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Food insecurity and the double burden of malnutrition in Colombian rural households

Published online by Cambridge University Press:  05 July 2021

Ana María Sansón-Rosas*
Affiliation:
School of Human Nutrition, McGill University, Macdonald Campus, 21111 Lakeshore, Saint-Anne-de-Bellevue, QCH9X 3V9, Canada
Jennifer Bernal-Rivas
Affiliation:
Facultad de Ciencias de la Nutrición y Alimentos, Universidad CES, Medellín, Colombia
Stan Kubow
Affiliation:
School of Human Nutrition, McGill University, Macdonald Campus, 21111 Lakeshore, Saint-Anne-de-Bellevue, QCH9X 3V9, Canada
Andrés Suarez-Molina
Affiliation:
Instituto Departamental de Salud, Nariño, Colombia
Hugo Melgar-Quiñonez
Affiliation:
School of Human Nutrition, McGill University, Macdonald Campus, 21111 Lakeshore, Saint-Anne-de-Bellevue, QCH9X 3V9, Canada
*
*Corresponding author: Email [email protected]
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Abstract

Objective:

This study aimed to examine in Colombian rural households the association between different severity levels of household food insecurity and the presence of the double burden of malnutrition (SCOWT), defined as the coexistence of a stunted child under 5 years of age and an overweight or obese (OWOB) mother.

Design:

A secondary data analysis was conducted using cross-sectional data from the Colombian National Nutritional Survey (ENSIN) 2015. Household food insecurity status was assessed by using the Latin-American and Caribbean Food Security Scale (ELCSA). The household SCOWT status (child stunting and OWOB mother) was determined using anthropometric data from a mother and her child.

Setting:

Rural Colombia.

Participants:

Totally, 2·350 mother–child pairs living in the same household.

Results:

Sixty-two per cent of the households were food-insecure and SCOWT was present in 7·8 % of the households. Moderate (OR: 2·39, 95 % CI (1·36, 4·21)) and severe (OR: 1·86, 95 % CI (1·10, 3·15)) food insecurity was associated with SCOWT in an unadjusted logistic regression. Only moderate food insecurity remained significantly associated with SCOWT in a multivariate logistic regression (adjusted OR: 2·41, 95 % CI (1·24, 4·68)).

Conclusions:

Colombian rural areas are not exempt from the worldwide concern of increasing OWOB rates while stunting is still persistent. These results highlight the need of implementing double-duty rural actions targeting the most vulnerable households to SCOWT, particularly in terms of overcoming food insecurity beyond hunger satisfaction to prevent all forms of malnutrition.

Type
Research paper
Copyright
© The Author(s), 2021. Published by Cambridge University Press on behalf of The Nutrition Society

Household food insecurity is experienced when there are concerns regarding accessing available food; the food needed for an active and healthy life is insufficient; or when accesing food implicates using socially unacceptable practices(Reference Wunderlich and Norwood1). This complex situation occurs when one or all of the four food security pillars fail to be achieved over time, which include physical availability of food, access to food (economic, physical and cultural), food utilisation and stability of these pillars(2).

Since food is produced mainly in the rural areas, it might be expected that such settings would have less food-insecure households given that rural areas contribute the most to food production. This scenario, however, seems to be only true for high-income countries(Reference Smith, Rabbitt and Coleman-Jensen3). In countries with lower economic development levels, rural areas are more inclined to food insecurity than urban centres(Reference Smith, Rabbitt and Coleman-Jensen3Reference Sinclair, Ahmadigheidari and Dallmann5). According to the ENSIN (2015), 64 % of rural Colombian households were food-insecure v. 52 % in urban regions(6).

Food security pillars can be readily affected by socio-economic and cultural dynamic factors seen in rural areas, which may adversely impact one or more of those pillars. For instance, the pillar related to physical availability of food depends on food production. In Colombian rural areas, less than 2 % of the inhabitants have access to loans, technical assistance, land and irrigation, which likely negatively affects adequate food production(7). Concurrently, the increased industrial mining activity in Colombian rural areas can threaten food security. Although industrial mining can contribute to the income of some households, food production could be adversely affected due to additional demands on water, land and workforce(7). Moreover, Colombian rural areas have higher levels of poverty, low education and illiteracy than urban regions(7,8) . These latter socio-economic factors can compromise the pillars pertaining to adequate access and utilisation of food. Additionally, armed conflicts in Colombia have enormously affected the rural population(7) by compromising the stability of food security over time(Reference Segovia9). Taken together, the above factors lead to a significant disadvantage of rural areas of Colombia with respect to food security and so vulnerable to the adverse health and nutritional consequences of food insecurity.

Food insecurity diminishes quality of life and well-being(Reference Wunderlich and Norwood1,Reference Ballard, Kepple and Cafiero10Reference Jones12) . Additionally, food insecurity has been associated with the presence of malnutrition reflected in child stunting in low- and middle-income countries and maternal overweight and obesity (OWOB) in high-income countries(Reference Maitra13). The latter health issues can be explained by food-insecure households having a lower consumption of healthy, diverse and nutritious foods and a higher consumption of energy-dense foods(Reference Drewnowski14Reference Vega-Macedo, Shamah-Levy and Peinador-Roldán18). Such dietary patterns are the result of nutritional transitions occurring in developing countries that are also accompanied by low levels of physical activity(Reference Popkin and Ng19). These nutritional transitions can lead to growth stunting from undernutrition together with increased prevalence of excessive body weight(Reference Popkin20).

In 2015, 10·8 % of the children under 5 years of age were reported to be stunted in Colombia(6). Although there has been a remarkable progress in reducing the prevalence of growth stunting in this country, decreasing from a 26 % prevalence in 1990, the set millennium development goal to reduce the prevalence to 8 % by 2015 was not reached(6). A particular concern was that child stunting was 15·4 % in rural areas as compared to a prevalence of 9 % seen in urban areas. Thus, growth stunting is still considered an important public health problem in Colombia(Reference de Onis, Borghi and Arimond21).

