Hostname: page-component-cd9895bd7-lnqnp Total loading time: 0 Render date: 2024-12-24T16:12:21.918Z Has data issue: false hasContentIssue false

Experiencing food insecurity in childhood: influences on eating habits and body weight in young adulthood

Published online by Cambridge University Press:  04 September 2023

Lise Dubois*
Affiliation:
School of Epidemiology and Public Health, University of Ottawa, 600 Peter Morand, Ottawa, ON K1G 5Z3, Canada
Brigitte Bédard
Affiliation:
School of Epidemiology and Public Health, University of Ottawa, 600 Peter Morand, Ottawa, ON K1G 5Z3, Canada
Danick Goulet
Affiliation:
School of Epidemiology and Public Health, University of Ottawa, 600 Peter Morand, Ottawa, ON K1G 5Z3, Canada
Denis Prud’homme
Affiliation:
Université de Moncton, Moncton, NB, Canada
Richard E Tremblay
Affiliation:
Research Unit on Children’s Psychosocial Maladjustment (GRIP), Université de Montréal, Montréal, QC, Canada UCD School of Public Health, Physiotherapy and Sports Science, University College Dublin, Dublin, Ireland
Michel Boivin
Affiliation:
École de Psychologie, Université Laval, Québec, QC, Canada
*
*Corresponding author: Email [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Objective:

To examine how food insecurity in childhood up to adolescence relates to eating habits and weight status in young adulthood.

Design:

A longitudinal study design was used to derive trajectories of household food insecurity from age 4·5 to 13 years. Multivariable linear and logistical regression analyses were performed to model associations between being at high risk of food insecurity from age 4·5 to 13 years and both dietary and weight outcomes at age 22 years.

Setting:

A birth cohort study conducted in the Province of Quebec, Canada.

Participants:

In total, 698 young adults participating in the Québec Longitudinal Study of Child Development.

Results:

After adjusting for sex, maternal education and immigrant status, household income and type of family, being at high risk (compared with low risk) of food insecurity in childhood up to adolescence was associated with consuming higher quantities of sugar-sweetened beverages (ßadj: 0·64; 95 % CI (0·27, 1·00)), non-whole-grain cereal products (ßadj: 0·32; 95 % CI (0·07, 0·56)) and processed meat (ßadj: 0·14; 95 % CI (0·02, 0·25)), with skipping breakfast (ORadj: 1·97; 95 % CI (1·08, 3·53)), with eating meals prepared out of home (ORadj: 3·38; 95 % CI (1·52, 9·02)), with experiencing food insecurity (ORadj: 3·03; 95 % CI (1·91, 4·76)) and with being obese (ORadj: 2·01; 95 % CI (1·12, 3·64)), once reaching young adulthood.

Conclusion:

Growing up in families experiencing food insecurity may negatively influence eating habits and weight status later in life. Our findings reinforce the importance of public health policies and programmes tackling poverty and food insecurity, particularly for families with young children.

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 (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of The Nutrition Society

Food security is a right for all individuals. The following definition should be kept in mind: ‘Food security exists when all people, at all times, have physical, social and economic access to sufficient, safe and nutritious food which meets their dietary needs and food preferences for an active and healthy life’(1). Even in affluent countries in North America, Europe and Oceania, this right has not been attained for all individuals, and food insecurity remains a prevalent and in many countries a worsening public health problem(Reference Tarasuk, Li and Fafard St-Germain2Reference McKay, Haines and Dunn4). For example, in the USA in 2021, the prevalence of household food insecurity reached 10·2 %. These estimates represent 24·6 million adults and 9·3 million children living in food-insecure households(Reference Coleman-Jensen, Rabbitt and Gregory5). For that same year in Canada, 15·9 % of households were affected by food insecurity to varying degrees(Reference Tarasuk, Li and Fafard St-Germain2). For Canadians under 18 years of age, this proportion reached 19·6 %(Reference Tarasuk, Li and Fafard St-Germain2). Children and adolescents are particularly vulnerable to the consequences of food insecurity because of their higher nutritional needs for growth and development(Reference Cook and Frank6). To some extent, young children may be protected from food scarcity by their parents(Reference Coleman-Jensen, Rabbitt and Gregory5). Nonetheless, all children are affected by the limited food availability within the household(Reference Fram, Ritchie and Rosen7). They are also likely to feel the stress associated with uncertain access to food for the whole family(Reference Fram, Ritchie and Rosen7). Among adults, food insecurity tends to affect women more than men(3). Emerging adults who are becoming financially independent are also recognised as a vulnerable group for food insecurity(Reference Larson, Laska and Neumark-Sztainer8).

Food insecurity is associated with poverty and social inequalities(3). Families who are socio-economically disadvantaged and have low purchasing power are susceptible to experiencing transient or prolonged episodes of food insecurity(Reference Ortiz-Marrón, Ortiz-Pinto and Urtasun Lanza9). In its most extreme form, food insecurity may translate into missing one or more daily meals, potentially leading to inadequate energy and nutrient intake(Reference Kirkpatrick and Tarasuk10,Reference Jun, Cowan and Dodd11) . However, even at a marginal or moderate level – that is, experiences ranging from being worried about running out of food to making compromises about the variety, quality or quantity of food consumed – food insecurity is associated with negative diet and health outcomes for individuals, regardless of age(Reference Cook and Frank6,Reference Larson, Laska and Neumark-Sztainer8,Reference Men and Tarasuk12Reference Te Vazquez, Feng and Orr14) .

