Breastfeeding and feeding practices in the first year of life and its association with overweight and obesity of children in Mexico

Arredondo, Armando; Lugo, Oscar Benjamin Reséndiz; Orozco, Emanuel; Rosa, Christian Paul Torres de la

doi:10.1590/1806-93042021000400009

Abstract

Objectives:

to evaluate feeding practices in the first year of life and their association with the development of overweight and obesity in children in Mexico.

Methods:

the association between overweight and obesity with different feeding practices were evaluated. The data was processed using the statistical package Stata version 14 using logistic regression models.

Results:

396 children were evaluated; the prevalence of overweight and obesity was 6% and 7.7% presented a possible risk of overweight. 6.9% had exclusive breastfeeding in the first 6 months of life and 71.7% were fed infant formula. The variables significantly associated with the development of overweight and obesity in the first year of life were the age of the child (p =0.043, RR=0.57), the introduction of fluids in the first three days of life (p=0.02, RR=2.90), consumption of foods with a high sugar content (p =0.01, RR=0.25), consumption of milk other than breast (p =0.02, RR3.25) and egg consumption (p =0.05; RR=0.28).

Conclusions:

our results show that it is essential to attend complementary feeding practices and reinforce exclusive breastfeeding in the first year of life, as measures to prevent overweight and obesity to improve health in childhood.

Key words:
Breastfeeding; Overweight; Obesity; Infant nutrition

Resumen

Objetivos:

evaluar las prácticas de lactancia y alimentación en el primer año de vida y su asociación con desarrollo del sobrepeso y obesidad de niños en México.

Métodos:

estudio transversal, analítico, y explicativo, se evaluó la asociación entre sobrepeso y obesidad con las distintas prácticas de alimentación en menores de un año de edad.

Resultados:

se evaluaron 396 menores, la prevalencia de sobrepeso y obesidad fue de 6% y 7.7% presentaba posible riesgo de sobrepeso. El 6.9% tuvo lactancia materna exclusiva en los primeros 6 meses de vida; 71.7% fueron alimentados con fórmula infantil. Las variables asociadas significativamente con el desarrollo de sobrepeso y obesidad en el primer año de vida fueron: la edad del menor (p =0.043; RR=0.57), introducción de líquidos en los tres primeros días de vida (p=0.02; RR=2.90), consumo de alimentos con alto contenido de azúcar (p = 0.01; RR=0.25), consumo de leches distintas al pecho (p = 0.02; RR=3.25) y consumo de huevo (p =0.05; RR=0.28).

Conclusiones:

nuestros resultados muestran que es fundamental atender las prácticas de alimentación complementaria y reforzar la lactancia materna exclusiva en el primer año de vida, como medidas de prevención del sobrepeso y obesidad para mejorar la salud en la infancia.

Introduction

The period that includes the prenatal, neonatal, and post-neonatal stages is related to the morphological and physiological development of every human being in the life cycle.¹1 Barker DJP. The origins of the developmental origins theory. J InternMed. 2007; 261 (5): 412-7. Linear growth and nutritional status in the first year will depend on practices and care provided to the infant.²2 Pantoja Ludueña M. Los primeros 1000 días de la vida. Rev Soc Boliv Pediatr. 2015; 54 (2): 60-1.,³3 Victora C. Los mil días de oportunidad para intervenciones nutricionales: de la concepción a los dos años de vida. Arch Argent Pediatr. 2012; 110 (4): 311-7.,⁴4 da Cunha AJ, Leite ÁJ, de Almeida IS. The pediatrician’s role in the first thousand days of the child: the pursuit of healthy nutrition and development. J Pediatr (Rio J). 2015; 91 (6): S44-51.,⁵5 Saavedra JM, Dattilo AM. Nutrition in the First 1000 Days of Life : Society’s Greatest Opportunity a. In: Early Nutrition and Long-Term Health. 2015. p. xxxv–xliv.