There is currently worldwide concern about unbalanced dietary patterns that are implicated in the rising number of persons classified as either overweight or obese in both developed and developing countries(22). Although such malnutrition had previously predominantly affected developed countries, this phenomenon is now rapidly rising in developing nations(2,22) . Moreover, the gap in the prevalence of OWOB that used to exist between the rural and urban areas is decreasing(2224). According to the ENSIN (2015), 49·7 % of women of childbearing age (13 to 49 years) in Colombia are OWOB with a slightly higher prevalence in rural v. urban settings (50·4 % and 49·5 %, respectively)(6).

The persistent prevalence of undernutrition in the form of stunting and the increasing rates of OWOB can lead to the coexistence of a stunted child, under 5 years of age, and an OWOB mother within the same household (SCOWT). The coexistence of undernutrition together with OWOB has been termed the double burden of malnutrition(25).

Both stunting and OWOB can lead to compromised quality of life and health outcomes since these forms of malnutrition have been associated with an increased chronic disease risk(Reference Dwivedi, Dubey and Cistola26,Reference Wittenbecher, Kuxhaus and Boeing27) and impaired cognitive development(Reference Alam, Richard and Fahim28). A major concern related to SCOWT is that the above health consequences can affect mother–child dyads that are sharing the same socio-economic environment. On the other hand, this type of double burden might be preventable by interventions addressing underlying household factors.

The association of food insecurity with SCOWT has been studied using nationally representative data in Brazil(Reference Gubert, Spaniol and Segall-Corrêa29) and in an urban subpopulation of Indonesia(Reference Mahmudiono, Nindya and Andrias30). The Brazilian study found that severe food-insecure households had a higher likelihood of SCOWT (adjusted OR (aOR) = 3·33, 95 % CI (1·41, 7·84))(Reference Gubert, Spaniol and Segall-Corrêa29), whereas all severity levels of food insecurity were associated with this phenomenon in Indonesia (mild food-insecure aOR = 2·78; 95 % CI (1·54, 5·08)); moderate food-insecure (aOR = 2·53; 95 % CI (1·28, 4·98)) and severe food-insecure (aOR = 2·04; 95 % CI (1·08, 3·84))(Reference Mahmudiono, Nindya and Andrias30). The lack of agreement between studies indicates an uncertainty regarding the impact of food insecurity severity levels on the occurrence of SCOWT. To our knowledge, no study has investigated the association of SCOWT with food insecurity in rural households.

The objectives of this research were to use nationally representative data to: (a) assess the association between different severity levels of household food insecurity and SCOWT and (b) identify factors related to social determinants of health that could be associated with SCOWT.

Methods

A secondary data analysis was done using cross-sectional data from the latest Colombian National Nutritional Survey (ENSIN 2015). This survey incorporated a probabilistic multistage, stratified, cluster sampling design. In this design municipalities were randomised and stratified according to rural and urban areas, in the following stages, blocks were segmented to finally select the unit of analysis, which consisted of households. The ENSIN survey includes representative data for the nation, rural and urban areas, six regions and thirty-two departments (provincial units). Detailed information on the sampling design can be found elsewhere(6).

The total sample size for the ENSIN 2015 survey was 44 202 households, from which a subsample consisting of mothers of childbearing age and their children under 5 years of age was selected. After applying the exclusion criteria (Chart 1), a final subsample of 2350 households with eligible mother–child pairs was chosen.

Outcome and exposure variables

Household SCOWT status

The dependent variable was the household SCOWT status which was constructed using anthropometric data from the mother and the child. Children with height-for-age Z-scores below –2 were classified as stunted, whereas when this index was equal to or above this value, the child was classified as not stunted(31). Mothers were classified as being OWOB when their BMI was equal to or above 25 kg/m2 (OWOB). Mothers with a BMI below 25 kg/m2 were classified as normal weight. In cases where the household had a stunted child together an OWOB, the household was classified as SCOWT and assigned a value of 1. If a household did not have both conditions, a value of 0 was allocated. Overweight and obesity were considered together due to the low prevalence of SCOWT among households when only obesity was considered (3 %, n 67). Another consideration for grouping these two weight categories is that overweight (BMI of 25–29 kg/m2) is also associated with increased chronic disease risk(Reference Kearns, Dee and Fitzgerald32,Reference Lu, Hajifathalian and Ezzati33) .

Child stunting and maternal OWOB were as well analysed as dependent variables to enable a comparison of the factors related to their occurrence with those associated with SCOWT. Hence, the three variables (child stunting, maternal OWOB and SCOWT) were analysed as categorical binary variables (having or not having the condition). Therefore, the reference group allowed for the comparison with all other forms of nutritional status classifications, not just with normal pairs. The rationale for this approach was based on the need to compare the presence of SCOWT against all different possible combinations of child–mother nutritional status, not just against normal pairs. Moreover, less than half of the pairs were found to be classified as having normal nutritional status, reducing the power of the analysis. A preliminary analysis excluding underweight mothers did not alter the results. On the other hand, it would have been inaccurate to treat child stunting, maternal OWOB and SCOWT pairs as categories of one multinomial variable since not all risk factors were shared between each, which would have affected the results from the multivariate logistic regression.

Household food security status

With regard to household food security status, the ENSIN survey used the Latin-American and Caribbean Food Security Scale (Escala Latinoamericana y del Caribe de Seguridad Alimentaria – ELCSA). This scale has been validated for Colombia and other countries of the region(34). The ELCSA scale evaluates the experiences of the households with regard to food insecurity through the implementation of fifteen different questions (eight for households consisting only of members of 18 years old or older and seven questions for households with one child or more under the age of 18 years). When the head of the household answers affirmatively to a question, a score of 1 was assigned. On the other hand, a score of 0 was allocated if the respondent’s answer was negative. A total score was calculated to classify the household as food-secure (score of 0), mild food-insecure (score of 1 to 5), moderate food-insecure (score of 6 to 10) or severe food-insecure (score of 11 to 15). Mild food-insecure households experience impaired food quality, whereas food quantity is also compromised in moderate food-insecure households. Severe food-insecure households are those that experience hunger(34).

