Article Text

Association of food insecurity with the use of tobacco products and urine cotinine-measured smoking intensity: evidence from a population-based study in South Korea, 2019–2021
  1. Seong-Uk Baek1,
  2. Yu-Min Lee2,3,
  3. Jong-Uk Won2,3,
  4. Jin-Ha Yoon3,4
  1. 1Graduate School, Yonsei University College of Medicine, Seodaemun-gu, Seoul, Korea (the Republic of)
  2. 2Department of Occupational and Environmental Medicine, Yonsei University College of Medicine, Seodaemun-gu, Seoul, Korea (the Republic of)
  3. 3The Institute for Occupational Health, Yonsei University College of Medicine, Seodaemun-gu, Seoul, Korea (the Republic of)
  4. 4Department of Preventive Medicine, Yonsei University College of Medicine, Seodaemun-gu, Seoul, Korea (the Republic of)
  1. Correspondence to Professor Jin-Ha Yoon; flyinyou{at}yuh.ac

Abstract

Introduction This study explored the association between food insecurity and tobacco product use and urine cotinine-measured smoking intensity.

Methods This cross-sectional study included 13 705 adults representative of the Korean population. The 18-item Household Food Security Survey Module was administered to the primary food managers in households with the scores applied to household members. The use of three tobacco products—combustible cigarettes, heated tobacco products and electronic cigarettes (e-cigarettes)—was assessed. Based on the urine cotinine level, the smoking status of each participant was classified into one of three groups: non-smoker, low-intensity smoker and high-intensity smoker. Logistic regression analysis was used to determine the association between food insecurity and tobacco product use and urine cotinine-measured smoking intensity. ORs and 95% CIs were estimated.

Results Among the survey participants, 3.2% had mild food insecurity and 0.7% had moderate-to-severe food insecurity. Those with mild food insecurity (23.5%, OR: 1.38, 95% CI: 1.01 to 1.89) and those with moderate-to-severe food insecurity (45.1%, OR: 3.36, 95% CI: 1.87 to 6.03) compared with those with non-food insecurity (18.4%) were positively associated with combustible cigarette use. Those with moderate-to-severe food insecurity was positively associated with e-cigarette use (5.5%, OR: 3.49, 95% CI: 1.31 to 9.28). Compared with those with non-food security (7.9%), those with mild food insecurity (14.3%, OR: 1.61, 95% CI: 1.09 to 2.38) and moderate-to-severe food insecurity (22.1%, OR: 2.25, 95% CI: 1.04 to 4.86) were associated with high-intensity smoking.

Conclusion Food insecurity is associated with both combustible and e-cigarette use. Those with food insecurity are associated with engagement in high-intensity smoking.

  • Nicotine
  • Human rights
  • Socioeconomic status
  • Cotinine
  • Addiction

Data availability statement

Data are available in a public, open access repository. Raw data from the Korea National Health and Nutrition Examination Survey are available at https://knhanes.kdca.go.kr/knhanes/eng/index.do.

This is an open access article distributed in accordance with the Creative Commons Attribution Non Commercial (CC BY-NC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited, appropriate credit is given, any changes made indicated, and the use is non-commercial. See: http://creativecommons.org/licenses/by-nc/4.0/.

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WHAT IS ALREADY KNOWN ON THIS TOPIC

  • Food insecurity refers to the restricted access to safe and nutritious food that meets their dietary requirements. While past research has indicated its association with cardiovascular and overall mortality, its associations with tobacco use and smoking intensity remain understudied in the current literature. Additionally, studies using an objective biomarker for nicotine are scarce in survey research.

WHAT THIS STUDY ADDS

  • This study revealed that food insecurity is linked to higher odds of both combustible and electronic cigarette use. Moreover, increased levels of food insecurity were associated with a greater likelihood of engaging in high-intensity smoking intensity.