Currently, the development of overweight and obesity in early ages is the focus of attention and continues to be part of the Sustainable Development Goals (SDG) despite the stabilization of the phenomenon in recent years.⁶6 OMS (Organización Mundial de la Salud). Informe de la Comisión para acabar con la obesidad infantil. Biblioteca de la OMS; 2016. The World Health Organization (WHO) in 2016, showed that 41 million children under 5 years of age were overweight or obese, this was defined as an abnormal or excessive accumulation of fat which could be harmful to health.⁷7 OMS (Organización Mundial de la Salud). Obesidad y sobrepeso; 2018. According to the National Survey of Health and Nutrition (ENSANUT 2018), the combined prevalence of overweight (OW) and obesity (OB) in children under 5 years old was 8.3%,⁸8 Shamah-Levy T, Vielma-Orozco E, Heredia-Hernández O, Romero-Martínez M, Mojica-Cuevas J, Cuevas-Nasu L, et al. Encuesta Nacional de Salud y Nutrición 2018-19: Resultados Nacionales. Cuernavaca, México: Instituto Nacional de Salud Pública; 2020. lower than that presented in 2012, which was 9.7%.⁹9 Gutiérrez J P, Rivera-Dommarco J, Shamah-Levy T, Villalpando-Hernández S, Franco A, Cuevas-Nasu L, Romero-Martínez M, Hernández-Ávila M. Encuesta Nacional de Salud y Nutrición 2012. Resultados Nacionales. Cuernavaca, México: Instituto Nacional de Salud Pública (MX), 2012

Overweight and obesity in early childhood make it clear that genetic, biological, and social factors combined with the absence of exclusive breastfeeding (EBF), the introduction of food before 6 months of age, the excessive consumption of breast milk substitutes, and inclusion in unhealthy dietary patterns represent a latent risk for the development of multiple comorbidities in childhood. Definitely, during the first two years of life, OW and OB have a greater possibility of suffering from metabolic diseases, diabetes, hypertension, and heart disease in adulthood and of course important consequences in physical and mental health.¹⁰10 Franco LV. Obesidad. Espejismo de salud y belleza en niños lactantes. [Editorial]. Rev Mex Pediatr. 2003; 70 (6): 271-2.,¹¹11 Reilly J, Methven E, McDowell ZC, Hacking B, Alexander D, Stewart L, Kelnar C. Health consequences of obesity. Arch Dis Child. 2003; 88 (9): 748-52.,¹²12 McCormick DP, Sarpong K, Jordan L, Ray LA, Jain S. Infant Obesity: Are We Ready to Make this Diagnosis? J Pediatr. 2010; 157 (1): 15-9.,¹³13 Finer N. Medical consequences of obesity. Med (United Kingdom). 2015; 43 (2): 88-93.

The development of this work contributes to the evidence on the importance of EBF in children under two years of age, as well as emphasizes the social gaps that exist around the subject, in the same, way it is emphasized that at this age there is high consumption of energy-dense foods and low nutritional quality.

The purpose of this manuscript is to evaluate breastfeeding and feeding practices in the first year of life and their association with the development of overweight and obesity in Mexican children.

Methods

Study based on a cross-sectional, analytical, descriptive, and explanatory design with prospective temporality. The sample size corresponds to 396 children under 1 year of age, descendants of women belonging to a cohort in Mexico “NUTTSEA”.¹⁴14 Arredondo A, Torres C, Orozco E, Pacheco S, Huang F, Zambrano E, Bolaños-Jiménez F. Socio-economic indicators, dietary patterns, and physical activity as determinants of maternal obesity in middle-income countries: Evidences from a cohort study in Mexico. Int J Health Plann Manage. 2018; (August): 1-13.,¹⁵15 Arredondo A, Torres C, Orozco E, Pacheco S, Huang F, Zambrano E. Indicadores socioeconómicos de la obesidad materna en México y Francia. Análisis comparado de dos cohortes. Rev Salud Pública. 2018; 20 (2): 245-53. Inclusion criteria were considered a) to be a mother-child binomial of the NUTTSEA cohort and b) to have complete anthropometric data. Data collection was carried out through the questionnaire "Parenting practices in the first 3 years of life" addressed to participating mothers, validated in the Mexican population, used in national health surveys.⁹9 Gutiérrez J P, Rivera-Dommarco J, Shamah-Levy T, Villalpando-Hernández S, Franco A, Cuevas-Nasu L, Romero-Martínez M, Hernández-Ávila M. Encuesta Nacional de Salud y Nutrición 2012. Resultados Nacionales. Cuernavaca, México: Instituto Nacional de Salud Pública (MX), 2012 The application of the questionnaire was carried out at the homes of the minors in three municipalities of the state of Morelos, Mexico in the period from February to July 2018 corresponding to stage II of the “NUTTSEA” cohort in Mexico. The data correspond to the first lift of the minors who will be incorporated into the NUTTSEA cohort.