To better understand the association of SCOWT and food insecurity, sixteen categorical covariates that were included in the ENSIN survey were incorporated in the analysis. These covariates were grouped according to the categories of the model of the social determinants of health proposed by Dahlgren and Whitehead(Reference Dahlgren and Whitehead35). The categories were (a) geographical location, (b) social conditions, (c) living and working conditions, and (d) individual factors (Table 1).

Table 1 Descriptive characteristics of children and mother’s pairs according to all covariates

Raw sample sizes are reported, and sample weights were used to compute estimates.

Statistical analysis

Multicollinearity was tested between all variables using the variance inflation factor (VIF)(Reference Liao and Valliant36), when it was below 2·5 multicollinearity was considered as a problem. None of the variables reported a variance inflation factor below this value.

Statistical analysis was performed using SPSS version 23.0.0, and more specifically its complex samples module. All the analyses were done using sampling weights; hereafter, the sampling weight of the child was used to analyse the variables, SCOWT and stunting, the mother’s sampling weight for OWOB, and the household sampling weight for the descriptive characteristics of the households. A 95 % CI was set, and analyses with a P-value of P < 0·05 were considered to be significant. Descriptive characteristics of the sample and their corresponding 95 % CIs are also presented.

Pearson chi-squared tests were conducted to evaluate the associations between all independent variables and SCOWT, child stunting, and maternal OWOB. To better understand this association, a simple logistic regression, using crude OR and their 95 % CI, was used. Subsequently, a model adjusting for all significant covariates was implemented using a multivariate logistic regression. This model included the covariates that improved the model fit and showed an association with a P-value < 0·25 in the Pearson chi-squared test(Reference Hosmer, Lemeshow and Sturdivant37). The multivariate logistic regression used aOR and their 95 % CI.

All participants gave written consent before the interview and the Colombian National Institute of Health granted ethical approval for the implementation of the ENSIN 2015.

Results

Descriptive characteristics

Almost two-thirds (62 %) of the households experienced food insecurity. Maternal OWOB was present in almost half (49·8 %) of the households and child stunting in 16 % of the households. The presence of SCOWT was found in 7·8 % of mother–child pairs (Table 2).

Table 2. Household food security and children and mother’s nutritional status

HAZ, height-for-age Z-scores; WHZ, weight-for-height Z-scores; BMIZ, BMI-for-age Z-scores.

* This index was used for adolescent mothers (13 to 17 years old).

Raw sample sizes are reported, and sample weights were used to compute estimates.

Moreover, 2 % of the children suffered from both stunting and overweight. Almost three-quarters of the surveyed heads of households (74·2 %) were informally employed and 43·4 % did not have a completed primary school educational level (Table 1).

Bivariate analysis

As shown in Table 3, almost all covariates used for the analyses were associated with food insecurity. In the overall selected sample of mother–child pairs, there were 37·6 % food-secure households. However, food security decreased as social-economic conditions increased in inequality. For instance, among those identified as Afro-Colombians and as indigenous people, only 11·5 % and 18 % households were food-secure, respectively. Food security prevalence was lower than 30 % within households without a toilet with sewer connection, among mothers with the lowest educational level, and among those who had a height < 145 cm, and households with three or more children under 5 years of age (Table 3).

Table 3 Prevalence of food insecurity (by severity levels) across covariates

The chi-squared test revealed significant associations (P < 0·05) between food security and all dependent variables in terms of maternal OWOB, child stunting and SCOWT. The lowest prevalence of maternal OWOB was found among severe food-insecure households, which also had the highest prevalence of child stunting. Child stunting showed a dose–response pattern increasing as the severity of food insecurity increased. The association of SCOWT with food security had an inversed U-shaped curve, that is, the highest prevalence was found among moderate food-insecure households (Fig. 1).

Fig. 1 Maternal OWOB, child stunting and SCOWT by food insecurity severity levels. OWOB, overweight or obesity; SCOWT, stunted child and overweight or obese mother. Chi-squared test: P <0·05

The highest prevalence for both SCOWT and stunting was found in households that had three or more children under 5 years of age, in households with multiple child births and among those households in which the mother’s height was < 145 cm. Maternal OWOB showed a highest prevalence among households in which the mother gave birth at the age of 35 to 49 years, among households in which birth spacing was at or above 24 months and in households located in the central region of Colombia (Table 4).

Table 4 Maternal OWOB, child stunting and SCOWT according to covariates

In the unadjusted bivariate analysis, moderate- (OR: 2·39, 95 % CI (1·36, 4·21)) and severe food-insecure households (OR: 1·86, 95 % CI (1·10, 3·15)) presented an increased likelihood of SCOWT when compared to food-secure households. The odds for child stunting were higher in households experiencing food insecurity when compared to those with food security, increasing with rising severity of food insecurity mild (OR: 1·45, 95 % CI (1·02, 2·06)), moderate (OR: 2·02, 95 % CI (1·39, 2·94)) and severe (OR: 3·70, 95 % CI (2·64, 5·17)). Conversely, the likelihood of finding households with maternal OWOB was significantly lower in severe food-insecure households (OR: 0·60, 95 % CI (0·47, 0·78)) (Table 5).

Table 5 Crude and fully adjusted model for maternal OWOB, child stunting and SCOWT

Multivariate analysis

As shown in Table 5, when adjusting for all covariates, an increased likelihood of SCOWT remained significant only for moderate food-insecure households (aOR: 2·41, 95 % CI (1·24, 4·68)). In the multivariate analysis, child stunting and maternal OWOB were no longer significantly associated with food insecurity.