To date, studies exploring food insecurity in relation to dietary or weight outcomes have been conducted using mostly a cross-sectional design(Reference Morales and Berkowitz15,Reference Hanson and Connor16) . In many of these studies, food insecurity has been associated with a lower consumption of nutrient-dense foods(Reference Larson, Laska and Neumark-Sztainer8,Reference Hanson and Connor16,Reference Johnson, Sharkey and Lackey17) and a higher consumption of energy-dense foods of lower nutritional value(Reference Larson, Laska and Neumark-Sztainer8,Reference Leung, Epel and Ritchie18) . Among children specifically, living in food-insecure households has been related to lower consumption of vegetables(Reference Fram, Ritchie and Rosen7,Reference Pilgrim, Barker and Jackson19,Reference Eicher-Miller and Zhao20) , higher consumption of processed foods rich in sugar, fat or Na and poor in dietary fibre(Reference Pilgrim, Barker and Jackson19Reference Au, Zhu and Nhan21) and higher propensity to skip breakfast(Reference Au, Zhu and Nhan21,Reference Widome, Neumark-Sztainer and Hannan22) , to eat more snacks(Reference Kral, Chittams and Moore23) and to eat food from fast-food restaurants(Reference Widome, Neumark-Sztainer and Hannan22). In relation to weight outcomes, food insecurity has been associated with obesity, mainly among adult women(Reference Frongillo and Bernal24,Reference Nettle, Andrews and Bateson25) .

From a life-course perspective, we may hypothesise that early exposure to food insecurity would have a cumulative effect on diet and body weight. Very few longitudinal studies have looked prospectively at the potential long-term influence of food insecurity, when experienced at a young age, on dietary habits or weight status later in life. One recent US population-based longitudinal study (n 1568) showed that 14-year-old adolescents (mean age) affected by food insecurity were more susceptible to experiencing food insecurity as young adults(Reference Larson, Laska and Neumark-Sztainer8). This study also reported an association between food insecurity and poorer dietary habits in young adulthood. The association, however, was not influenced by food security status in adolescence(Reference Larson, Laska and Neumark-Sztainer8). Another US longitudinal study (n 559) found that food insecurity at age 15 was related to a higher rate of BMI gain in the following 16 years(Reference Lohman, Neppl and Lee26). Analyses of sex differences indicated that the association between food insecurity and BMI trajectories over time applied only to women(Reference Lohman, Neppl and Lee26). Similarly, a recent longitudinal study of rural American children (n 341) reported that a higher gain in BMI from age 9 up to 24 years was predicted by an interaction between household food insufficiency and maternal perceived stress when the child was aged 9 years(Reference McClain, Evans and Dickin27).

Prospective studies for the period between adolescence and adulthood remain limited, and longitudinal studies on food insecurity encompassing the period of early childhood up to adulthood are lacking(Reference Morales and Berkowitz15,Reference Eicher-Miller and Zhao20) . Such studies with a long-term perspective are needed to inform public health policies and to design evidence-based dietary interventions among vulnerable populations affected by limited financial resources, particularly families with young children who are paving the way for future generations. Accordingly, our study aims to examine how food insecurity during childhood up to adolescence relates to dietary and body weight outcomes in young adulthood. We hypothesise that individuals who experienced food insecurity in their early years are, once they reach young adulthood, less likely to make healthy food choices and more likely to skip breakfast and eat evening snacks, to eat meals prepared out of home, to experience food insecurity and to be obese.

Methods

Study participants

Our study relies on data from the Québec Longitudinal Study of Child Development (QLSCD)(Reference Jetté and DesGroseillers28,Reference Orri, Boivin and Chen29) . This birth-cohort study was designed to investigate how various environmental factors affect children’s cognitive and psychosocial development and wellbeing. At its inception, the QLSCD recruited 2120 children born between October 1997 and July 1998 in the Province of Québec, Canada. To ensure a representation of all public health geographic areas in Québec, participants were randomly selected from the 1997–1998 Master birth register of the province. Children were excluded from the cohort if they were born before 24 or after 42 weeks of gestation, if they suffered from a severe illness or disability at birth, if they were born of a twin pregnancy and if their mother could not communicate in English or French. Participants were first seen when they were aged 5 months, then annually up to age 8, and every 2 years thereafter. After 20 years, 1245 participants (i.e. 58·7 % of the initial cohort) still participated in the 2019 data collection round. Over the years, a vast array of data was collected on multiple aspects of child development (e.g. perinatal information; health and lifestyle; physical, cognitive, and social development and familial and social environments), through interviews, questionnaires, observations and direct measurements. Details about the QLSCD, including data collected at different ages, attrition over the years and main findings, are provided in an earlier publication(Reference Orri, Boivin and Chen29).

Household food insecurity

When QLSCD participants were aged 4·5, 8, 10, 12 and 13 years, data collection procedures included four questions assessing if families had experienced some degree of food insecurity. These questions were part of a self-administered questionnaire to be answered by the participants’ mothers. Questions covered four dimensions of household food insecurity, namely food insufficiency over the last 12 months for a member of the household, and compromises on the variety (we eat the same thing several days in a row…), the quantity (we eat less than we should…) and the quality (we can’t provide balanced meals for our children…) of the food consumed in the household due to financial constraints. More details about these questions are available in the online supplementary material (see online Supplemental Table 1). At a given age (or data collection round), participants with a positive response to any of these four questions were considered to have experienced household food insecurity. These questions were used in earlier QLSCD studies to relate family food insecurity during preschool years to weight status(Reference Dubois, Farmer and Girard30,Reference Dubois, Francis and Burnier31) and mental health(Reference Melchior, Chastang and Falissard32) in childhood.

Dietary and weight outcomes

From March to June 2020, at a mean age (sd) of 22·20 (0·25) years, QLSCD participants were invited to answer an online questionnaire about their usual dietary habits, including the timing of their meals and snacks, the consumption of meals prepared out of home and their frequency of consumption of a list of sixty food items (with quantities, based on choices among three portion sizes). Dietary outcomes derived from this dietary study included skipping breakfast and regularly eating evening snacks, eating meals prepared outside the home (including meals from grocery stores, from all types of restaurants, from cafeterias and from vending machines) at least once a week, eating meals from fast-food restaurants at least once a week, and the relative quantities consumed of sixteen food groups (derived from the sixty food items). For each food item listed in the questionnaire, a relative quantity was determined by multiplying the frequency of consumption reported (converted/d) by a portion size factor (0·5, 1·0 or 1·5, for smaller, average and larger suggested portion sizes, respectively). Each food item was assigned to one of sixteen food groups. Relative quantities of individual food items assigned to a given food group were added up to obtain the relative quantity for that food group.

