Adequate and healthy complementary feeding in the first years of life guarantees child growth, development, and health and thus represents an important aspect of health-related quality of life(1–Reference Victora, Adair and Fall3). The introduction of healthy complementary feeding is the third most effective action, with the potential to prevent 6 % of deaths in children under 5 years, behind only exclusive breast-feeding and immunisation(Reference Jones, Steketee and Black4).
Furthermore, early childhood is an extremely important period for the formation of food preferences once the dietary patterns (DP) is established, with the discovery of a variety of textures and flavours, and can be maintained in the subsequent stages of life(Reference Movassagh, Baxter-Jones and Kontulainen5,Reference Cosmi, Scaglioni and Agostoni6) . Although DP reflects food preferences, it is influenced by the family context in which the child is inserted, mainly by socio-economic factors(Reference Rinaldi and Conde7,Reference Canuto, Camey and Gigante8) . According to the most recent Brazilian Household Budget Survey (POF)(9), families with lower economic income spend six times less on food expenditure than families with higher income.
Given the huge income inequalities observed in Brazil, associated with the difficult access to basic human development services (education, nutrition and health), from 2003 onwards, the Brazilian government merged several social programmes into a unified conditional cash transfer programme, the Bolsa Família Program (BFP)(10).
In a study that assessed the impact of BFP implementation during its first 5 years, it was identified that the programme contributed to the reduction in the infant mortality rate, particularly owing to the reduction in conditions associated with poverty-related deaths, such as malnutrition and diarrhoea. The authors also reported that the beneficial results of the BFP were related to the conditional adherence of families, particularly children, to health services(Reference Rasella, Aquino and Santos11).
However, previous studies point to the higher consumption of unhealthy foods by children assisted by the BFP(Reference Saldiva, Silva and Saldiva12,Reference Lignani, Sichieri and Burlandy13) . The consumption of ultra-processed foods (UPF) among the most vulnerable populations is possibly related to its low cost and the increase in purchasing power provided by the increase in income by the BFP(Reference Lignani, Sichieri and Burlandy13–Reference Monteiro, Cannon and Levy15).
The first 2 years of life is the stage in which the human being has the highest growth and development rate; therefore, inadequate nutrition during this period can lead to irreversible linear growth impairment, delay in cognitive and motor development, increased risk of overweight, and chronic non-communicable diseases(1,Reference Black, Victora and Walker16–Reference Bhutta, Das and Rizvi18) . Hence, this study aimed to identify the DP of children aged 6–24 months assisted by the BFP in Alagoas and verify the association between socio-economic factors and DP.
Methods
Design
This is a cross-sectional study and is part of a larger project titled Evaluation of the Management and Operation of the National Program for Iron and Vitamin A Supplementation and Their Relationship with the Nutritional Status of Children Aged 6–24 Months in Municipalities of Alagoas State.
Setting and sample selection
Children aged 6–24 months assisted by the BFP and residents of six municipalities in the State of Alagoas in the north-east region of Brazil were eligible for enrolment. The six municipalities cover all physiographic regions of the State of Alagoas: Pilar (Metropolitan Region), Murici (Zona da Mata), Teotônio Vilela (South Region), São Luís do Quitunde (Northern Region), Pão de Açúcar (Sertão), and Batalha (Agreste) and are included in the present study since their participation in the ‘Early Childhood Program of the State of Alagoas’. This programme has selection criteria to enrol only municipalities that have total coverage of the Brazilian primary care, Family Health Strategy, and at least one team from the Family Health Support Centers (NASF). The state’s early childhood programme aims to contribute to improving the quality of life of pregnant women, nursing mothers and children through intersectoral actions developed in the areas of health, nutrition, education and social assistance. The main socio-demographic characteristics of all municipalities are reported in the online supplementary material.
The calculated sample size was based on the following criteria: expected relative risk for 1:1 ratio of children aged 6–24 months with anaemia and an inadequate minimum dietary diversity according to the study by Saaka and Galaa(Reference Saaka and Galaa19), with 73·2 % of unexposed, 95 % CI and 80 % power. The ratio between the number of children assisted by BFP per municipality and the total number of children assisted by BFP in all six municipalities was calculated to define the sample size in each municipality of the study; therefore, each ratio was individually multiplied by the total sample size. Therefore, the total sample size was calculated to be 1132 children in all 6 municipalities. The number of children assisted by BFP was obtained from the Single Registry system database provided by the State of Alagoas Secretariat of Social Assistance and Development. The sample size was calculated using StatCalc Epi Info version 7.2.2.2 (Center for Diseases Control and Prevention, Atlanta, USA).