Mothers’ height < 145 cm had the highest adjusted odds for SCOWT, increasing its occurrence by almost four times when compared to mothers who had a height >= 145 cm (aOR: 3·92, 95 % CI (2·25, 6·81)), followed by multiple births (aOR: 3·42, 95 % CI (1·07, 10·89)), and for households having three or more children under 5 years of age (aOR: 3·42, 95 % CI (1·28, 9·12)). These variables were also associated with a highest occurrence of child stunting.

SCOWT was more likely to occur in households with the following characteristics: more than seven members (aOR: 3·00, 95 % CI (1·67, 5·41)); women as the head of the household (aOR: 2·11, 95 % CI (1·22, 3·64)); an indigenous head of the household (aOR: 1·53, 95 % CI (1·01, 2·32)); child birth spacing of more than 24 months (aOR: 2·02, 95 % CI (1·20, 3·38)). Although being self-recognised as indigenous increased the presence for both SCOWT and stunting, this characteristic was also associated with a lower likelihood of maternal OWOB. The presence of a toilet without sewer connection and a wealth index below the mean also decreased the likelihood of maternal OWOB.

Discussion

In this study, the coexistence of child stunting and maternal OWOB was found in 7·8 % of the rural households. This finding is higher than a previously reported national prevalence of SCOWT of 5·1 %(Reference Sarmiento, Parra and González38), and in line with evidence showing that in countries such as Colombia, the rural areas have a higher prevalence of SCOWT(Reference Garrett and Ruel39).

The existence of SCOWT in the rural areas could be explained by the persistent prevalence of stunting. Although stunting has historically been higher than in the urban areas, the increasing presence of overweight/obesity in rural areas has reduced the gap between urban and rural areas(6,Reference Jaacks, Slining and Popkin23,24) . This gap reduction is supported by published data from the ENSIN (2015) which showed that in the adult population the difference in the prevalence of OWOB between the urban and the rural areas decreased from 6·5 % in 2005 to 4·8 % in 2015(6). More concerning is that by 2015, in women of childbearing age, OWOB was 0·9 % higher in rural than in urban areas(6). Jaakcs et al. (Reference Jaacks, Slining and Popkin23) found that the OWOB prevalence was increasing at a higher rate in rural women aged 19–49 years than in their urban counterparts in most low- and middle-income countries, including Colombia. In the present study, rural maternal OWOB was found in almost half (49·8 %) of the households. The current research findings provide further support for rising OWOB rates among rural Colombian women, which needs to be urgently addressed.

According to Dieffenbach and Stein(Reference Dieffenbach and Stein40), the coexistence of an OWOB mother and a stunted child is the result of their independent existence in the general population, which can be attributed to the increasing rate of maternal OWOB. This phenomenon was previously hypothesised by Jehn and Brewis(Reference Jehn and Brewis41) who suggested that SCOWT, overweight and undernutrition shared the same determinants. It is important to point out, however, that the rising rates of maternal OWOB do not appear to occur evenly across the whole population(Reference Jaacks, Slining and Popkin23). Thus, there seem to be factors that increased the occurrence of SCOWT, which do not show an association solely with overweight and stunting. As such, moderate food insecurity in the present study showed an association with SCOWT but not with stunting and overweight alone.

After controlling for various covariates, the results of the present research support the hypothesis that food insecurity is associated with the double burden of malnutrition in Colombian rural households. The positive association between these two phenomena was also found in Brazil(Reference Gubert, Spaniol and Segall-Corrêa29) and in Indonesia(Reference Mahmudiono, Nindya and Andrias30). The Brazilian study, however, found this association only with severe food-insecure households, whereas the Indonesian study showed the association with all severity levels of food insecurity. Such discrepancies regarding the severity level of food insecurity with respect to SCOWT might be explained by a variety of factors. For instance, Gubert et al.(Reference Gubert, Spaniol and Segall-Corrêa29) analysed nationally representative data of both urban and rural areas in Brazil, while Mahmudiono et al. (Reference Mahmudiono, Nindya and Andrias30) used a sample from Indonesian urban settings with high prevalence of underweight. Taken together, the above findings suggest that the coping mechanisms adopted to deal with food insecurity and its consequences might be due to the differences between urban and rural environments. In rural Colombia, the lack of an association between severe food-insecure households and SCOWT could be accounted for by the lower prevalence of maternal OWOB among this severity level. Conversely, the Brazilian study reported that severe food-insecure households had a slightly higher prevalence of maternal OWOB than all other food security categories(Reference Gubert, Spaniol and Segall-Corrêa29). Similar results in Brazil were reported by Conde and Monteiro(Reference Conde and Monteiro42) who found that both the lowest and the highest household income quintiles had the highest prevalence of obesity. Furthermore, evidence indicates that women with lower socio-economic status had a higher occurrence of obesity in countries with a higher gross national product(Reference Monteiro, Moura and Conde43). Thus, one factor that could explain the lower prevalence of maternal overweight in severe food-insecure Colombian households when compared to their Brazilian counterparts is the higher gross national product in Brazil(44). Consequently, it is conceivable that severe food-insecure households in rural Colombia are experiencing an early stage of the nutritional transition, whereby high energy-dense foods are not yet highly accessible.

Since severe food-insecure households experienced hunger, the present finding of higher prevalence of child stunting together with a lower prevalence of maternal overweight/obesity was expected. Despite lower prevalence of child stunting in mild food-insecure households, which experience impaired food quality, these households also showed high presence of maternal OWOB. Accordingly, it appears that SCOWT occurs in moderate food-insecure households as these households suffer from both impaired food quality and quantity. This observation is supported by the findings of Lee et al. (Reference Lee, Houser and Must45) who found that the middle consumption quintile increased the likelihood of a household with SCOWT in Guatemala. In moderate food-insecure households, the occurrence of child stunting could be explained by a diet lacking in nutrient density and diversity and insufficient food consumption. Conversely, the presence of maternal OWOB might be due to excessive intake of highly available energy-dense foods specifically by the mothers as only 2 % of children were both stunted and overweight. Such differential intra-household food distribution has been observed previously to be associated with the double burden of malnutrition(Reference Wibowo, Sutrisna and Hardinsyah46).