As part of the online dietary questionnaire, respondents were also asked to report their height and current weight. This information was used to derive two weight outcomes at age 22 years, i.e. the BMI (weight (kg)/height(m)2) and the obesity status (BMI ≥ 30·0; yes v. no)(33). Because self-reported weight and height are subject to misreporting (i.e. underreporting, for weight and overreporting, for height), the prevalence of obesity might be underestimated(Reference Shields, Gorber and Janssen34). To improve the accuracy of reported height and weight compared with measured data, anthropometric data have been corrected using equations derived from published Canadian data (comparing measured and self-reported data) for adults of various age-sex groups(Reference Shields, Gorber and Janssen34). For comparison, the present study presents findings from corrected and uncorrected BMI.

Right after the dietary study (in July and August 2020), all QLSCD participants were invited to take part in another study that investigated, among other issues, the question of food insecurity during the first months of the COVID pandemic. Food security status at age 22 years, obtained through this COVID study, was also included among the dietary outcomes of the present study. Three dimensions of the problem were assessed, including being worried about not having enough food, not having enough food and having to compromise on the quality or on the variety of the food consumed because of financial constraints. Participants who gave a positive answer to any of the three questions were considered to have experienced food insecurity during the first months of the pandemic.

Covariates

Because food insecurity and the outcomes investigated may be experienced differently by men and women(Reference Johnson, Sharkey and Lackey17), the sex of the participants was included as a covariate in the analyses. Food insecurity is also strongly associated with being socio-economically disadvantaged. To assess the independent effect of food insecurity, various socio-economic characteristics of the participants’ family at the beginning of the QLSCD were examined and considered as potential covariates (based on an earlier study with QLSCD children about family food insufficiency and overweight in preschool years(Reference Dubois, Farmer and Girard30)). Exploratory analyses of bivariate associations between these characteristics and predictor and outcome variables allowed identifying the following covariates to be included in subsequent multivariate analyses: maternal education and immigrant status, household income and type of family.

Statistical analyses

Supplemental Figure 1 presents a flow chart of QLSCD participants included in different analyses. To explore trajectories of change in food security status from the preschool years up to adolescence, we applied group-based modelling techniques to longitudinal data(Reference Nagin35). A total of 1961 QLSCD participants (93 % of the initial cohort) had information about household food security status at least once from age 4·5 to 13 years and were included in these analyses. The group-based trajectory modelling was performed using the ProcTraj procedure(Reference Jones, Nagin and Roeder36) in SAS (SAS Institute), version 9.4. Model selection was made in two steps. First, we determined the appropriate number of groups by fitting LOGIT models of 1 to 4 groups with second-order polynomials. We based our decision on the change in the Bayesian Information Criterion between models(Reference Jones, Nagin and Roeder36). Second, we determined the shape of each group’s trajectory by setting each group up to a third-order polynomial and removing orders without a significant effect. The final model gave a two-group solution comparing participants who, at a younger age, lived in families at high-risk (11 %) v. low-risk (89 %) of food insecurity (Fig. 1). These trajectories of household food insecurity were considered as a predictor in our subsequent analyses.

Fig. 1 Two group-model trajectories of household food insecurity from age 4·5 to 13 years for QLSCD participants (n 1961; probability averages per group). Food insecurity refers to four dimensions that affect access to food: variety (we eat the same thing several days in a row…), quantity (we eat less than we should…), quality (we can’t provide balanced meals for our children…) and food insufficiency (a member of the family has experienced at least once being hungry …). QLSCD, Québec Longitudinal Study of Child Development

Our study sample includes 698 QLSCD participants (33 % of the initial cohort) who took part in the dietary study at age 22 years and for whom information about household food insecurity was available at least once from age 4·5 to 13 years. Compared with the rest of the initial cohort, our study sample included a higher proportion of females and participants born in families with a higher socio-economic status (Table 1). No difference was detected between participants and non-participants regarding inclusion in high- or low-risk groups relative to food-insecurity trajectories. Anthropometric data were missing for two participants, and thus analyses regarding weight outcomes included 696 participants. Information on socio-economic covariates was missing for seven participants, yielding a sample size of 691 and 689 for covariate-adjusted models on dietary and anthropometric outcomes, respectively. Exceptionally, analyses of food insecurity at age 22 years included 1174 QLSCD participants (55 % of the initial cohort), for whom we had information on food security status both at age 22 years (i.e. they participated in the COVID study) and during childhood up to adolescence. These 1174 participants were also more likely to be women and individuals from higher socio-economic status families than the rest of the initial cohort (see online Supplemental Table 2).

Table 1 Characteristics of the children participating in the QLSCD birth cohort: comparison between participants included in the analyses* and the rest of the initial cohort

QLSCD, Québec Longitudinal Study of Child Development; CAD, Canadian dollar.

* Includes participants in the dietary study at age 22 years for whom we have information on food insecurity from age 4·5 to 13 years.

Information collected when children were aged 5 months.