HOW THIS STUDY MIGHT AFFECT RESEARCH, PRACTICE OR POLICY

  • Through the measurement of urine cotinine levels, we not only validated the association between food insecurity and smoking risk as reported in existing literature but also provided novel insights into the correlation with smoking intensity. Our findings underscore the importance of implementing comprehensive intervention programmes aimed at reducing tobacco product use among populations experiencing food insecurity.

Introduction

Food insecurity has emerged as a global public health concern.1 According to a report by the Food and Agriculture Organization of the United Nations, approximately 9.2% of the global population were undernourished in 2022.2 The recent COVID-19 pandemic has substantially affected the global food chain and economic stability, primarily exacerbating food insecurity among vulnerable populations with low socioeconomic status.3 While the impact of COVID-19 was limited and food security remained stable in Korea,2 it is estimated that approximately 3.8–4.3% of the population experiences food insecurity.4

Studies have shown that food insecurity is associated with adverse health consequences. Individuals who experience food insecurity exhibit an increased risk of cardiovascular disease and overall mortality.5 6 Considering that tobacco product use is a major contributor to the onset of noncommunicable diseases understanding the association between food insecurity and tobacco product use is important to effectively address health disparities related to food security.7

Several studies have found that food insecurity is a risk factor for smoking. Individuals with lower socioeconomic status characterised by factors like low educational attainment and income level experience disproportionately higher rates of both food insecurity and tobacco product use.7 Longitudinal studies in the USA showed that food insecurity is associated with increased odds of smoking.8 9 Recent cross-sectional studies have demonstrated that individuals who experience food insecurity are more likely to be current smokers.10–13 The association between food insecurity and high risk of smoking is believed to involve complex mechanisms. Experiencing food insecurity may increase anxiety and stress,14 leading individuals to rely on smoking as a coping strategy to alleviate negative emotions.7 Along with the psychological mechanism, studies have suggested that nicotine has appetite-suppressing effects.15 16 Therefore, individuals experiencing severe food insecurity, particularly those who suffer from hunger, may depend on tobacco products to mitigate their appetite and hunger.17 Additionally, the association between food insecurity and tobacco use can be bidirectional. Previous studies showed that expenditure on smoking can exacerbate food insecurity by diverting limited financial resources.18–21

Although several studies have explored the link between food insecurity and tobacco use, the existing literature has several limitations. First, most studies have focused on combustible cigarette use, whereas the consumption of heated tobacco products and electronic cigarettes (e-cigarettes) has received limited academic attention.21 Second, most studies have relied on self-reported questionnaires to assess smoking status with objective measures such as serum or urine cotinine rarely being used.22 Urine cotinine which serves as a biomarker for nicotine exposure can effectively identify individuals who may be reluctant to self-report smoking in surveys.23 Moreover, the urine cotinine level can provide information on smoking intensity.24 Third, most of the existing evidence originates from Western countries with few studies investigating the relationship between food insecurity and tobacco use in Korea or other East Asian regions. Consequently, this study aimed to explore the association of food insecurity with tobacco product use and smoking intensity as measured through the urine cotinine level using data from a nationally representative sample of Korean adults.

Methods

Study sample

Survey participants included in the eighth wave of the Korea National Health and Nutrition Examination Survey (KNHANES) which was conducted between 2019 and 2021 were selected as the study sample for our analysis.25 In the initial year of the eighth wave of the KNHANES (2019), a survey questionnaire on the use of various types of tobacco products (combustible cigarettes, heated tobacco products and e-cigarettes) was introduced. The KNHANES is an annual nationwide survey conducted by the Korea Disease Control and Prevention Agency with the goal of gaining information on the health status of the general Korean population. To include a nationally representative sample of the Korean population, the KNHANES employs a stratified multistage cluster sampling design.25 Annually, 192 enumeration districts in South Korea are selected as the primary sampling units and approximately 20 households in each district are invited to participate in the KNHANES. While all household members were invited to participate in the survey, 74% agreed to participate in the eighth wave of the KNHANES.26 To mitigate non-response bias and improve the generalisability of the survey sample, survey weights were assigned to survey participants reflecting the sex, age and regional distribution of the Korean population.27 Raw data from the KNHANES are available at https://knhanes.kdca.go.kr/knhanes/eng/index.do.