There are underlying factors that determine the consumption of unhealthy diets. For instance, food system transformations have been characterised by an increased production and access of energy-dense, ultra-processed foods including in rural areas(Reference Popkin and Reardon47). It appears that such processed, high-fat and high-carbohydrate foods have become more available to small farmers in Colombian rural areas(24). Moreover, such changes in food systems and industrialisation can also lead to universalisation of television and greater sedentarism(Reference Freire, Silva-Jaramillo and Ramírez-Luzuriaga48), which can contribute to the increasing rates of overweight in rural areas.

Social conditions associated with SCOWT

Indigenous households, which had higher odds for SCOWT, were also significantly associated with an increasing occurrence of child stunting and a decreasing occurrence of maternal overweight. This observation, which is in line with findings by Lee et al. (Reference Lee, Houser and Must45), could suggest that the occurrence of SCOWT is a reflection of nutritional transition, which not all indigenous households may be experiencing equally. Further research is needed within indigenous populations to identify specific factors involved for this possible nutritional transition.

Living and working conditions associated with SCOWT

In this study, households with low educational levels, with two or more children under 5 years of age, and with five or more members had an increased likelihood of SCOWT. These associations have been found in previous studies(Reference Gubert, Spaniol and Segall-Corrêa29,Reference Lee, Houser and Must45,Reference Das, Fahim and Islam49Reference Oddo, Rah and Semba51) . Likewise, we found that a female head of household increased the occurrence of this phenomenon, which to the best of our knowledge has not been previously reported. These results highlight the importance of education in promoting healthy growth in children and preventing excessive weight gain in mothers. Moreover, having more children and more household members might increase the difficulty for the parents to provide adequate care practices and could also lead to less available food per family member. On the other hand, where the woman was the head of the household, it is highly probable that, besides taking care of the usual domestic tasks, the woman needs to work to maintain the family, putting the mother and her child in a more vulnerable position. Taken together, all of the above factors can compromise the personal care practices of the mother, which might contribute to her increased risk of excessive weight gain.

Individual factors associated with SCOWT

Low mother’s height was a significantly strong determinant for SCOWT, which is in line with previous literature(Reference Oddo, Rah and Semba51,Reference Doak, Campos Ponce and Vossenaar52) . The latter association might be driven by the significant relationship of lower maternal height with child stunting(Reference Addo, Stein and Fall53Reference Varela-Silva, Azcorra and Dickinson58). Such relationships are suggestive of intergenerational mother to child transmission of low height, which could be influenced by genetics, sharing the same poverty conditions, epigenetic and metabolic changes, and impaired fetal growth due to reduced intra-uterine space(Reference Martorell and Zongrone59). Moreover, the strong association of low mother´s height with SCOWT might be also due to the association of low height with overweight(Reference Ferreira, Moura and Cabral Júnior55,Reference Sichieri, Silva and Moura60) , which can be explained by the reduced energy requirements in these individuals that can easily be exceeded(Reference Sawaya and Roberts61). Furthermore, low maternal height is the outcome of chronic undernutrition in infancy, which is associated with overweight later in life, since stunted children seem to be more susceptible to gain more fat than lean mass(Reference Martins, Hoffman and Fernandes62).

The SCOWT pairs represent a concern due to their vulnerability to chronic diseases, as these are associated not only with excessive weight, but also with low height(Reference Wittenbecher, Kuxhaus and Boeing27,Reference Ferreira, Moura and Cabral Júnior55,Reference Adair, Fall and Osmond63,Reference Reinhardt and Fanzo64) . This phenomenon can place children at a higher health risk, since they are stunted and more likely to develop overweight, particularly if raised in an obesogenic environment. Consequently, special attention should be given to this demographic to promote adequate linear growth and avoid excessive weight gain, and so decrease chronic disease risk(Reference Barker, Eriksson and Forsén65,Reference Barker, Gelow and Thornburg66) .

In the present study, another factor related to the occurrence of SCOWT was the birth spacing of the target child of above 24 months with siblings, which might be determined by the association of this factor with maternal overweight. Weight gain during and after pregnancy should be investigated among this population to better understand this association.

The findings of the present research reinforce the need for implementation of rural public health and food security programmes to address the social determinants of health as a means to reduce the presence of SCOWT. Moreover, all food security programmes should extend their scope, including double-duty actions, that is, those that simultaneously address undernutrition, obesity and diet-related non-communicable diseases(Reference Hawkes, Ruel and Salm67). These actions are of paramount importance in developing countries and particularly in their rural areas, where food system transformations are rapidly occurring. Effectively addressing food insecurity will contribute to achieve the second Sustainable Development Goal (Zero Hunger) and so reduce all forms of malnutrition, provide opportunities for the countryside transformation and development, and sustain the Colombian peace. Moreover, additional longitudinal, experimental and qualitative studies are needed to better understand this association and its causality, including the role of diet to determine dietary patterns within households and taking into consideration intra-household food distribution. All efforts should be taken to avoid the growing prevalence of OWOB and its coexistence with undernutrition, especially in the rural areas, where access to adequate health care is limited.

Limitations

Although this research provides insight of an understudied issue, causality cannot be established. Moreover, the ELCSA scale questions referred to a period of 30 d, which might not reflect long-term interactions between variables. Furthermore, since the ELCSA scale is answered only by one member of the household, individual experiences were not contemplated.

Additionally, there were some variables that could not be included in this research as they were only present in a reduced number of pairs (n < 1000), such as breast-feeding, physical activity and dietary variables, which would have allowed amplifying the analysis of individual factors for the presence of SCOWT.