Descriptive statistics include proportions, mean (sd) and median (IQR). χ 2 tests, one-way ANOVA and Wilcoxon rank sum tests were used to compare proportions, means of normally distributed variables and medians of non-normally distributed variables, respectively. Regression analyses were used to model associations between being at high risk of household food insecurity from age 4·5 to 13 years (compared with being at low-risk, i.e. the reference category) and both dietary and weight outcomes at age 22 years (linear regression for continuous outcomes, i.e. relative quantity of food and BMI; logistical regression for categorical outcomes, i.e. breakfast skipping, evening snacking, eating meals prepared out of home, experiencing food insecurity and obesity). Beta coefficients or OR with 95 % CI and p-values are presented for non-adjusted, sex-adjusted and fully adjusted models (i.e. additional adjustments for maternal education and immigrant status, household income and type of family at the beginning of the QLSCD study). Because we had a few missing values for covariates (≤ 0·015 %), complete case analyses were performed. In linear and logistical regression related to weight outcomes, stratified analyses according to sex were explored to assess a potential moderating effect of sex, as suggested in the scientific literature(Reference Frongillo and Bernal24,Reference Nettle, Andrews and Bateson25) . The statistical significance cut-off was set at 0·05. Except for group-based trajectory modelling, all statistical analyses were performed using RStudio(37) with R Statistical Software(38) version 4.2.0.

Results

As indicated in Table 2, male participants were slightly more than one-third of our sample. This proportion is similar across trajectories of food insecurity from childhood to adolescence. Differences were noted, however, for several other characteristics of the participants. Compared with participants at low-risk of food insecurity, those with a high-risk trajectory were more likely to live alone (20 % v. 6 %; P < 0·05), to have the lowest level of education (41 % v. 17 %; P < 0·05), to have a higher BMI (mean (sd): 27·7 (6·5) v. 25·6 (5·9); P = 0·004) and to be obese (32 % v. 16 %, P < 0·05) at age 22 years. Participants in the high-risk group for food insecurity in childhood up to adolescence were also more likely, as young adults, to have experienced food insecurity during the COVID pandemic (35 % v. 12 %; P < 0·001), to skip breakfast (30 % v. 19 %; P = 0·035), to consume evening snacks (68 % v. 55 %; P < 0·045), to eat at least once a week meals prepared outside the home (91 % v. 74 %; P = 0·002), namely from fast-food restaurants (64 % v. 50 %; P = 0·047), and to consume higher relative quantities of sugar-sweetened beverages (median (IQR): 0·86 (2·09) v. 0·46 (1·04); P < 0·001) and processed meat (0·46 (0·67) v. 0·28 (0·50); P = 0·002), and lower relative quantities of wholegrain cereal products (0·43 (1·28) v. 0·71 (1·07); P = 0·030), legumes, nuts and seeds (0·29 (0·57) v. 0·56 (0·93); P = 0·029) and alcohol (0·00 (0·28) v. 0·14 (0·49); P = 0·001).

Table 2 Comparisons between trajectories of household food insecurity from age 4·5 to 13 years for various characteristics of the participants at age 22 years*

* n 698 unless otherwise stated (high-risk trajectory, n 69); mean age (sd): 22·2 (0·25).

n 696 (high-risk trajectory, n 69); BMI was calculated as kg/m2 based on self-reported height and weight corrected(Reference Shields, Gorber and Janssen34).

n 1174 participants in a special study about COVID conducted in July and August 2020 (high-risk trajectory, n 120).

§ Relative quantity consumed/d.

|| Based on the following tests: χ 2 for proportions, one-way ANOVA for means and Wilcoxon rank sum test for medians.

Results of regression analyses for dietary outcomes are presented in Table 3. In multivariable models adjusted for sex, maternal education and immigrant status, household income and type of family, being on a high-risk trajectory of household food insecurity from childhood to adolescence, was associated with consuming higher quantities of sugar-sweetened beverages (ß adj: 0·64; 95 % CI (0·27, 1·00)), non-whole-grain cereal products (ß adj: 0·32; 95 % CI (0·07, 0·56)) and processed meat (ß adj: 0·14; 95 % CI (0·02, 0·25)), with skipping breakfast (ORadj: 1·97; 95 % CI (1·08, 3·53)), with eating meals prepared out of home at least once a week (ORadj: 3·38; 95 % CI (1·52, 9·02)) and with reporting continued food insecurity (ORadj: 3·03; 95 % CI (1·91, 4·76)) in young adulthood.

Table 3 Associations between being at high risk* of household food insecurity from age 4·5 to 13 years and dietary outcomes at age 22 years

* Based on two group-model trajectories (reference category: low-risk of household food insecurity).

n 698 unless otherwise stated (high-risk trajectory, n 69). For continuous variables, analyses based on linear regressions; for categorical variables, analyses based on logistical regressions.

n 1174 participants in a special study about COVID conducted in July and August 2020 (high-risk trajectory, n 120).

§ Analyses adjusted for sex, maternal education and immigrant status, household income and type of family when QLSCD participants were children (n 691).

Results of regression analyses for weight outcomes using corrected anthropometric data(Reference Shields, Gorber and Janssen34) are presented in Table 4. The positive association between a high-risk trajectory of food insecurity from 4·5 to 13 years and BMI at 22 years was detected in non-adjusted and sex-adjusted models but disappeared when adjusting for other covariates (ß adj: 1·30; 95 % CI (–0·23, 2·90)). However, the positive association appeared to be maintained for extreme (upper) values of BMI. Fully adjusted models indicated that participants who followed a high-risk trajectory of food insecurity across childhood and adolescence were twice as likely to be obese (ORadj: 2·01; 95 % CI (1·12, 3·64)) in young adulthood, compared with those at low risk of food insecurity. Stratified analysis according to sex (Table 4) indicates that the positive association detected between food insecurity and obesity is limited to female participants (ORadj: 2·93; 95 % CI (1·40, 5·98) v. in male participants, ORadj: 0·96; 95 % CI (0·28, 2·78)). Using uncorrected BMI gave similar results (see online Supplemental Table 3), although in analyses combining men and women, the positive association for obesity did not reach statistical significance when controlling for socio-economic characteristics.

Table 4 Associations between being at high risk* of household food insecurity from age 4·5 to 13 years and weight status at age 22 years

* Based on two group-model trajectories (reference category: low-risk of household food insecurity).