Eligible children were identified using the health monitoring map of the BFP-assisted children by municipality, which invited their caregivers to attend the Community Health Centre (CHC) for participation in the study. All families of eligible children were invited by community health workers and through wide dissemination in local media, such as community radio stations or during appointments with health professionals at the CHC. Despite these efforts, a non-probabilistic convenience sampling approach was used, as only children who attended the CHC scheduled for data collection were included. Studies in the municipalities had the consent and partnership of the Municipal and State Health Departments.
Children whose caregivers reported a diagnosis of genetic or autoimmune haematological diseases (sickle cell disease, haemolytic, sideroblastic, and aplastic anaemia, Fanconi anaemia, and thalassemia) or had previously been diagnosed with non-iron deficiency anaemia and nutritionally related type of anaemia (megaloblastic and pernicious anaemia), and those whose mothers had mental health conditions were excluded from the study (n 349). In addition, in families with more than one child within the inclusion criteria, only the oldest was selected to participate. In the cases of twin siblings, the included children were randomly selected.
Data collection
Data were collected between May and December 2018 by trained staff composed of four nutritionists and ten technical assistants. Children’s caregivers were interviewed using a structured questionnaire about socio-demographic, health and environmental issues. Information on family income, sanitation, housing location and the number of residents per household was obtained from secondary data through the Consultation, Selection, and Information Extraction database of the Unified Registry for Social Programs of the Brazilian government (Cadastro Único) using the social registration number (NIS) of each individual provided by the state government.
Food consumption assessment
The questionnaire for the assessment of food consumption was based on a questionnaire to assess eating habits of children under 2 years of age, as proposed by Oliveira et al.(Reference Oliveira, Castro and Silva20), which allowed us to verify the consumption of eighteen food and food groups, namely, breast milk, milk (non-breast milk), fruit juice, industrialised (sweetened) juices/soda, coffee/tea, fruits, greens, vegetables, rice/potato/yam/manioc/pasta, beans, meats, eggs, processed meats, cookies/biscuit, instant noodles, porridge, added sugar and candies. The consumption of these food and food groups (yes/no) was referred to the day before the interview. Subsequently, the food groups were classified according to the NOVA(Reference Monteiro, Cannon and Lawrence21) classification: fresh/minimally processed foods, processed foods and UPF.
Household food insecurity
Food insecurity (FI) was assessed using the Brazilian Household Food Insecurity Measurement Scale (EBIA), with fourteen questions (yes or no) about the food-access situation experienced at home in the last 90 d before the interview. Its analysis is based on the sum of the affirmative answers, classified as Household Food Security, and mild, moderate or severe household FI(Reference Pérez-Escamilla, Segall-Corrêa and Maranha22).
Statistical analysis
Data were tabulated by double independent typing and were analysed using the statistical package Stata se® 13.0 (StataCorp.) with a significance level set at 5 %. Socio-economic, demographic, household food security and food consumption variables are described in absolute and relative frequencies. The chi-square test was used to compare socio-economic and consumption of food and food group data according to the municipalities in the study. Bonferroni correction was performed to identify the inter-municipal differences.
Barlett’s test was applied, and the results were statistically significant (P < 0·0001). Therefore, the correlation matrix was not an identity matrix, and our food data were suitable for principal component analysis (PCA). All eighteen food group variables were considered in the PCA, and they were configurated with a ‘yes/no’ answer (dummy variable). We used Kaiser–Meyer–Olkin (KMO) to analyse the compliance of variables with PCA.
The number of DP was defined based on eigenvalues higher than 1·1 and eigenvectors (loadings) higher than 0·2. After DP extraction, varimax orthogonal rotation was applied to improve DP interpretation. Values greater than 0·7 are considered acceptable. After setting the DP, a pattern score was calculated for each individual in each pattern. The values of each DP score represented the closeness of the child to DP, and if the DP score was high and positive, the probability of adherence was higher. Each identified DP was considered an outcome variable.
