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In this issue – Food insecurity

Published online by Cambridge University Press:  24 March 2022

Allison Hodge*
Affiliation:
Cancer Council Victoria, Victoria, Australia
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Abstract

Type
HOT TOPIC: Food Insecurity
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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.
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© The Author(s), 2022. Published by Cambridge University Press on behalf of The Nutrition Society

The second of the Sustainable Development Goals (SDG) is ‘End hunger, achieve food security and improved nutrition and promote sustainable agriculture’. Target 2.1.2 used to assess achievement of the goals is ‘By 2030, end hunger and ensure access by all people, in particular the poor and people in vulnerable situations, including infants, to safe, nutritious and sufficient food all year round’. The 2021 report on the status of the SDG notes that the current status of this goal is ‘very far from target’ and the trend is ‘deterioration’(1). The importance and prevalence of food insecurity globally is evidenced by the articles selected in this issue of Public Health Nutrition.

Of twenty-eight articles in this issue, fourteen addressed food security/insecurity in different contexts.

Among more than 3 million US Veterans who have been screened for food insecurity since 2017, 1·3 % of men and 2·0 % of women were food insecure. This was particularly associated with medical and trauma-related co-morbidities(Reference Cohen, Dosa and Rudolph2).

In Finland, food insecurity was assessed among 6435 private sector service workers recruited through their union. Sixty-five per cent of respondents were food insecure and 36 % severely so. Young age and difficulty covering household expenses were strong risk factors. Even in these employed people in a high-income country, food insecurity was a common occurrence(Reference Walsh, Nevalainen and Saari3).

In a study from Botswana, 180 people newly diagnosed with tuberculosis, about half of whom were HIV-positive, were studied, and food insecurity was found to be associated with increased risk of depression and anxiety irrespective of HIV status(Reference Wang, Dima and Ho-Foster4).

Using data from almost 3000 adolescents (aged 12–17 years), in low-income households from the National Health and Nutrition Examination Survey (2007–2016), household and individual food insecurities were studied in relation to cardiovascular risk factors. Overall, 33 % of the adolescents experienced household food insecurity and 17 % individual food insecurity using population weighting. In contrast with findings in adults, there was no association between food insecurity and risk factors (BMI, blood pressure, lipids and glucose) in this sample(Reference Fulay, Vercammen and Moran5).

Between 2013 and 2020, people in four African countries were surveyed to assess their level of food insecurity. Approximately half of the 3500 participants were food insecure according to their definition, and this did not vary by HIV status. Older age and more dependents were associated with more food insecurity, while better education and antiviral therapy in those living with HIV were associated with lower risk of food insecurity(Reference Onyenakie, Nnakwe and Dear6).

Four separate studies on food insecurity were conducted in Bage in Brazil during May–June 2020 during the COVID-19 pandemic. The prevalence of household food insecurity was 29 %, and it was associated with the occurrence of major depressive episodes (MDE) irrespective of the criteria used to define major depressive episodes based on data from the Patient Health Questionnaire(Reference Santos, Schafer and Meller7).

A study of health system members in Detroit, USA, found that geographic proximity to healthy grocery stores or access to a car was not associated with food insecurity, but some areas were at increased risk of food insecurity that had an overall prevalence of 31 %(Reference Santarossa, Hill and Sitarik8).

A more in-depth study of thirty people in Belize identified family composition, income, education and employment as factors that influenced individuals’ ability to afford and access food for themselves or their families. Transportation and distance to food sources also posed challenges to accessing suitable food(Reference Stevenson, Reznar and Onye9).

Another article describes a systematic review and meta-analysis looking at food insecurity in urban households in east African countries. Seventeen studies with data from eight countries were included with 61 % of households being food insecure, ranging from 36 % in Burundi to 91 % in Sudan. Limited education, female household head, larger family size and low wealth were associated with food insecurity(Reference Gebremichael, Beletew and Bimerew10).

In Iran, household food insecurity was assessed in 2500 women during the third trimester of pregnancy and infant anthropometric measures collected during the first 6 months of life. Over 30 % or participants experienced some degree of food insecurity and children born into these households were more likely to be stunted at birth, 4 months and 6 months(Reference Karbin, Khorramrouz and Farkhani11).

Data from the 2015 Canadian Community Health Survey-Nutrition was used to assess the association between food security and diet quality in children and adults. An important limitation is the use of a single 24-h recall to represent diet. Several variables were considered to represent diet quality, and the proportion of energy from ultra-processed foods was most strongly associated, with higher intake in the least food secure households across all ages(Reference Hutchinson and Tarasuk12).

It is understood that the COVID-19 pandemic increased food insecurity. This study in the USA interviewed people who were clients of a food pantry and enrolled in the Supplemental Nutrition Assistance Program before the pandemic using in-depth phone interviews to evaluate the impact of COVID-19 on food insecurity and associated outcomes. The study found that (i) the pandemic increased economic distress and (ii) the pandemic increased food needs, food prices and food shortages. In combination with economic stressors, this led to greater food insecurity; (iii) increased economic stress and food insecurity contributed to increased psychological stress, associated with fear of infection, isolation and children being confined at home(Reference Higashi, Sood and Conrado13). In a study from North Carolina, USA, food insecurity was associated with infant mortality rate at a county level(Reference Cassidy-Vu, Way and Spangler14).