Conclusions

Colombian rural areas are highly vulnerable to food insecurity and its consequences, such as SCOWT. The association between different severity levels of food insecurity and SCOWT was significant in moderate food-insecure households. Other factors associated with SCOWT were low mother’s height, mothers with multiple births, households with three or more children under 5 years of age, households with more than seven members, women as the head of the household, indigenous head of the household and child birth spacing of more than 24 months. There is an urgent need to address these factors and implement double-duty actions to prevent the increase in SCOWT in Colombian rural areas.

This research did not receive any specific grant from funding agencies in the public, commercial or not-for-profit sectors.

Acknowledgements

Acknowledgements: The authors thank Elisa María Cadena Gaona, Technical Sub-Director of Nutritional Health, Ministry of Health of Colombia, who provided technical support during this research. Financial support: This research received no specific grant from any funding agency, commercial or not-for-profit sectors. Conflict of interest: There are no conflicts of interest. Authorship: A.M.S.-R. and H.M.-Q. contributed to the formulation of the research question and developed the study concept and study design. A.M.S.-R. and A.S.-M participated in the data analysis. J.B.-R., S.K., H.M.-Q. and A.M.S.-R. contributed to critically analyse the results and develop the discussion. A.M.S.-R. wrote the first draft. All authors made critical revisions to the drafts and approved the final version. Ethics of human subject participation: Not applicable.