The selection process for the survey sample is shown in figure 1. Initially, 14 766 survey participants who were aged≥19 and participants in the nutritional survey were included. In South Korea, the age of 19 is the legal threshold for adulthood and the minimum legal age for smoking. This criterion was also applied in the data collection process of the KNHANES survey. Subsequently, 1061 individuals with missing information regarding their sociodemographic characteristics and tobacco product use were excluded. Thus, 13 705 survey participants were included in the descriptive analyses and regression analysis of the association between food insecurity and the use of tobacco products. In the next step, an additional 925 individuals with missing information on urine cotinine or urine creatinine levels were excluded. Consequently, 12 780 individuals were included in the analysis of the association between food insecurity and urine cotinine-measured smoking status.

Figure 1

Selection process of study sample. KNHANES, Korea National Health and Nutrition Examination Survey.

Variables

Food insecurity

Food insecurity was evaluated using the 18-item US Household Food Security Survey Module (HFSSM) which was adapted into the Korean version by Kim et al.28 In line with the original US version, the Korean version of the HFSSM consists of 18 items that evaluate food insecurity based on the following three main domains: household-specific questions (three items), adult-specific questions (seven items) and child-specific questions (eight items). Each survey item assessed the difficulties experienced in acquiring or consuming food over the past 12 months scored on a scale of 0 or 1. The food insecurity survey questionnaire was answered by one household member who is primarily in charge of managing and purchasing food and the responses were applied to all individual household members. Only individuals with children in the household responded to child-specific questions, whereas those without children answered household-specific and adult-specific questions. The detailed questionnaires in the Korean version of the 18-item HFSSM have been elaborated on in previous literature.28 29 Therefore, individuals with children in the household had scores ranging from 0 to 18, whereas those without children or those in single-person households had scores ranging from 0 to 10. A higher score indicated greater food insecurity. The validity and reliability of the Korean version of the 18-item HFSSM have been established in previous studies.28 29 Based on the analysis guide provided in the previous literature,26 29 30 we categorised food insecurity according to the following criteria: (1) non-food insecurity: a score within the range of 0–2 for households with or without children; (2) mild food insecurity: a score within the range of 3–7 for households with children and 3–5 for households without children; and (3) moderate-to-severe food insecurity: a score within the range of 8–18 for households with children and 6–10 for households without children. Participants experiencing moderate or severe food insecurity were grouped together under a single category labelled ‘moderate-to-severe food insecurity’ owing to the limited number of households falling into the severe food insecurity group.31

Tobacco products use and smoking intensity

Self-administered questionnaires were used to assess the use of tobacco products for each survey participant. First, the use of combustible cigarettes was assessed by the following question: ‘Do you currently smoke traditional cigarettes?’. The possible response options were ‘every day’, ‘occasionally’, ‘used to smoke in the past but currently do not smoke’, or ‘never’. If the respondents smoked occasionally, they were asked about the number of days they had smoked combustible cigarettes in the past month. Based on the response, those who smoked every day or smoked≥1 day in the past month were classified as currently using combustible cigarettes. Second, the use of heated tobacco products was assessed using the following question: ‘Do you currently use heated tobacco products (eg, IQOS, GLO, LIL, etc.)?’. The possible response options were ‘every day’, ‘occasionally’, ‘used to smoke in the past but currently do not smoke’ or ‘never’. If the respondents smoked occasionally, they were asked about the number of days they had smoked heated tobacco products in the past month. Based on the response, those who smoked every day or smoked≥1 day in the past month were classified as currently using heated tobacco products. Third, the use of e-cigarettes was assessed using the following question: ‘Have you used nicotine-containing e-liquids in the past month?’. The possible answer options were ‘yes’ and ‘no’. Those who responded ‘yes’ were classified as currently using e-cigarettes.