The nutritional status of the minors was evaluated about the weight and length they presented at the time of the intervention. An infantometer and a tray scale were used for anthropometry. Nutrition graduates (in pairs), previously trained and standardized, were responsible for carrying out the measurements, one served as an anthropometrist and the other noted the result. The minors were weighed in their underwear and the company of their parents and the length was taken without shoes and in an upright position. Two anthropometric tests were carried out to avoid measurement errors.

Taking as reference the growth standards of the WHO,¹⁶16 OMS (Organización Mundial de la Salud). Patrones de crecimiento del niño de la OMS; 2008. weight for age (W/A), length for age (L/A) were evaluated, and weight for length (W / L). A normal nutritional status was considered between -1 standard deviation (SD) and +1 SD, a status of the possible risk of overweight (PROW) was considered within +1 SD and +2 SD, for overweight (OW) the location between +2 SD and +3 SD and finally for the diagnosis of obesity (OB), all those minors located above +3 SD were considered.

Within the Breastfeeding Practices (BFP) included; Exclusive breastfeeding (EBF), predominant breastfeeding (PBF) ,and early initiation of breastfeeding (EIBF). For each of the above, it was considered; EBF: Feeding exclusively with breast milk in the first 6 months; BFP: Feeding with breast milk and non-nutritive fluids in the first 6 months and EIBF: Minors breastfed within the first hour after birth.

Eating practices were studied based on the age of introduction and frequent consumption of liquids and food based on a questionnaire adapted from ENSANUT 2012. The food groups were organized according to the WHO¹⁶16 OMS (Organización Mundial de la Salud). Patrones de crecimiento del niño de la OMS; 2008. (Table 1): plain water, whey, non-breast milk, non-nutritive liquids, nutritious liquids, cereals and legumes, fruits and vegetables, red meat, white meat, cold cuts, egg, dairy and miscellaneous. In addition, the consumption of foods high in iron (Those with greater bioavailability of iron, fortified foods, and supplements) and foods with high sugar content (Those that threaten to exceed 5% of the total recommended daily caloric value in children under 1 year of age). Questionnaire “Parenting practices in the first 3 years of life, inquired information on the current state, that is, the day before the interview, also referred to as status-quo. These indicators refer only to the fact of whether or not the food was consumed, but not to the quantity consumed, so they cannot be used to calculate the adequacy of quantities consumed.

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Table 1
Complementary feeding practices in minors of the cohort NUTTSEA 2018.

Data analysis was performed using the Stata version 14 statistical package. Descriptive data represented in proportions and measures of central tendency; two multivariate logistic regression models adjusted for age and sex were developed to determine the association of PROW, OW, and OB (dependent variable) with breastfeeding and feeding practices, respectively. For this purpose, the odds ratio or the possibility of the risk of having PROW, OW, and OB were described, values equal to or less than 0.05, 0.01, and 0.001 were taken as statistical significance, with a CI95%.

Results

The results correspond to a total of 396 boys and girls who made up the final sample studied. Of the total of minors, 58% were boys and 42% were girls, the mean age combining both sexes corresponded to 7.3 ± 2.07 months. 92.7% of children lived in households made up of the “father-mother” binomial, the rest lived in households made up of “mother and step-fathers”, “mother and grandparents” and “only the mother as head of the household”.

Nutritional status

Related to the nutritional status of the minors, a mean of weight and length was found considering both sexes of 7.7 ± 1.0kg and 67.2 ± 5.4 cm. Regarding the indicators of weight growth for length (W / L), an indicator taken as a diagnostic criterion, 18.4% had some degree of malnutrition, 67.8% a normal nutritional state, 7.7% were in PROW, 5.6% were overweight and 0.4% had a diagnosis of obesity (Table 2).

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Table 2
Characteristics and nutritional status of children in the 2018 NUTTSEA cohort.

Breastfeeding Practices (BFP)

Within this framework, 97.4% of the minors received a breast at some time in the period from birth to the time of the intervention, of these, 80.8% had an EIBF, concerning EBF only 6.9% of the children. minors had this practice in the first 6 months of life according to the WHO criteria and 9.7% of the minors were fed with BFP in the first 6 months of life (Table 3).

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Table 3
Breastfeeding and infant formula consumption practices of the 2018 NUTTSEA cohort.