The association between socio-economic and demographic characteristics and standardised DP scores was verified by multilevel linear regression analysis, with random data for each DP outcome. At the individual level, the caregivers’ age and education (years), children’s age and gender, housing location, household per capita income, and household food security were included. All six cities were included at the contextual level. The theoretical model proposed to assess factors associated with children’s DP is reported in the online supplementary material (see online Supplemental Fig. S1). The intraclass correlation coefficient was estimated to calculate the proportion of variance explained by the different characteristics between cities.
Results
This study included 1604 children aged 6–24 months. Table 1 shows the socio-demographic characteristics of the municipalities. The percentage of the number of residents assisted by the BFP ranged from 59·3 % in Batalha to 40·1 % in Teotônio Vilela. All municipalities had a low level of Human Development Index (HDI), except for Pilar (average HDI), and urbanisation rate above 60·0 %, except for Pão de Açúcar (45·2 %).
BFP, Bolsa Família Program.
* Data obtained from the Brazilian Demographic Census 2010 (IBGE, 2011).
† Data obtained from the Consultation, Selection, and Information Extraction database (CECAD) provided by the state government of Alagoas.
Regarding the socio-economic and demographic characteristics of the children (Table 2), 85·0 % lived in urban areas, approximately 93·0 % of the families were in extreme poverty, 41·5 % of the caregivers had less than 9 years of study and 66·5 % of the families were in FI. The prevalence of FI in São Luís do Quitunde (76·6 %) was significantly higher than that in Murici (58·0 %), Pilar (62·6 %) and Teotônio Vilela (65·0 %). The prevalence of FI in Batalha and Pão de Açúcar did not differ from the others.
* Data obtained from the Consultation, Selection, and Information Extraction database (CECAD) provided by the state government of Alagoas.
† Household per capita income does not include the value received by the Bolsa Família Program.
‡ Amount referring to half the minimum wage inreais in 2018 (minimum wage in 2018 = R$ 954·00); in December 2018, $1·00 USD was approximately R$ 3·88.
a,b,c,d,eBonferroni correction: Values with different superscripts are significantly different, with an adjusted P-value < 0·003.
Regarding food intake (Table 3), 59·0 % of the children were still breast-feeding, and 80·6 % consumed beans, 75·7 %, fruits, 68·1 %, meats, and only 21·9 %, eggs. The municipality of Pão de Açúcar had a significantly higher prevalence of consumption of beans (100 %) and eggs (46·8 %) compared to other municipalities. Notably, 57·6 % of the children consumed the added sugar.
* Values are presented as the total number (n) and frequency (%) for categorical variables.
a,b,c,d,eBonferroni correction: Values with different superscripts are significantly different, with an adjusted P-value < 0·003.
Four DP were identified (Table 4). The first dietary pattern (DP1) was composed mainly of staple foods of the traditional Brazilian diet (vegetables, rice, potatoes, yams, manioc, pasta, beans, meats and cookies/biscuits). The second dietary pattern (DP2) was formed mainly by industrialised juice/soft drinks, processed meats, instant noodles and candies, except for eggs and coffee/tea. The third dietary pattern (DP3) consisted of replacing breast milk with other types of milk (non-breast milk) with added sugar. Finally, the fourth dietary pattern (DP4) comprised only fresh and minimally processed foods (fruit juice, fruits and green).
DP, dietary patterns; KMO, Kaiser–Meyer–Olkin.
* DP1: Traditional Brazilian food.
† DP2: Ultra-processed foods.
‡ DP3: Milk (non-breast milk) with added sugar.
§ DP4: Fresh and minimally processed foods.
Table 5 shows the association between the socio-economic and demographic characteristics of the children and DP. Household per capita income was negatively associated with DP1 (β = −0·794; (95 % CI −1·351, −0·236)). Younger (β = −0·008; (95 % CI −0·017, −0·000)) and less educated caregivers (β = −0·037; (95 % CI −0·056, - 0·018)) were associated with DP2. A negative association was found between household per capita income and DP3 (β = −0·502; (95 % CI −0·995, 0·009)). We also observed a negative association between the families’ FI situation (β = −0·204; (95 % CI −0·331, −0·078)) and DP4 and a positive association between age (β = 0·011; (95 % CI 0·003, 0·019)) and caregivers’ education (β = 0·043; (95 % CI 0·025, 0·061)). Multilevel analysis revealed that 12 % of the variation in the DP2 score was explained by the municipality where the child and the family lived (Table 5). DP2 was the DP with the greatest variation explained by the municipality of residence.