The urine cotinine level was measured by high-performance liquid chromatography-mass spectrometry using an Agilent 1100 Series with API 4000 (AB Sciex, USA). The lower limit of detection (LOD) was 0.5 ng/mL. Urine creatinine was measured by a kinetic colorimetric assay using a LABOSPECT 008AS (Hitachi, Japan). The LOD was 1.0 mg/mL. Values below the LOD were substituted with half of the LOD value. Based on the previous literature,32 survey participants with a urine cotinine level of≥50 ng/mL were defined as cotinine-verified smokers (n=2014). To isolate the impact of traditional cigarettes on smoking intensity, we included only participants who reported using traditional cigarettes in our measurement of smoking intensity. The urine cotinine-to-creatinine (Co/Cr) ratio was calculated with ng/mg as the units.33 Based on the median value of the Co/Cr ratio (8.05 ng/mg), participants were classified as engaging in high-intensity smoking (Co/Cr ratio≥8.05 ng/mg; n=1007) or low-intensity smoking (Co/Cr ratio<8.05 ng/mg; n=1007). As a result, the urine cotinine-verified smoking status of each participant was classified into one of three groups: non-smoking, low-intensity smoking or high-intensity smoking.

Covariates

The following confounders were selected as covariates for our analysis: Sex (male, female), age (<30, 30–39, 40–49, 50–59, ≥60), educational attainment (elementary or below, middle school, high school, college or above), household income (Q1, Q2, Q3, Q4), employment status (employed, unemployed), marital status (married and having children, married and not having children, unmarried/others). Household income level was categorised into four groups based on the quartile values of monthly total household income for each year. Those who engaged in any economic activities whether as employed workers or self-employed workers were classified as ‘employed’.

Statistical analysis

The characteristics of the study sample according to food insecurity levels were presented in the descriptive analyses. We then examined the prevalence of the use of each tobacco product according to the study variables.

For the regression analysis, we first estimated the association between food insecurity and the use of combustible cigarettes, heated tobacco products or e-cigarettes using logistic regression models in which food insecurity served as an independent variable and tobacco product use served as a dependent variable. Second, we estimated the association between food insecurity and urine cotinine-measured smoking status using multinomial logistic regression in which non-smoking was the reference outcome group. In this step, 925 observations with missing data on urine cotinine or creatinine levels as well as 559 observations involving the use of e-cigarettes or heated tobacco products were additionally excluded to restrict the source of nicotine intake solely to cigarette smoking. ORs and their corresponding 95% CIs were estimated. R software V.4.2.3 (R Foundation for Statistical Computing, Vienna, Austria) was used for statistical analysis. For both descriptive and regression analyses, the survey weights were adjusted to reflect the complex survey design of the KNHANES.34

Following additional analyses were conducted. First, we explored the association between food insecurity and dual/poly use of tobacco products. Second, analyses were stratified by sex to account for differences in smoking patterns based on sex. We also examined disparities in self-reported and cotinine-verified smoking status by sex.

Results

There were 5871 men and 7834 women in the study sample (table 1). Among the 13 705 survey participants, 96.1% had food security, 3.2% had mild food insecurity and 0.7% had moderate-to-severe food insecurity. Compared with the group with food security, those experiencing moderate-to-severe food insecurity were characterised by a higher proportion of older individuals, individuals with lower educational and income levels, unemployed individuals and individuals with chronic conditions.

Table 1

Distribution of characteristics according to food insecurity. Survey weights were adjusted

The survey-weighted prevalence of tobacco product use is presented in table 2. The prevalence of combustible cigarette use was 18.4% among those with food security, 23.5% among those with mild food insecurity and 45.1% among those with moderate-to-severe food insecurity. The prevalence of individuals using heated tobacco product was 4.4% among those with food security, 0.7% among those with mild food insecurity and 5.5% among those with moderate-to-severe food insecurity. The prevalence of individuals using e-cigarette was 2.6% for those with food security, 2.3% for those with mild food insecurity and 7.5% for those with moderate-to-severe food insecurity.

