: evidence from coronavirus-induced firm closures. Appl Econ Perspect Policy 43, 185204.CrossRefGoogle Scholar
Morales, DX, Morales, SA & Beltran, TF (2020) Racial/Ethnic disparities in household food insecurity during the COVID-19 pandemic: a nationally representative study. J Racial Ethn Health Disparities 8, 13001314.CrossRefGoogle ScholarPubMed
Wolfson, JA & Leung, CW (2020) Food insecurity during COVID-19: an acute crisis with long-term health implications. Am J Public Health 110, 17631765.CrossRefGoogle ScholarPubMed
Rabbitt, MP & Smith, MD (2021) Food Insecurity among Working-Age Veterans. Washington, DC: USDA.Google Scholar
Pooler, J, Mian, P, Srinivasan, M et al. (2018) Veterans and Food Insecurity. https://www.impaqint.com/sites/default/files/issue-briefs/VeteransFoodInsecurity_IssueBrief_V1.3.pdf (accessed November 2018).Google Scholar
Miller, DP, Larson, MJ, Byrne, T et al. (2016) Food insecurity in veteran households: findings from nationally representative data. Public Health Nutr 19, 17311740.CrossRefGoogle ScholarPubMed
Schure, MB, Katon, JG, Wong, E et al. (2016) Food and housing insecurity and health status among U.S. adults with and without prior military service. SSM – Popul Health 2, 244248.CrossRefGoogle ScholarPubMed
Brostow, DP, Gunzburger, E & Thomas, KS (2017) Food insecurity among veterans: findings from the health and retirement study. J Nutr Health Aging 21, 13581364.CrossRefGoogle ScholarPubMed
Widome, R, Jensen, A, Bangerter, A et al. (2015) Food insecurity among veterans of the US wars in Iraq and Afghanistan. Public Health Nutr 18, 844849.CrossRefGoogle ScholarPubMed
O’Toole, TP, Roberts, CB & Johnson, EE (2017) Screening for food insecurity in six veterans administration clinics for the homeless, June-December 2015. Prev Chronic Dis 14, E04.CrossRefGoogle ScholarPubMed
Cohen, AJ, Rudolph, JL, Thomas, KS et al. (2020) Food insecurity among veterans: resources to screen and intervene. Fed Pract 37, 1623.Google ScholarPubMed
U.S. Department of Agriculture, Economic Research Service (2021) USDA ERS – Survey Tools. https://www.ers.usda.gov/topics/food-nutrition-assistance/food-security-in-the-us/survey-tools/ (accessed October 2021).Google Scholar
Makelarski, JA, Abramsohn, E, Benjamin, JH et al. (2017) Diagnostic accuracy of two food insecurity screeners recommended for use in health care settings. Am J Public Health 107, 18121817.CrossRefGoogle ScholarPubMed
Cullen, D, Attridge, M & Fein, JA (2020) Food for thought: a qualitative evaluation of caregiver preferences for food insecurity screening and resource referral. Acad Pediatr 20, 11571162.CrossRefGoogle ScholarPubMed
Barnidge, E, LaBarge, G, Krupsky, K et al. (2017) Screening for Food Insecurity in Pediatric Clinical Settings: opportunities and Barriers. J Community Health 42, 5157.CrossRefGoogle ScholarPubMed
Barnidge, E, Krupsky, K, LaBarge, G et al. (2020) Food insecurity screening in pediatric clinical settings: a caregivers’ perspective. Matern Child Health J 24, 101109.CrossRefGoogle ScholarPubMed
Palakshappa, D, Doupnik, S, Vasan, A et al. (2017) Suburban families’ experience with food insecurity screening in primary care practices. Pediatrics 140, e20170320.CrossRefGoogle ScholarPubMed
Hager, ER, Quigg, AM, Black, MM et al. (2010) Development and validity of a 2-item screen to identify families at risk for food insecurity. Pediatrics 126, e2632.CrossRefGoogle ScholarPubMed
Odoms-Young, A & Bruce, MA (2018) Examining the impact of structural racism on food insecurity: implications for addressing racial/ethnic disparities. Fam Community Health 41, S3S6.CrossRefGoogle ScholarPubMed
Phojanakong, P, Brown, WE, Grimaldi, G et al. (2019) Experiences of racial and ethnic discrimination are associated with food insecurity and poor health. Int J Environ Res Public Health 16, 4369.CrossRefGoogle ScholarPubMed