DP, dietary patterns; Ref, reference variable; ICC, intraclass correlation coefficient.
* Data obtained from the Consultation, Selection, and Information Extraction database (CECAD) provided by the state government of Alagoas.
† Dummy variable (urban and rural). The urban variables were defined as the reference category.
‡ Household per capita income does not include the value received by the Bolsa Família Program.
§ Amount referring to half the minimum wage inreais in the year of 2018 (minimum wage in 2018 = R$ 954·00); in December 2018, $1·00 USD was approximately R$ 3·88.
|| Dummy variable (food security and insecurity). The food security variable is defined as the reference category.
¶ Dummy variable (females and males). The female variable was defined as the reference category.
Discussion
We highlight the two main results of our study. DP2, mainly compounded by UPF, was associated with the caregivers’ minor age and lower education, while DP4, compounded by a healthier diet based on fresh and minimally processed foods, was associated with household food security and with caregivers with higher education and older age.
These findings point to the presence of socio-economic inequities related to the DP of children under 2 years of age assisted by BFP in the State of Alagoas. This indicates that, on its own, the BFP is not sufficient to guarantee the food and nutritional security of individuals. Apparently, only quantitative access to food is achieved, while qualitative access is impaired by the set of socio-economic factors in which individuals are inserted.
Similar to our study, other authors have also associated DP characterised by the presence of UPF (DP2) with low socio-economic status, lower educational level and maternal age(Reference Santos, Assunção and Matijasevich23–Reference Galvan-Portillo, Sánchez and Cárdenas-Cárdenas26). This indicates that the caregivers’ higher education is related to greater purchasing power and access to health information, which can lead to healthier food choices and purchases. In addition, considering the massive advertising of UPF by the food industry, caregivers with older age and higher educational level may have a greater capacity to critisise and lower vulnerability to media influences(Reference Wijtzes, Jansen and Jansen27–Reference Toloni, Longo-Silva and Konstantyner29). These data support the association found between the healthiest DP, composed of fresh and minimally processed foods (DP4), with the best socio-demographic indicators. We also highlight that DP4 presented the least variance explanation in the PCA. The consumption of fresh and minimally processed foods may indicate greater dedication to the preparation of the food itself. Martins et al. (Reference Martins, Machado and Louzada30) showed that children of parents with culinary skills consume less UPF, which reinforces the role of cooking as a tool for the protection and promotion of adequate and healthy food consumption. According to the Dietary Guidelines for Brazilian children under 2 years old(31), an adequate and healthy diet should be based on the consumption priority of fresh or minimally processed foods, while the UPF should not be offered to children under 2 years old.
Another pattern observed in this study is that DP1, characterised by both the staple foods of the traditional Brazilian diet and higher variance percentage explained in the PCA, can also be classified as healthy. However, Souza et al. (Reference Souza, Madruga and Gigante32) emphasise that this can be considered a monotonous pattern because although it is composed of necessary foods for adequate infant nutrition, it does not include fruits and greens, which in our study belonged to DP4. In contrast, DP1 also encompasses a group of vegetables, an ingredient often used in local culture for the preparation of porridge.
Although DP1 is usually reported as traditional by studies focusing on the PCA for assessing food consumption, it presents considerable differences in food groups concerning the local culture where the studies are conducted. In addition, this type of DP is commonly related to low-income families(Reference Borges, Rinaldi and Conde33–Reference Nobre, Lamounier and Franceschini38). Moreover, in the present study, DP1 was inversely associated with the highest per capita income, indicating maintenance of the regional food culture, mainly composed of the consumption of roots (manioc, sweet potatoes and yams), vegetables, and the typical Brazilian combination of ‘beans and rice.’ Although this aspect was not evaluated, considering the local culture, it is possible to infer that the maintenance of this regional food culture is related to family farming, whose families have the habit of planting roots. Also noteworthy is the usual offer of cookies/biscuits (UPF), reaching an alarming consumption frequency of almost 75 % among the children studied.