Table 2

Prevalence of the use of each tobacco product according to study characteristics. Survey weights were adjusted

The associations between food insecurity and tobacco product use are shown in table 3. After adjusting for confounders, both mild (OR: 1.38, 95% CI: 1.01 to 1.89) and moderate-to-severe (OR: 3.36, 95% CI: 1.87 to 6.03) food insecurity, compared with food security, were associated with increased odds of combustible cigarette use. Moderate-to-severe food insecurity, compared with food security, was associated with increased odds of e-cigarette (OR: 3.49, 95% CI: 1.31 to 9.28). No clear association was observed between food insecurity and the use of heated tobacco products. Online supplemental table S1 shows that those with moderate-to-severe food insecurity were associated with dual/poly use of tobacco products (OR: 3.67, 95% CI: 1.45 to 9.29) compared with those without food insecurity.

Supplemental material

Table 3

Association between food insecurity and use of tobacco products on logistic regression models (n=13 705)

The associations between food insecurity and urine cotinine-measured smoking status are presented in table 4. Compared with those with food security, those with mild and moderate-to-severe food insecurity were more likely to engage in high-intensity smoking (OR: 1.61, 95% CI: 1.09 to 2.38 for mild food insecurity and OR: 2.25, 95% CI: 1.04 to 4.86 for moderate-to-severe food insecurity).

Table 4

Association between food insecurity and urinary cotinine-verified smoking status on multinomial logistic regression models (n=12 221)

Online supplemental table S2 and S3 show the sex-stratified associations between food insecurity and dependent variables. The association between food insecurity and combustible cigarette use was observed both in the male and female sample (online supplemental table S2). The association between food insecurity and high-intensity smoking was observed only in the male sample (online supplemental table S3). Online supplemental table S4 shows the disparities in self-reported and cotinine-verified smoking by sex revealing a large proportion of ‘hidden’ smoking among women. Finally, food insecurity showed no clear association with cotinine-verified current smoking among the female sample (online supplemental table S5).

Discussion

In this study, we found that experiencing food insecurity was associated with an increased likelihood of combustible cigarette and e-cigarette use compared with those with non-food security. Additionally, food insecurity was associated with high-intensity smoking as determined by the urine cotinine level, a well-known nicotine metabolite.

Our findings indicate that the prevalence of food insecurity is lower in South Korea compared with high-income countries while the prevalence of tobacco product use is relatively high. This disparity can be attributed to various sociopolitical factors including the lack of robust anti-smoking policies for both traditional and e-cigarettes as well as the reported reluctance among many Koreans to engage in smoking cessation efforts.35 Therefore, active policy efforts are required to promote anti-smoking initiatives, raise awareness about the risks of smoking and support smoking cessation programmes for Korean residents.

The findings of our study are consistent with those of previous studies showing that food insecurity is closely associated with cigarette smoking and e-cigarette use. Cross-sectional studies have consistently shown that food insecurity is associated with cigarette smoking.10 36 37 A recent cross-sectional study in the USA showed that e-cigarette use is associated with experiencing food insecurity.21 Moreover, a longitudinal study in the USA demonstrated that the transition from food security to food insecurity is associated with a 1.9-fold increase in the odds of engagement in smoking.9 They found a positive association between food insecurity and self-reported smoking intensity.9 A longitudinal study also found that food insecurity was prospectively associated with the likelihood of smoking at a 2-year follow-up.19 Another cohort study by Kim et al demonstrated that severe food insecurity was associated with increased odds of smoking at follow-up among the homeless or women with unstable housing.8 Methodologically, a US cross-sectional study showed that food insecurity is associated with increased odds of both firsthand and secondhand smoke exposure as confirmed by the serum cotinine level among pregnant and postpartum women.22 This finding aligns with our results indicating a positive association between food insecurity and smoking status as measured using urine cotinine.