References

Wunderlich, GS, Norwood, JL & National Research Council (2006) Food Insecurity and Hunger in the United States: An Assessment of the Measure. Washington, D.C.: National Academies Press.Google Scholar
FAO, UNICEF, International Fund for Agricultural Development (IFAD) et al. (2018) The State of Food Insecurity in the World: Building Climate Resilience for Food Security and Nutrition. Rome: FAO.Google Scholar
Smith, MD, Rabbitt, MP & Coleman-Jensen, A (2017) Who are the world’s food insecure? New evidence from the food and agriculture organization’s food insecurity experience scale. World Dev 93, 402412.CrossRefGoogle Scholar
Smith, LC, Ruel, MT & Ndiaye, A (2005) Why is child malnutrition lower in urban than in rural areas? Evidence from 36 developing countries. World Dev 33, 12851305.CrossRefGoogle Scholar
Sinclair, K, Ahmadigheidari, D, Dallmann, D et al. (2019) Rural women: most likely to experience food insecurity and poor health in low- and middle-income countries. Glob Food Sec 23, 104115.CrossRefGoogle Scholar
MSPS, Departamento Administrativo Para la Prosperidad Social, Instituto Colombiano de Bienestar Familiar et al. (2019) Documento General de Análisis Encuesta Nacional de la Situación Nutricional en Colombia – ENSIN 2015 (General Analysis Document Colombian National Nutritional Survey). Bogotá, D.C.: ICBF.Google Scholar
DNP (2015) El Campo Colombiano: Un Camino Hacia el Bienestar y la Paz. Mision Para la Transformación del Campo (The Colombian Countryside: A Path to Well-being and Peace. Mission for the Transformation of the Countryside). Bogotá D.C.: Nuevas Ediciones S.A.Google Scholar
DANE (2016) 3er Censo Nacional Agropecuario, Hay Campo Para Todos, Tomo 2, Resultados (3rd National Agricultural and Livestock Census, There is Farmland for All, Volume 2, Results). Bogotá D.C.: GIT Área de Comunicación DANE.Google Scholar
Segovia, A (2017) The Relationships between Food Security and Violent Conflicts: The Case of Colombia. Rome: FAO.Google Scholar
Ballard, TJ, Kepple, AW & Cafiero, C (2013) The Food Insecurity Experience Scale: Development of a Global Standard for Monitoring Hunger Worldwide. Rome: FAO.Google Scholar
Hadley, C & Crooks, DL (2012) Coping and the biosocial consequences of food insecurity in the 21st century. Am J Phys Anthropol 149, Suppl. 55, S72S94.CrossRefGoogle ScholarPubMed
Jones, AD (2017) Food insecurity and mental health status: a global analysis of 149 countries. Am J Prev Med 53, 264–173.CrossRefGoogle ScholarPubMed
Maitra, C (2018) A Review of Studies Examining the Link between Food Insecurity and Malnutrition. Technical Paper. Rome: FAO.Google Scholar
Drewnowski, A (2004) Obesity and the food environment. Am J Prev Med 27, 154162.CrossRefGoogle ScholarPubMed
Drewnowski, A & Specter, S (2004) Poverty and obesity: the role of energy density and energy costs. Am J Clin Nutr 79, 616.CrossRefGoogle ScholarPubMed
Mundo-Rosas, V, La Cruz-Góngora, Vd & Jiménez-Aguilar, A (2013) Diversidad de la dieta y consumo de nutrimentos en niños de 24 a 59 meses de edad y su asociación con inseguridad alimentaria (Dietary diversity and nutrient intake in children 24 to 59 months old and their association with food insecurity). Salud Públ Méx 56, Suppl. 1, S39S46.Google Scholar
Tanumihardjo, SA, Anderson, C, Kaufer-Horwitz, M et al. (2007) Poverty, obesity, and malnutrition: an international perspective recognizing the paradox. J Am Diet Assoc 107, 19661972.CrossRefGoogle ScholarPubMed
Vega-Macedo, M, Shamah-Levy, T, Peinador-Roldán, R et al. (2013) Inseguridad alimentaria y variedad de la alimentación en hogares mexicanos con niños menores de cinco años (Food insecurity and variety of food in Mexican households with children under five years). Salud Públ Méx 56, Suppl. 1, S21S30.CrossRefGoogle Scholar
Popkin, B & Ng, SW (2007) The nutrition transition in high- and low-income countries: what are the policy lessons? Agric Econ 37, 199211.CrossRefGoogle Scholar
Popkin, B (2002) An overview on the nutrition transition and its health implications: the Bellagio meeting. Public Health Nutr 5, 93103.Google ScholarPubMed
de Onis, M, Borghi, E, Arimond, M et al. (2019) Prevalence thresholds for wasting, overweight and stunting in children under 5 years. Public Health Nutr 22, 175179.Google ScholarPubMed
FAO, UNICEF, International Fund for Agricultural Development (IFAD) et al. (2019) The State of Food Security and Nutrition in the World: Safeguarding Against Economic Slowdowns and Downturns. Rome: FAO.Google Scholar
Jaacks, LM, Slining, MM & Popkin, B (2015) Recent underweight and overweight trends by rural–urban residence among women in low- and middle-income countries. J Nutr 145, 352357.CrossRefGoogle ScholarPubMed
NCD Risk Factor Collaboration (2019) Rising rural body-mass index is the main driver of the global obesity epidemic in adults. Nature 569, 260264.CrossRefGoogle Scholar
WHO (2017) The double burden of malnutrition: policy brief. http://www.who.int/nutrition/publications/doubleburdenmalnutrition-policybrief/en/ (accessed March 2020).Google Scholar
Dwivedi, AK, Dubey, P, Cistola, DP et al. (2020) Association between obesity and cardiovascular outcomes: updated evidence from meta-analysis studies. Curr Cardiol Rep 22, 119.CrossRefGoogle ScholarPubMed
Wittenbecher, C, Kuxhaus, O, Boeing, H et al. (2019) Associations of short stature and components of height with incidence of type 2 diabetes: mediating effects of cardiometabolic risk factors. Diabetologia 62, 22112221.CrossRefGoogle ScholarPubMed
Alam, MA, Richard, SA, Fahim, SM et al. (2020) Impact of early-onset persistent stunting on cognitive development at 5 years of age: results from a multi-country cohort study. PLOS ONE 15, 116.Google ScholarPubMed
Gubert, MB, Spaniol, AM, Segall-Corrêa, AM et al. (2017) Understanding the double burden of malnutrition in food insecure households in Brazil: dual-burden malnutrition and food insecurity. Matern Child Nutr 13, e12347.CrossRefGoogle Scholar
Mahmudiono, T, Nindya, T, Andrias, D et al. (2018) Household food insecurity as a predictor of stunted children and overweight/obese mothers (SCOWT) in Urban Indonesia. Nutrients 10, 535.CrossRefGoogle Scholar
Ministerio de Salud y Protección Social (2016) Resolución 2465 de 2016 (Resolution 2465 of 2016). https://www.minsalud.gov.co/Normatividad_Nuevo/Resolucion%202465%20de%202016.pdf (accessed March 2020).Google Scholar
Kearns, K, Dee, A, Fitzgerald, AP et al. (2014) Chronic disease burden associated with overweight and obesity in Ireland: the effects of a small BMI reduction at population level. BMC Public Health 14, 110.CrossRefGoogle ScholarPubMed
Lu, Y, Hajifathalian, K, Ezzati, M et al. (2014) Metabolic mediators of the effects of body-mass index, overweight, and obesity on coronary heart disease and stroke: a pooled analysis of 97 prospective cohorts with 1·8 million participants. Lancet 383, 970983.Google ScholarPubMed
Comité Científico de la ELCSA (2012) Escala Latino Americana y Caribeña de Seguridad Alimentaria (ELCSA) – Manual de Uso y Aplicación (Latin American and Caribbean Food Security Scale (ELCSA) – Handbook of Use and Application). Roma: FAO.Google Scholar