The studies noted above have highlighted the prevalence of food insecurity, albeit assessed in different ways, some of the risk factors associated with it and some potential adverse consequences. The last study has attempted to assess the effects of the PROSPERA programme on food insecurity in Mexico between 2012 and 2016. PROSPERA was a conditional cash transfer programme that allocated cash, conditional on children being enrolled in school, towards achieving nutritional gains in beneficiary households, including eliminating acute child malnutrition and improving child weight and height indicators. The programme appears to have reduced food insecurity in recipient households, and similar programmes have been launched in many countries(Reference Saldivar-Frausto, Unar-Munguia and Mendez-Gomez-Humaran15). There are likely to be many ways to address food insecurity in the long and short term and many benefits. I look forward to reading more papers identifying and describing such successes.

References

FaAOotU Nations (2021) Tracking Progress on Food and Agriculture-Related SDG Indicators 2021. Food and Agriculture Orgainzation of the United Nations.Google Scholar
Cohen, AJ, Dosa, DM, Rudolph, JL et al. (2021) Risk factors for Veteran food insecurity: findings from a National US Department of Veterans Affairs Food Insecurity Screener. Public Health Nutr. Published online: 9 November 2021.CrossRefGoogle ScholarPubMed
Walsh, HM, Nevalainen, J, Saari, T et al. (2022) Food insecurity among Finnish private service sector workers: validity, prevalence and determinants. Public Health Nutr. Published online: 25 January 2022.CrossRefGoogle ScholarPubMed
Wang, Q, Dima, M, Ho-Foster, A et al. (2020) The association of household food insecurity and HIV infection with common mental disorders among newly diagnosed tuberculosis patients in Botswana. Public Health Nutr. Published online: 20 October 2020.CrossRefGoogle ScholarPubMed
Fulay, AP, Vercammen, KA, Moran, AJ et al. (2021) Household and child food insecurity and CVD risk factors in lower-income adolescents aged 12–17 years from the National Health and Nutrition Examination Survey (NHANES) 2007–2016. Public Health Nutr. Published online: 23 June 2021.CrossRefGoogle ScholarPubMed
Onyenakie, CC, Nnakwe, RU, Dear, N et al. (2021) Prevalence and predictors of food insecurity among people living with and without HIV in the African Cohort Study. Public Health Nutr. Published online: 24 August 2021.CrossRefGoogle ScholarPubMed
Santos, LP, Schafer, AA, Meller, FO et al. (2021) Association between food insecurity and major depressive episodes amid Covid-19 pandemic: results of four consecutive epidemiological surveys from southern Brazil. Public Health Nutr. Published online: 25 November 2021.CrossRefGoogle ScholarPubMed
Santarossa, S, Hill, AB, Sitarik, AR et al. (2021) Food insecurity in Detroit: exploring the relationship between patient-reported food insecurity and proximity to healthful grocery stores. Public Health Nutr. Published online: 31 July 2021.CrossRefGoogle ScholarPubMed
Stevenson, LD, Reznar, MM, Onye, E et al. (2021) A qualitative inquiry of food insecurity in Belize. Public Health Nutr. Published online: 12 June 2021.CrossRefGoogle ScholarPubMed
Gebremichael, B, Beletew, B, Bimerew, M et al. (2021) Magnitude of urban household food insecurity in East Africa: a systematic review and meta-analysis. Public Health Nutr. Published online: 17 August 2021.CrossRefGoogle ScholarPubMed
Karbin, K, Khorramrouz, F, Farkhani, EM et al. (2021) Household food insecurity during pregnancy as a predictor of anthropometric indices failures in infants aged less than 6 months: a retrospective longitudinal study. Public Health Nutr. Published online: 21 August 2021.CrossRefGoogle ScholarPubMed
Hutchinson, J & Tarasuk, V. (2021) The relationship between diet quality and the severity of household food insecurity in Canada. Public Health Nutr. 2021. Published online: 24 September 2021.CrossRefGoogle ScholarPubMed
Higashi, RT, Sood, A, Conrado, AB et al. (2021) Experiences of increased food insecurity, economic and psychological distress during the COVID-19 pandemic among Supplemental Nutrition Assistance Program-enrolled food pantry clients. Public Health Nutr. Published online: 12 July 2021.CrossRefGoogle ScholarPubMed
Cassidy-Vu, L, Way, V, & Spangler, J. (2022) The correlation between food insecurity and infant mortality in North Carolina. Public Health Nutr. Published online: 1 February 2022.Google ScholarPubMed
Saldivar-Frausto, M, Unar-Munguia, M, Mendez-Gomez-Humaran, I et al. (2021) Effect of a conditional cash transference program on food insecurity in Mexican households: 2012–2016. Public Health Nutr. Published online: 10 September 2021.CrossRefGoogle ScholarPubMed