Several mechanisms may explain the observed association between food insecurity and tobacco product use. First, food insecurity can serve as a primary stressor that contributes to chronic stress for individuals.14 Specifically, stress triggered by hunger, anxiety regarding future food consumption and concerns regarding the well-being of family members such as partners or dependent household members may lead individuals to rely on tobacco products and higher-intensity nicotine consumption as coping strategies. Previous studies have shown that chronic stress can reduce the capacity to manage cravings leading to increased nicotine dependence.38 39 Second, previous studies have shown that nicotine has an appetite-suppressing effect.17 40 Particularly in resource-constrained households where individuals may experience food insecurity, this effect, coupled with addiction, may influence the prioritisation of tobacco purchases over essential food items.41 A biological mechanism underlying this pathway involves the activation of proopiomelanocortin neurons which contributes to the nicotine-induced decrease in food intake and hunger.40 Third, another important mechanism is the potential for reverse causation where tobacco product use may contribute to food insecurity by diverting funds from purchasing food. For instance, a longitudinal study demonstrated that ceasing smoking is linked to a decreased risk of food insecurity as it reduces expenditure on cigarettes.20 A recent study showed that the use of both combustible cigarettes and e-cigarettes was associated with increased odds of food insecurity.21 The relationship between food insecurity and the use of tobacco products can be bidirectional;19 thereby, instead of construing our findings as indicative of a unidirectional causal effect of food insecurity on tobacco product use, it should be considered within the framework of reciprocal influence. The prevalence of tobacco product use and food insecurity is concentrated among households with low socioeconomic status. For example, community programmes responsible for providing food assistance should also consider supporting smoking cessation efforts to prevent the diversion of household funds to tobacco products.7 From a research perspective, future strategies should include prospective studies designed to explore whether food insecurity predicts the initiation of tobacco product use and vice versa.

One novel finding of our study is that food insecurity is associated with high-intensity smoking. A previous study showed that food insecurity is positively associated with self-reported smoking intensity; however, this intensity did not increase with higher levels of food insecurity.9 In contrast, our study demonstrated that a higher level of food insecurity was associated with greater odds of engaging in high-intensity smoking. Measuring intensity using cotinine levels can offer the advantages of being less susceptible to recall bias and providing greater precision compared with self-reporting.24 Individuals experiencing greater food insecurity may resort to smoking as a coping strategy for hunger or stress potentially leading to increased nicotine intake. Furthermore, higher smoking intensity can divert more household funds away from purchasing food and meals contributing a greater food insecurity.42 Another novel approach of our study was to explore the association between food insecurity and the use of e-cigarettes and heated tobacco products as well as combustible cigarettes. The findings of our study have significant policy implications particularly in light of the rising prevalence of alternative smoking products.43 As these products gain popularity,44 policy considerations should address their co-existence with food insecurity, taking into account the potential influence of food insecurity on their use as well as the possibility of these products exacerbating food insecurity. However, the small number of cases involving heated tobacco products limited our ability to establish a conclusive association with food insecurity necessitating future large-scale investigations.

In the sex-stratified analysis, we observed a high incidence of false negative self-reported smokers, particularly among women and no clear association between food insecurity and cotinine-measured smoking status in women. First, due to the influence of Confucian culture, smoking is considered a social taboo for women in Korea leading to social desirability bias where participants are reluctant to report their smoking status.23 This bias is also likely to apply to e-cigarettes and heated tobacco products as well necessitating caution in interpretation. Women, who often manage household food supplies, may be more likely than men to avoid diverting funds to smoking when experiencing food insecurity. This behaviour could significantly mitigate the association between food insecurity and smoking status in the female sample.