BMI was calculated as kg/m2 based on self-reported height and weight corrected(Reference Shields, Gorber and Janssen34).

n 696 unless otherwise stated (high-risk trajectory, n 69). Analyses are based on linear regressions for BMI and on logistical regressions for obesity.

§ Male n 242; female n 454.

|| Analyses adjusted for sex, maternal education and immigrant status, household income and type of family when QLSCD participants were children (n 689).

Discussion

The present study identified two trajectories of food insecurity from age 4·5 to 13 years among the participants of the QLSCD birth cohort. These trajectories defined groups at high v. low risk of food insecurity in the early years. As predicted, participants at increased risk of food insecurity in childhood up to adolescence later reported less healthy dietary habits in young adulthood, compared with participants in the low-risk group trajectory. Specifically, they were more likely to skip breakfast and to eat meals prepared out of the home. They also had higher intakes of sugar-sweetened beverages, refined cereal products and processed meat, all of which refer, for the most part, to processed foods that are energy dense, rich in sugar, fat or Na and poor in dietary fibre. Furthermore, these participants in the high-risk group trajectory appeared to be more vulnerable to experiencing food insecurity in young adulthood, at least in the context of the COVID pandemic. Obesity at age 22 years was also more prevalent among those at high risk of food insecurity in childhood up to adolescence, compared with others. However, this last association applied only to women. All these associations were independent of socio-economic characteristics such as maternal education and immigrant status, household income and type of family in early childhood.

Another longitudinal study reported that adolescents living in families affected by food insecurity were more susceptible to experiencing food insecurity once reaching young adulthood(Reference Larson, Laska and Neumark-Sztainer8). Based on food-insecurity trajectories that go back to early childhood, our observations support and extend these findings. Altogether, they suggest that experiencing food insecurity is not only a consequence of a myriad of factors but also becomes, by itself, a factor that may contribute to perpetuating the problem later in life. Although the association was independent of other socio-economic characteristics of the participants at a young age, we noted that young adults in the high-risk group for food insecurity in childhood up to adolescence were more likely to live alone and to have a lower educational attainment than others. Such characteristics may indicate precarious living conditions that might exacerbate the risk of food insecurity in young adulthood.

The results relative to other dietary outcomes confirm previous findings, for the most part from cross-sectional studies, supporting, to some extent, an inverse relationship between food insecurity and diet quality(Reference Morales and Berkowitz15Reference Leung, Epel and Ritchie18). We did not detect an independent association between food insecurity and a lower consumption of nutrient-dense foods (e.g. vegetables and fruit, wholegrain cereal products, poultry, fish/shellfish and eggs, dairy products and legumes, nuts and seeds). However, young adults who were at high-risk of food insecurity in their early years had, compared with others, a higher consumption of energy-dense foods of lower nutritional value (e.g. sugar-sweetened beverages, refined cereal products and deli meat, pizza and fried food). Processed foods rich in fat, Na and sugar are known to be largely available and less expensive, on a per-calorie basis(Reference Seligman and Schillinger39). Because food prices are among important determinants of dietary choices, these energy-dense foods may become an attractive choice for meeting energy needs of families with limited financial resources(Reference Seligman and Schillinger39,Reference Dachner, Ricciuto and Kirkpatrick40) . Highly palatable foods are also suspected to have addictive properties(Reference Gearhardt, Davis and Kuschner41). It has been suggested that their consumption may help relieve, at least temporarily, the psychological stress associated with food insecurity(Reference Laraia, Vinikoor-Imler and Siega-Riz42). Children growing up in food-insecure households where these food choices may have been more readily available are likely to develop a preference for palatable foods and to maintain their consumption over time. This could explain, to some extent, our finding of an independent association between trajectories of food insecurity in childhood up to adolescence and consumption of energy-dense food later in young adulthood.

We found that young adults with a high-risk trajectory of food insecurity were more likely to adopt eating habits such as skipping breakfast and consuming food prepared outside of the home. In other studies, a lower frequency of breakfast consumption has already been noted among children, adolescents and young adults living in food-insecure households compared with those living in food-secure households(Reference Larson, Laska and Neumark-Sztainer8,Reference Au, Zhu and Nhan21,Reference Widome, Neumark-Sztainer and Hannan22) . Similarly, a recent cross-sectional study conducted among Canadian young adults reported that women from food-insecure households had a lower proportion of meals prepared at home over a 7-d period compared with other women(Reference Pepetone, Vanderlee and White43). It was suggested that the familial context related to food insecurity, namely potential time constraints related to precarious employment, may contribute, in some instances, to relying on ready-to-eat food instead of cooking meals at home(Reference Pepetone, Vanderlee and White43). In our study, evening snacking and eating meals from fast-food restaurants were also associated with food-insecurity trajectories in unadjusted and sex-adjusted models. However, these associations disappeared when adjusting for socio-economic characteristics, suggesting that the relationship was dependent on the socio-economic conditions that often co-occur with food insecurity.

Longitudinal studies investigating long-term associations between food insecurity and similar dietary outcomes are limited. As part of a recent population-based, longitudinal study conducted in the USA, cross-sectional analyses adjusted for various socio-economic characteristics indicated positive associations between food insecurity and both skipping breakfast (at least twice a week) and frequently eating fast food (at least 3 times a week) among young adults(Reference Larson, Laska and Neumark-Sztainer8). Participants experiencing food insecurity in young adulthood also ate meals prepared at home less frequently, had lower intakes of nutrient-dense foods (e.g. vegetables, fruit and wholegrain cereal products) and had higher intakes of sugar-sweetened beverages, added sugar and saturated fat, compared with others(Reference Larson, Laska and Neumark-Sztainer8). However, when considering food-security status in adolescence in their models, the authors concluded that they could not find evidence for the impact of food-security status earlier in life on various high-risk health behaviours (including diet-related outcomes) in emerging adulthood(Reference Larson, Laska and Neumark-Sztainer8). Our study used a different approach to look at longitudinal association, which makes comparisons difficult. We also used a larger definition (i.e. including moderate dimensions of food insecurity) and a different time frame for the assessment of food-security status in early years (i.e. a trajectory based on multiple points from childhood to adolescence compared with a single point in adolescence). More long-term longitudinal studies are warranted to better understand how food insecurity experienced early in life influences various aspects of dietary habits later in life.