Burke, MP, Jones, SJ, Frongillo, EA et al. (2018) Severity of household food insecurity and lifetime racial discrimination among African-American households in South Carolina. Ethn Health 23, 276292.CrossRefGoogle ScholarPubMed
Seligman, HK, Jacobs, EA, López, A et al. (2012) Food insecurity and glycemic control among low-income patients with type 2 diabetes. Diabetes Care 35, 233238.CrossRefGoogle ScholarPubMed
Gustman, AL, Steinmeier, TL & Tabatabai, N (2016) Declining wealth and work among male veterans in the health and retirement study. J Retire 4, 7798.CrossRefGoogle Scholar
Cohen, J, Warner, RL & Segal, DR (1995) Military service and educational attainment in the all-volunteer force. Soc Sci Q 76, 88104.Google Scholar
Lutz, A (2008) Who joins the military? A look at race, class, and immigration status. J Political Mil Sociol 36, 167188.Google Scholar
Blosnich, JR, Dichter, ME, Cerulli, C et al. (2014) Disparities in adverse childhood experiences among individuals with a history of military service. JAMA Psychiatr 71, 10411048.CrossRefGoogle ScholarPubMed
Vogel, C, Lewis, D, Ntani, G et al. (2017) The relationship between dietary quality and the local food environment differs according to level of educational attainment: a cross-sectional study. PLoS One 12, e0183700.CrossRefGoogle ScholarPubMed
Chilton, MM, Rabinowich, JR & Woolf, NH (2014) Very low food security in the USA is linked with exposure to violence. Public Health Nutr 17, 7382.CrossRefGoogle ScholarPubMed
Montgomery, AE, Dichter, ME, Thomasson, AM et al. (2015) Demographic characteristics associated with homelessness and risk among female and male veterans accessing VHA outpatient care. Womens Health Issues Publ Jacobs Inst Womens Health 25, 4248.CrossRefGoogle ScholarPubMed
Ricks, JL, Cochran, SD, Arah, OA et al. (2016) Food insecurity and intimate partner violence against women: results from the California Women’s Health Survey. Public Health Nutr 19, 914923.CrossRefGoogle ScholarPubMed
Pavao, J, Turchik, JA, Hyun, JK et al. (2013) Military sexual trauma among homeless veterans. J Gen Intern Med 2, S536541.CrossRefGoogle Scholar
Brignone, E, Gundlapalli, AV, Blais, RK et al. (2016) Differential risk for homelessness among us male and female veterans with a positive screen for military sexual trauma. JAMA Psychiatr 73, 582589.CrossRefGoogle ScholarPubMed
Kimerling, R, Gima, K, Smith, MW et al. (2007) The veterans health administration and military sexual trauma. Am J Public Health 97, 21602166.CrossRefGoogle ScholarPubMed
Peterson, R, Gundlapalli, AV, Metraux, S et al. (2015) Identifying homelessness among veterans using VA administrative data: opportunities to expand detection criteria. PLoS One 10, e0132664.CrossRefGoogle ScholarPubMed
Cullen, D, Woodford, A & Fein, J (2019) Food for thought: a randomized trial of food insecurity screening in the emergency department. Acad Pediatr 19, 646651.CrossRefGoogle ScholarPubMed
Palakshappa, D, Goodpasture, M, Albertini, L et al. (2019) Written v. verbal food insecurity screening in one primary care clinic. Acad Pediatr 20, 203207.CrossRefGoogle Scholar
Gottlieb, L, Hessler, D, Long, D et al. (2014) A randomized trial on screening for social determinants of health: the iScreen study. Pediatrics 134, e16111618.CrossRefGoogle ScholarPubMed
US Department of Veteran Affairs (2014) Veterans access, choice and accountability act of (‘choice act’) fact sheet. https://www.va.gov/opa/choiceact/documents/choice-act-summary.pdf (accessed October 2021).Google Scholar
Figure 0

Table 1 Characteristics of US Veterans Health Administration patients screened using the food insecurity clinical reminder, overall and by gender: July 2017–December 2018

Figure 1

Table 2 Characteristics of Veterans screened using the food insecurity clinical reminder, by screening status: July 2017–December 2018

Figure 2

Table 3 Correlates of a positive food insecurity clinical reminder screen, by gender

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