An increase in the consumption of UPF has been observed in recent decades in Brazil and worldwide. The new food system, shaped by international policies to promote the flow of capital and the rapid expansion of trade, opened the market for the establishment of large food industries and fast-food chains(Reference Monteiro and Cannon39,Reference Rayner, Hawkes and Lang40) . In addition, marketing and the massive influence of the media have contributed to changes in the design of an ideal diet(Reference Popkin, Corvalan and Grummer-Strawn41). The changes in the current food system are reflected in culinary practices with the search for greater practicality in preparing meals. Thus, previous studies indicate that the traditional Brazilian diet, based on the consumption of fresh food, minimally processed foods, and processed culinary ingredients, has been gradually replaced by UPF(Reference Monteiro, Levy and Claro42–Reference Monteiro, Moubarac and Cannon45).
Studies conducted with children assisted by BFP observed that despite the programme having enhanced food diversity, it also leads to unhealthy food choices, with greater consumption of UFP(Reference Saldiva, Silva and Saldiva12,Reference Lignani, Sichieri and Burlandy13,Reference Marçal, Mendes and Fragoso46) . Marçal et al. (Reference Marçal, Mendes and Fragoso46) observed a high consumption of UPF with discontinuation of breast-feeding among children under 2 years of age who were assisted by BFP. Moreover, as much as the increase in income provided by the BFP’s income transfer leads beneficiaries to greater access to food, it does not guarantee its adequacy in terms of nutritional quality. Fresh and minimally processed foods, such as meats, fruits, greens and vegetables, in general, have the highest cost, which means that families tend to buy more UPF, which is usually hyper-palatable and has a lower cost(Reference Lignani, Sichieri and Burlandy13,Reference Claro, Maia and Costa47) . However, we highlight the importance and necessity of health promotion and healthy nutrition actions conducted by the CHC workers during the monitoring of compliance with the BFP conditionalities in the health field, such as monitoring child growth and development and vaccination of children under 7 years old.
The consumption of UPF in the window of the first 1000 d, a period that includes the child’s conception until the second year of life, may result in excessive body weight gain and thus damage child growth (stunting), resulting in the phenomenon known as the double burden of malnutrition(Reference Popkin, Corvalan and Grummer-Strawn41,Reference Wells, Sawaya and Wibaek48–Reference Huffman, Piwoz and Vosti51) . Double burden of malnutrition is characterised by the coexistence of undernutrition (micronutrient deficiency, low weight for age, stunting and wasting), overweight and non-communicable diseases related to food(Reference Popkin, Corvalan and Grummer-Strawn41,Reference Wells, Sawaya and Wibaek48) . Exposure to malnutrition in all its forms during this critical period of child development can result in loss of human potential, with the perpetuation of the intergenerational cycle of poverty and malnutrition(Reference Victora, Adair and Fall3,Reference Wells, Sawaya and Wibaek48) .
Finally, the association of DP3, which consisted of replacing breast milk with other types of milk (non-breast milk) with added sugar, was inversely associated with a higher per capita household income range. In contrast to this observation, it has been reported that breast-feeding should be even more prioritised when financial resources are insufficient for the acquisition of food, avoiding unnecessary expenses with the acquisition of other sources of milk(Reference Wong, Parkin and Moodie52,Reference Lesorogol, Bond and Dulience53) . However, Bayoumi et al. (Reference Bayoumi, Parkin and Birken54) observed that children from low-income families are more likely to be fed infant formula in the first year of life and drink more than two cups of cow’s milk/d, along with a shorter duration of breast-feeding. Conversely, Victora et al. (Reference Victora, Bahl and Barros55) observed that in 98 low- and middle-income countries, mothers with lower economic income were more likely to breastfeed longer than mothers with higher income. Following the same rationale, Lamounier et al. (Reference Lamounier, Azeredo and Antunes56) associated the shorter duration of breast-feeding with higher levels of maternal education and higher income quintiles in five Latin American countries. However, despite the differences found between the per capita income brackets, it is noteworthy that our entire sample lived in extreme poverty, which can explain, at least in part, the differences observed.