This study had some limitations. First, as this was a cross-sectional study, we could not consider the temporal sequence between food insecurity and tobacco use. As mentioned previously, the relationship between food insecurity and tobacco use may be bidirectional. While food insecurity can serve as a risk factor for smoking initiation, a number of studies indicated that tobacco product use contributes to future food insecurity by diverting funds from food purchases.7 10 19–21 Therefore, rather than interpreting the results of our study as indicating the impact of food insecurity on tobacco product use, it should be interpreted as showing the association between food insecurity and tobacco product use encompassing the potential influence of tobacco product use on food insecurity. Further longitudinal studies should be conducted to elucidate the reciprocal relationship between how food insecurity can induce the use of various types of tobacco products and increase the smoking intensity and vice versa. Second, although urine cotinine is a widely used biomarker in epidemiological studies to assess nicotine exposure and smoking intensity, it was measured only once in this study; therefore, it should be acknowledged that it may not fully reflect the usual smoking patterns of study participants. Therefore, repeated measurements of urine cotinine can be employed in future studies to evaluate the smoking status of survey participants more precisely. Third, most variables used in this study, except for urine cotinine, were self-reported which can lead to potential measurement biases such as recall bias. Fourth, the observed number of individuals with moderate-to-severe food insecurity and heated tobacco products and e-cigarette users was relatively small which precluded us from performing more in-depth analyses including stratified analyses by socioeconomic status.

Nevertheless, our study contributes positively to the literature in several ways. First, the use of a population-based sample enhances the generalisability of our findings. Second, to the best of our knowledge, this study is among the few to consider various types of tobacco use including heated tobacco products and e-cigarettes and their associations with food insecurity. Considering the recent increase in the use of tobacco products other than traditional cigarettes, this study provides valuable insights. Third, by measuring the urine cotinine level, we not only validated the association between food insecurity and smoking risk reported in the existing literature but also offered novel insights into the association with smoking intensity.

Conclusion

In this study, we found that food insecurity is associated with an increased likelihood of using both combustible cigarettes and e-cigarettes among Korean adults. Furthermore, greater food insecurity is associated with higher odds of high-intensity smoking as confirmed by the urine cotinine level. While further longitudinally-designed investigations are required to disentangle the temporal and bidirectional relationship between food insecurity and tobacco product use, our study suggests that policymakers should consider the coexistence of food insecurity and tobacco product use.

Data availability statement

Data are available in a public, open access repository. Raw data from the Korea National Health and Nutrition Examination Survey are available at https://knhanes.kdca.go.kr/knhanes/eng/index.do.

Ethics statements

Patient consent for publication

Ethics approval

The Korea National Health and Nutrition Examination Survey was conducted each year based on the ethical approval of the Institutional Review Board of the Korea Disease Control and Prevention Agency (2018-01-03-C-A; 2018-01-03-2C-A; 2018-01-03-5C-A). Participants gave informed consent to participate in the study before taking part.

Acknowledgments

The authors would like to thank the Korea Disease Control and Prevention Agency for conducting the research and sharing the raw data.

References

Supplementary materials

  • Supplementary Data

    This web only file has been produced by the BMJ Publishing Group from an electronic file supplied by the author(s) and has not been edited for content.

Footnotes

  • Contributors Conceptualisation: S-UB. Data curation: S-UB. Methodology: S-UB. Formal analysis: S-UB. Investigation: S-UB. Software: S-UB. Writing (original draft preparation): S-UB. Writing (review and editing): J-UW, Y-ML, J-HY. Supervision: J-UW, Y-ML, J-HY. Guarantor: S-UB.

  • Funding The authors have not declared a specific grant for this research from any funding agency in the public, commercial or not-for-profit sectors.

  • Competing interests No, there are no competing interests.

  • Provenance and peer review Not commissioned; externally peer reviewed.

  • Supplemental material This content has been supplied by the author(s). It has not been vetted by BMJ Publishing Group Limited (BMJ) and may not have been peer-reviewed. Any opinions or recommendations discussed are solely those of the author(s) and are not endorsed by BMJ. BMJ disclaims all liability and responsibility arising from any reliance placed on the content. Where the content includes any translated material, BMJ does not warrant the accuracy and reliability of the translations (including but not limited to local regulations, clinical guidelines, terminology, drug names and drug dosages), and is not responsible for any error and/or omissions arising from translation and adaptation or otherwise.