Our findings related to weight outcomes add to the evidence that food insecurity is associated with obesity mainly among women(Reference Frongillo and Bernal24,Reference Nettle, Andrews and Bateson25) . Although obesity is a multifactorial chronic health problem, one potential mechanism for weight gain in the context of food insecurity comes down to a low-quality diet in a stressful environment, which translates into a high consumption of hyperpalatable foods leading to overconsumption of energy and increased visceral adiposity(Reference Adam and Epel44,Reference Razzoli, Pearson and Crow45) . In food-insecure households, fluctuations between periods of food scarcity and food availability may also favour the development of eating behaviours such as overeating, which contribute to increased energy intakes(Reference Stinson, Votruba and Venti46). Interestingly, in an earlier QLSCD study conducted during the preschool years, we had reported an association between family food insufficiency and a higher risk of overweight and obesity(Reference Dubois, Farmer and Girard30). At the time, there was no difference detected between boys and girls in multivariate analyses(Reference Dubois, Farmer and Girard30). However, it has been suggested that these sex differences begin to be noticeable later in childhood(Reference Nettle, Andrews and Bateson25). More research is needed to better understand why the association between food insecurity and weight status would differ across sex. Nevertheless, men and women might perceive and experience differently the stressful conditions associated with food insecurity, which may contribute to gender-based differences(Reference Au, Zhu and Nhan21).

To our knowledge, this is the first study to explore the long-term association between food insecurity and dietary habits, spanning from early childhood up to adulthood. Food insecurity has been assessed at multiple ages in the QLSCD, which allowed us to determine trajectories over time. However, our trajectories did not allow accounting for more nuanced degrees of food insecurity, nor for transient v. persistent food-security problems. Also, our results may not be generalisable to the Quebec (or Canadian) population as a whole, as our study sample underrepresented people in socio-economically disadvantaged groups, as well as men. Stratified complementary analyses according to sex did allow, however, to explore sex differences. It also must be recognised that self-reporting methods for dietary assessment and anthropometric measurements are prone to misreporting errors(Reference Shields, Gorber and Janssen34,Reference Thompson, Kirkpatrick and Subar47) . For example, BMI tends to be underestimated when using self-reported height and weight(Reference Shields, Gorber and Janssen34). We applied validated correction equations to our self-reported data to better approximate BMI based on measured values(Reference Shields, Gorber and Janssen34). In this case, results obtained from analyses using corrected and uncorrected anthropometric data led to similar findings.

Although our analyses included adjustments for important characteristics of the participants’ familial contexts, other perinatal factors (e.g. birth weight) and familial factors (e.g. maternal distress when the child was younger, parent’s weight status) were not accounted for, which may contribute to residual confounding. We chose to limit the number of covariates (i.e. sex and socio-economic characteristics) as a compromise to preserve the statistical power of the study. Still, our analyses would deserve to be replicated with a larger sample size, as the numbers for our high-risk group for food insecurity remain relatively small.

In conclusion, our study suggests that growing up in families experiencing food insecurity may have long-lasting effects on eating habits and weight status. Additional research is needed to deepen our understanding of the cumulative effects and underlying mechanisms by which food insecurity contributes to dietary and weight outcomes in the long term. Meanwhile, our findings reinforce the importance of protecting young families affected by food insecurity, with interventions tailored to their needs, as part of strategies aiming to promote healthy eating and healthy weight. Most of all, comprehensive policies and programmes addressing economic issues related to poverty are crucial to ensure food security for all.

Acknowledgements

We are grateful to the QLSCD participants and their families who took part in the various data collection rounds over the years. The Québec Longitudinal Study of Child Development was supported by funding from departments and agencies of the Government of Québec (including the Ministère de la Santé et des Services Sociaux, Ministère de la Famille, the Ministère de l’Éducation and Ministère de l’Enseignement Supérieur, the Ministère du Travail, de l’Emploi et de la Solidarité Sociale and the Institut de la Statistique du Québec), the Lucie and André Chagnon Foundation, the Institut de Recherche Robert-Sauvé en Santé et en Sécurité du Travail and the Research Centre of the Sainte-Justine University Hospital.

Financial support

This work was supported by the Canadian Institutes of Health Research (CIHR) (LD, grant number 165964). CIHR had no role in the design, analysis or writing of this article.

Conflict of interest

There are no conflicts of interest.

Authorship

L.D., B.B. and D.G. designed the current study. B.B. and L.D. wrote the manuscript. D.G. was responsible for all statistical analyses. M.B., R.E.T., D.P. and L.D. contributed to the funding acquisition, methodology and data collection of the dietary study and/or previous QLSCD rounds. All authors contributed to results interpretation, made critical revisions to the text and approved the manuscript submitted for publication.

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 research ethics committee at the Institut de la Statistique du Québec. The special dietary study conducted when QLSCD participants were aged 22 years was also approved by the ethics committee of the University of Ottawa. Written informed consent was obtained from all participants and/or, before age 18 years, from their parents.