Many studies have shown a high frequency of consumption of other types of milk at an early age, with cow’s milk as the most consumed type(31,Reference Bortolini, Vitolo and Gubert57,Reference Wijndaele, Lakshman and Landsbaugh58) . According to the Dietary Guidelines for Brazilian children under 2 years old(31), on average, two-thirds of Brazilian children under 6 months of age have already received another type of milk, mainly cow’s milk, which is usually supplemented with sugar and flour. Wijndaele et al.(Reference Wijndaele, Lakshman and Landsbaugh58) associated the early introduction of cow’s milk to a family with low socio-economic level. Therefore, the importance of strengthening the actions promoted by the National Strategy for the Promotion of Breastfeeding and Healthy Complementary Food in the Brazilian Unified Health System (SUS) – the Brazilian Breastfeeding and Complementary Feeding Strategy – is emphasised to qualify the work process of primary care professionals that reinforces and encourages the promotion of breast-feeding and healthy eating habits for children under 2 years of age within the scope of the SUS(59).
It is important to consider that the present study has some limitations. First, the questionnaire method used to assess infant feeding practices has potential memory response bias and may represent an atypical feeding day that does not represent long-term eating patterns. However, we followed the recommended research method using a questionnaire for the evaluation of the WHO indicators for assessing infant and young child feeding practices(60). This method is widely used and is considered appropriate in food consumption studies when the objective is to describe infant feeding practices in populations(Reference Pérez-Escamilla, Segall-Corrêa and Maranha22). Another limitation is the non-probabilistic sampling approach, which may cause selection bias, including only those who have more access to health services and possibly greater health care. However, we reinforce that all eligible children were invited to participate in the study, and the data collection was performed in all CHC in the municipalities, both in urban and rural areas. However, because of the diversity of DP, it is assumed that the results would not be different.
Despite the limitations observed, this study provides important information regarding the DP of children under 2 years of age assisted by BFP in the State of Alagoas. We highlight the identification of DP through PCA in an age group in which studies with this approach are scarce. Given the socio-economic similarities of the studied population with those of other parts of the country and the world, the results of this study could be extrapolated to other regions.
In conclusion, this study shows the influence of socio-demographic characteristics, mainly FI and caregivers’ low age and education, on the formation of eating patterns early in life in children assisted by BFP in the State of Alagoas. Given that food choices are not only guided by economic conditions but also multi-determined and conditioned by different aspects, such as the influence of media, climatic conditions, psychosocial, educational, cultural, political, ethical and religious factors(Reference Lignani, Sichieri and Burlandy13,61–63) , the present findings reinforce the need to strengthen and/or implement intersectoral public policies together with the BFP. Attending this matter is highly necessary to guarantee the Human Right to Adequate Food at promoting food and nutritional security and actions that include the regulation of unhealthy food dissemination, thus contributing to health promotion and combating double burden of malnutrition.
Acknowledgements
Acknowledgements: The research in the municipalities had the consent and partnership of the Municipal and State Health Departments. Financial support: This work is part of a larger project entitled: Evaluation of the management and operationalisation of the National Program for Iron and Vitamin A Supplementation and their relationship with the nutritional status of children aged 6 to 24 months in municipalities of Alagoas state, carried out with funds from Conselho Nacional de Desenvolvimento Científico e Tecnológico – CNPq (process number 408445/2017-3). The funder had no role in the design, analysis or writing of this article. Authorship: M.M.M. participated in designing the study, acquisition of data, data entry, analysis and interpretation of the data, and drafting the article. G.M.M., A.E.M.R., T.M.M.F. and N.B.B took part in the acquisition of data, data entry, analysis and interpretation, and writing. A.P.G.C. took part in the project’s conception, obtained the respective financial support, coordinated all implementation steps and realised the final review of the article. All authors approved the final version to be submitted. 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 Ethics Committee in Research of Alagoas Federal University (process number 80416617.0.0000.5013). The mothers or legal guardian of each participating child aged 6–24 months gave written informed consent.
Conflict of interest:
There are no conflicts of interest.
Supplementary material
For supplementary material accompanying this paper visit https://doi.org/10.1017/S1368980021004110