Dahlgren, G & Whitehead, W (1991) Policies and Strategies to Promote Social Equity in Health. Stockholm: Institute for Future Studies.Google Scholar
Liao, D & Valliant, R (2012) Variance inflation factors in the analysis of complex survey data. Surv Methodol 38, 5362.Google Scholar
Hosmer, DW, Lemeshow, S, Sturdivant, RX et al. (2013) Applied Logistic Regression, 3rd ed. New Jersey: John Wiley & Sons, Inc.CrossRefGoogle Scholar
Sarmiento, OL, Parra, DC, González, SA et al. (2014) The dual burden of malnutrition in Colombia. Am J Clin Nutr 100, Suppl. 6, S1628S1635.CrossRefGoogle ScholarPubMed
Garrett, JL & Ruel, MT (2005) Stunted child–overweight mother pairs: prevalence and association with economic development and urbanization. Food Nutr Bull 26, 209221.CrossRefGoogle ScholarPubMed
Dieffenbach, S & Stein, AD (2012) Stunted child/overweight mother pairs represent a statistical artifact, not a distinct entity. J Nutr 142, 771773.CrossRefGoogle Scholar
Jehn, M & Brewis, A (2009) Paradoxical malnutrition in mother–child pairs: untangling the phenomenon of over- and under-nutrition in underdeveloped economies. Econ Hum Biol 7, 2835.CrossRefGoogle ScholarPubMed
Conde, WL & Monteiro, CA (2014) Nutrition transition and double burden of undernutrition and excess of weight in Brazil. Am J Clin Nutr 100, Suppl. 6, S1617S1622.CrossRefGoogle ScholarPubMed
Monteiro, CA, Moura, EC, Conde, WL et al. (2004) Socioeconomic status and obesity in adult populations of developing countries: a review. Bull World Health Organ 82, 940946.Google ScholarPubMed
The World Bank Group (2019) GDP per capita (current US$) – Latin America & Caribbean: data. https://data.worldbank.org/indicator/NY.GDP.PCAP.CD?locations=ZJ (accessed March 2020).Google Scholar
Lee, J, Houser, RF, Must, A et al. (2012) Socioeconomic disparities and the familial coexistence of child stunting and maternal overweight in Guatemala. Econ Hum Biol 10, 232241.CrossRefGoogle ScholarPubMed
Wibowo, Y, Sutrisna, B, Hardinsyah, H et al. (2015) Relationship between intra-household food distribution and coexistence of dual forms of malnutrition. Nutr Res Pract 9, 174179.CrossRefGoogle ScholarPubMed
Popkin, B & Reardon, T (2018) Obesity and the food system transformation in Latin America. Obes Rev 19, 10281064.CrossRefGoogle ScholarPubMed
Freire, WB, Silva-Jaramillo, KM, Ramírez-Luzuriaga, MJ et al. (2014) The double burden of undernutrition and excess body weight in Ecuador. Am J Clin Nutr 100, Suppl. 6, S1636S1643.CrossRefGoogle ScholarPubMed
Das, S, Fahim, SM, Islam, MS et al. (2019) Prevalence and sociodemographic determinants of household-level double burden of malnutrition in Bangladesh. Public Health Nutr 22, 14251432.CrossRefGoogle ScholarPubMed
Kroker-Lobos, MF, Pedroza-Tobías, A, Pedraza, LS et al. (2014) The double burden of undernutrition and excess body weight in Mexico. Am J Clin Nutr 100, Suppl. 6, S1652S1658.CrossRefGoogle ScholarPubMed
Oddo, VM, Rah, JH, Semba, RD et al. (2012) Predictors of maternal and child double burden of malnutrition in rural Indonesia and Bangladesh. Am J Clin Nutr 95, 951958.CrossRefGoogle ScholarPubMed
Doak, CM, Campos Ponce, M, Vossenaar, M et al. (2016) The stunted child with an overweight mother as a growing public health concern in resource-poor environments: a case study from Guatemala. Ann Hum Biol 43, 122130.CrossRefGoogle ScholarPubMed
Addo, OY, Stein, AD, Fall, CH et al. (2013) Maternal height and child growth patterns. J Pediatr 163, 549554.CrossRefGoogle ScholarPubMed
Felisbino-Mendes, MS, Villamor, E & Velasquez-Melendez, G (2014) Association of maternal and child nutritional status in Brazil: a population based cross-sectional study. PLoS ONE 9, e87486.CrossRefGoogle ScholarPubMed
Ferreira, HS, Moura, FA, Cabral Júnior, CR et al. (2008) Short stature of mothers from an area endemic for undernutrition is associated with obesity, hypertension and stunted children: a population-based study in the semi-arid region of Alagoas, Northeast Brazil. Br J Nutr 101, 12391245.CrossRefGoogle ScholarPubMed
Hernández-Díaz, S, Peterson, K & Dixit, S (1999) Association of maternal short stature with stunting in Mexican children: common genes v. common environment. Eur J Clin Nutr 53, 938945.CrossRefGoogle Scholar
Özaltin, E, Hill, K & Subramanian, SV (2010) Association of maternal stature with offspring mortality, underweight, and stunting in low- to middle-income countries. JAMA 303, 15071516.CrossRefGoogle ScholarPubMed
Varela-Silva, MI, Azcorra, H, Dickinson, F et al. (2009) Influence of maternal stature, pregnancy age, and infant birth weight on growth during childhood in Yucatan, Mexico: a test of the intergenerational effects hypothesis. Am J Hum Biol 21, 657663.CrossRefGoogle ScholarPubMed
Martorell, R & Zongrone, A (2010) Intergenerational influences on child growth and undernutrition: intergenerational influences. Paediatr Perinat Epidemiol 26, 302314.CrossRefGoogle Scholar
Sichieri, R, Silva, CVC & Moura, AS (2003) Combined effect of short stature and socioeconomic status on body mass index and weight gain during reproductive age in Brazilian women. Braz J Med Biol Res 36, 13191325.CrossRefGoogle ScholarPubMed
Sawaya, AL & Roberts, S (2003) Stunting and future risk of obesity: principal physiological mechanisms. Cad Saúde Pública 19, Suppl. 1, S21S28.CrossRefGoogle ScholarPubMed
Martins, PA, Hoffman, DJ, Fernandes, MTB et al. (2004) Stunted children gain less lean body mass and more fat mass than their non-stunted counterparts: a prospective study. Br J Nutr 92, 819825.CrossRefGoogle ScholarPubMed
Adair, LS, Fall, CH, Osmond, C et al. (2013) Associations of linear growth and relative weight gain during early life with adult health and human capital in countries of low and middle income: findings from five birth cohort studies. Lancet 382, 525534.CrossRefGoogle ScholarPubMed
Reinhardt, K & Fanzo, J (2014) Addressing chronic malnutrition through multi-sectoral, sustainable approaches: a review of the causes and consequences. Front Nutr 1, 13.CrossRefGoogle ScholarPubMed
Barker, DJP, Eriksson, J, Forsén, T et al. (2002) Fetal origins of adult disease: strength of effects and biological basis. Int J Epidemiol 31, 12351239.CrossRefGoogle ScholarPubMed
Barker, DJP, Gelow, J, Thornburg, K et al. (2010) The early origins of chronic heart failure: impaired placental growth and initiation of insulin resistance in childhood. Eur J Heart Fail 12, 819825.CrossRefGoogle ScholarPubMed
Hawkes, C, Ruel, MT, Salm, L et al. (2020) Double-duty actions: seizing programme and policy opportunities to address malnutrition in all its forms. Lancet 395, 142155.CrossRefGoogle ScholarPubMed
Figure 0

Table 1 Descriptive characteristics of children and mother’s pairs according to all covariates

Figure 1

Table 2. Household food security and children and mother’s nutritional status

Figure 2

Table 3 Prevalence of food insecurity (by severity levels) across covariates

Figure 3

Fig. 1 Maternal OWOB, child stunting and SCOWT by food insecurity severity levels. OWOB, overweight or obesity; SCOWT, stunted child and overweight or obese mother. Chi-squared test: P <0·05

Figure 4

Table 4 Maternal OWOB, child stunting and SCOWT according to covariates

Figure 5

Table 5 Crude and fully adjusted model for maternal OWOB, child stunting and SCOWT