Supplementary material

For supplementary material accompanying this paper visit https://doi.org/10.1017/S1368980023001854

References

Food and Agriculture Organization of the United Nations (2003) Trade Reforms and Food Security: Conceptualizing the Linkages. Rome: FAO; available at https://www.fao.org/3/y4671e/y4671e06.htm#bm06 (accessed February 2023).Google Scholar
Tarasuk, V, Li, T & Fafard St-Germain, AA (2022) Household Food Insecurity in Canada, 2021. Toronto: Research to Identify Policy Options to Reduce Food Insecurity (PROOF); available at https://proof.utoronto.ca/ (accessed February 2023).Google Scholar
Food and Agriculture Organization of the United Nations (FAO), the International Fund for Agricultural Development (IFAD), the United Nations Children’s Fund (UNICEF) et al. (2019) The State of Food Insecurity in the World. Safeguarding Against Economic Slowdowns and Downturns. Rome: FAO; available at https://www.wfp.org/publications/2019-state-food-security-and-nutrition-world-sofi-safeguarding-against-economic (accessed July 2023).Google Scholar
McKay, FH, Haines, BC & Dunn, M (2019) Measuring and understanding food insecurity in Australia: a systematic review. Int J Environ Res Public Health 16, 476.CrossRefGoogle ScholarPubMed
Coleman-Jensen, A, Rabbitt, MP, Gregory, CA et al. (2022) Household Food Security in the United States in 2021. USDA: Economic Research Service; available at https://www.ers.usda.gov/webdocs/publications/104656/err-309.pdf (accessed July 2023).Google Scholar
Cook, JT & Frank, DA (2008) Food security, poverty, and human development in the United States. Ann N Y Acad Sci 1136, 193209.CrossRefGoogle ScholarPubMed
Fram, MS, Ritchie, LD, Rosen, N et al. (2015) Child experience of food insecurity is associated with child diet and physical activity. J Nutr 145, 499504.CrossRefGoogle ScholarPubMed
Larson, N, Laska, MN & Neumark-Sztainer, D (2020) Food insecurity, diet quality, home food availability, and health risk behaviors among emerging adults: findings from the EAT 2010–2018 study. Am J Public Health 110, 14221428.CrossRefGoogle ScholarPubMed
Ortiz-Marrón, H, Ortiz-Pinto, MA, Urtasun Lanza, M et al. (2022) Household food insecurity and its association with overweight and obesity in children aged 2 to 14 years. BMC Public Health 22, 1930.CrossRefGoogle ScholarPubMed
Kirkpatrick, SI & Tarasuk, V (2008) Food insecurity is associated with nutrient inadequacies among Canadian adults and adolescents. J Nutr 138, 604612.CrossRefGoogle ScholarPubMed
Jun, S, Cowan, AE, Dodd, KW et al. (2021) Association of food insecurity with dietary intakes and nutritional biomarkers among US children, National Health and Nutrition Examination Survey (NHANES) 2011–2016. Am J Clin Nutr 114, 10591069.CrossRefGoogle ScholarPubMed
Men, F & Tarasuk, V (2022) Classification differences in food insecurity measures between the United States and Canada: practical implications for trend monitoring and health research. J Nutr 152, 10821090.CrossRefGoogle ScholarPubMed
Cook, JT, Black, M, Chilton, M et al. (2013) Are food insecurity’s health impacts underestimated in the U.S. population? Marginal food security also predicts adverse health outcomes in young U.S. children and mothers. Adv Nutr 4, 5161.CrossRefGoogle ScholarPubMed
Te Vazquez, J, Feng, SN, Orr, CJ et al. (2021) Food insecurity and cardiometabolic conditions: a review of recent research. Curr Nutr Rep 10, 243254.CrossRefGoogle ScholarPubMed
Morales, ME & Berkowitz, SA (2016) The relationship between food insecurity, dietary patterns, and obesity. Curr Nutr Rep 5, 5460.CrossRefGoogle ScholarPubMed
Hanson, KL & Connor, LM (2014) Food insecurity and dietary quality in US adults and children: a systematic review. Am J Clin Nutr 100, 684692.CrossRefGoogle ScholarPubMed
Johnson, CM, Sharkey, JR, Lackey, MJ et al. (2018) Relationship of food insecurity to women’s dietary outcomes: a systematic review. Nutr Rev 76, 910928.Google ScholarPubMed
Leung, CW, Epel, ES, Ritchie, LD et al. (2014) Food insecurity is inversely associated with diet quality of lower-income adults. J Acad Nutr Diet 114, 19431953.CrossRefGoogle ScholarPubMed
Pilgrim, A, Barker, M, Jackson, A et al. (2012) Does living in a food insecure household impact on the diets and body composition of young children? Findings from the Southampton women’s survey. J Epidemiol Community Health 66, e6.CrossRefGoogle Scholar
Eicher-Miller, HA & Zhao, Y (2018) Evidence for the age-specific relationship of food insecurity and key dietary outcomes among US children and adolescents. Nutr Res Rev 31, 98113.CrossRefGoogle ScholarPubMed
Au, LE, Zhu, SM, Nhan, LA et al. (2019) Household food insecurity is associated with higher adiposity among US schoolchildren ages 10–15 years: the healthy communities study. J Nutr 149, 16421650.CrossRefGoogle ScholarPubMed
Widome, R, Neumark-Sztainer, D, Hannan, PJ et al. (2009) Eating when there is not enough to eat: eating behaviors and perceptions of food among food-insecure youths. Am J Public Health 99, 822828.CrossRefGoogle Scholar
Kral, TVE, Chittams, J & Moore, RH (2017) Relationship between food insecurity, child weight status, and parent-reported child eating and snacking behaviors. J Spec Pediatr Nurs 22, 10.CrossRefGoogle ScholarPubMed
Frongillo, EA & Bernal, J (2014) Understanding the coexistence of food insecurity and obesity. Curr Pediatr Rep 2, 284290.CrossRefGoogle Scholar
Nettle, D, Andrews, C & Bateson, M (2017) Food insecurity as a driver of obesity in humans: the insurance hypothesis. Behav Brain Sci 40, e105.CrossRefGoogle ScholarPubMed
Lohman, BJ, Neppl, TK, Lee, Y et al. (2018) The association between household food insecurity and body mass index: a prospective growth curve analysis. J Pediatr 202, 115120.CrossRefGoogle ScholarPubMed
McClain, AC, Evans, GW & Dickin, KL (2021) Maternal stress moderates the relationship of food insufficiency with body mass index trajectories from childhood to early adulthood among U.S. rural youth. Child Obes 17, 263271.CrossRefGoogle ScholarPubMed
Jetté, M & DesGroseillers, L (2000) Survey description and methodology. In Québec Longitudinal Study of Child Development (QLSCD 1998–2002), Vol. 1, no. 1, pp. 1740. Québec: Institut de la statistique du Québec.Google Scholar
Orri, M, Boivin, M, Chen, C et al. (2021) Cohort profile: Quebec longitudinal study of child development (QLSCD). Soc Psychiatry Psychiatr Epidemiol 56, 883894.CrossRefGoogle ScholarPubMed
Dubois, L, Farmer, A, Girard, M et al. (2006) Family food insufficiency is related to overweight among preschoolers. Soc Sci Med 63, 15031516.CrossRefGoogle ScholarPubMed
Dubois, L, Francis, D, Burnier, D et al. (2011) Household food insecurity and childhood overweight in Jamaica and Québec: a gender-based analysis. BMC Public Health 11, 199.CrossRefGoogle ScholarPubMed
Melchior, M, Chastang, JF, Falissard, B et al. (2012) Food insecurity and children’s mental health: a prospective birth cohort study. PLOS ONE 7, e52615.CrossRefGoogle ScholarPubMed
World Health Organization (2000) Obesity: Preventing and Managing the Global Epidemic. Report of a WHO Consultation. WHO Technical Report Series no. 894. Geneva: WHO.Google Scholar
Shields, M, Gorber, SC, Janssen, I et al. (2011) Bias in self-reported estimates of obesity in Canadian health surveys: an update on correction equations for adults. Health Rep 22, 3545.Google ScholarPubMed
Nagin, DS (2014) Group-based trajectory modeling: an overview. Ann Nutr Metab 65, 205210.CrossRefGoogle ScholarPubMed
Jones, BL, Nagin, DS & Roeder, K (2001) A SAS procedure based on mixture models for estimating developmental trajectories. Sociol Methods Res 29, 374–93.CrossRefGoogle Scholar
RStudio Team (2022) RStudio: Integrated Development Environment for R. Boston, MA: RStudio, Inc; available at http://www.rstudio.com/ (accessed February 2023).Google Scholar
R Core Team (2021) R: A Language and Environment for Statistical Computing. Vienna: R Foundation for Statistical Computing; available at https://www.R-project.org/ (accessed February 2023).Google Scholar
Seligman, HK & Schillinger, D (2010) Hunger and socioeconomic disparities in chronic disease. N Engl J Med 363, 69.CrossRefGoogle ScholarPubMed
Dachner, N, Ricciuto, L, Kirkpatrick, SI et al. (2010) Food purchasing and food insecurity among low-income families in Toronto. Can J Diet Pract Res 71, e50e56.Google ScholarPubMed
Gearhardt, AN, Davis, C, Kuschner, R et al. (2011) The addiction potential of hyperpalatable foods. Curr Drug Abuse Rev 4, 140145.CrossRefGoogle ScholarPubMed
Laraia, B, Vinikoor-Imler, LC & Siega-Riz, AM (2015) Food insecurity during pregnancy leads to stress, disordered eating, and greater postpartum weight among overweight women. Obesity 23, 13031311.CrossRefGoogle ScholarPubMed
Pepetone, A, Vanderlee, L, White, CM et al. (2021) Food insecurity, food skills, health literacy and food preparation activities among young Canadian adults: a cross-sectional analysis. Public Health Nutr 24, 23772387.CrossRefGoogle ScholarPubMed
Adam, TC & Epel, ES (2007) Stress, eating and the reward system. Physiol Behav 91, 449458.CrossRefGoogle ScholarPubMed
Razzoli, M, Pearson, C, Crow, S et al. (2017) Stress, overeating, and obesity: insights from human studies and preclinical models. Neurosci Biobehav Rev 76, 154162.CrossRefGoogle Scholar
Stinson, EJ, Votruba, SB, Venti, C et al. (2018) Food insecurity is associated with maladaptive eating behaviors and objectively measured overeating. Obesity 26, 18411848.CrossRefGoogle ScholarPubMed
Thompson, FE, Kirkpatrick, SI, Subar, AF et al. (2015) The National Cancer Institute’s dietary assessment primer: a resource for diet research. J Acad Nutr Diet 115, 19861995.CrossRefGoogle ScholarPubMed
Figure 0

Fig. 1 Two group-model trajectories of household food insecurity from age 4·5 to 13 years for QLSCD participants (n 1961; probability averages per group). Food insecurity refers to four dimensions that affect access to food: variety (we eat the same thing several days in a row…), quantity (we eat less than we should…), quality (we can’t provide balanced meals for our children…) and food insufficiency (a member of the family has experienced at least once being hungry …). QLSCD, Québec Longitudinal Study of Child Development

Figure 1

Table 1 Characteristics of the children participating in the QLSCD birth cohort: comparison between participants included in the analyses* and the rest of the initial cohort

Figure 2

Table 2 Comparisons between trajectories of household food insecurity from age 4·5 to 13 years for various characteristics of the participants at age 22 years*

Figure 3

Table 3 Associations between being at high risk* of household food insecurity from age 4·5 to 13 years and dietary outcomes at age 22 years

Figure 4

Table 4 Associations between being at high risk* of household food insecurity from age 4·5 to 13 years and weight status at age 22 years

Supplementary material: File

Dubois et al. supplementary material

Dubois et al. supplementary material

Download Dubois et al. supplementary material(File)
File 73 KB