We observed that 71.7% of the minors consumed infant formula, of which 69.5% reported having problems with breastfeeding such as "I ran out of milk", "did not accept the breast" "deformity in the nipple" "not filling the less". This translates to breastfeeding beliefs.

Feeding practices

We characterize feeding practices in two groups, younger than six months and older than six months, with we were able to observe differences in the introduction and frequent consumption of different foods. 72% of those under six months of age received some solid, semi-solid or soft food, while those over six months were 98.6% before six months of life, this was interpreted as the beginning of complementary feeding of early way.

Under six months

We were able to observe that the introduction of food in minors began early, with solid and semi-solid foods, we found that the average age of consumption of fruits and vegetables was 4.7 ± 1.1 months, cereals and legumes 5 ± 1.2, red meat 5 ± 0.8. In the case of liquid foods, we observed that plain water was introduced at a mean age of 4 ± 1.4, non-breast milk was introduced at 2.7 ± 1.6.

Allusive to foods with high sugar content, 38.6% of those under six months of age consumed foods with these characteristics in which they were found; sweetened water, soda, industrialized cereals, Yakult, Danoninos (Mexican dairy drinks), candy, cookies, or cupcakes, which represents a high consumption in children.

Older than six months

In the case of those older than six months, the panorama of early initiation of complementary feeding is not very different. We observed that fruits and vegetables began consumption at a mean age of 5.4 ± 1.2 frequently, cereals and legumes 5.7 ± 1.5 months, and red meat at 5.9 ± 1.7 months. In the case of liquid foods, plain water was the main liquid for consumption, however, this was introduced at the age of 4.6 ± 1.5 months, milk other than the breast was 3.7 ± 2.6 months.

Regarding foods with high sugar content, 81.3% of the elderly consumed foods with these characteristics in which they were found; sweetened water, soda, industrialized cereals, Yakult, Danoninos type, candy, cookies, or cupcakes, which represents a high consumption in children older than six months. (Table 1).

Model 1 of logistic regression showed that the evaluated children older than six months of age presented significant associations with the variable of interest (p = 0.04), which represented a 0.5 times greater risk of suffering from PROW, OW, and OB compared with children younger age. In this same model, the consumption of fluids other than the breast within the first three days after birth was significant (p = 0.02), therefore, they presented about 3.0 times more risk of suffering from the exposed conditions compared to those who did not consume another liquid other than breast in this period. Similarly, the consumption of foods with a high sugar content was found to be highly significant (p=0.01) with the variable of interest studied, in this sense, the minors who frequently consumed these foods had 2.5 times the risk of suffering from some condition of PROW, OW and OB (Table 4).

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Table 4
Model 1 of logistic regression for overweight and obesity and its association with breastfeeding practices.

The logistic regression model 2 for the PROW, OW and OB, found a significant association (p=0.02) with the consumption of breast milk substitutes, therefore, the consumption of “non-breast milk” frequently represented a 3.2 times higher risk of suffering from PROW, OW, and OB in minors. Finally, although a level of significance was not found that could fully associate the consumption of nutritious liquids with the variable of interest, there was a trend in the relationship between both variables (p = 0.08) as well as egg consumption (p=0.056) (Table 5).

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Table 5
Model 2 of logistic regression for overweight and obesity and its association with eating practices.

Discussion

This research is one of the few in Mexico that prospectively analyzes the different rearing practices that affect PROW and OW + OB within the first year of life. Where it was possible to observe the influence of breast milk substitutes and the introduction of fluids in the first six months of life as risk factors for the development of overweight and early obesity. Different from the information from the ENSANUT MC 2018 ⁸8 Shamah-Levy T, Vielma-Orozco E, Heredia-Hernández O, Romero-Martínez M, Mojica-Cuevas J, Cuevas-Nasu L, et al. Encuesta Nacional de Salud y Nutrición 2018-19: Resultados Nacionales. Cuernavaca, México: Instituto Nacional de Salud Pública; 2020. we obtained a lower prevalence of PROW and OW + OB, however, it should be clarified that the data shown by the ENSANUT include the entire population under 5 years of age, which makes a direct comparison impossible between both investigations. However, studies like ours contribute to a clearer vision of the real panorama at specific ages.

Within the observed associations, we found that those children older than 6 months were exposed in a higher proportion to suffer from some condition characterized by excess weight. Specifically, in this period, the literature does not recognize any direct relationship between age and the development of PROW and OW + OB, but it is known that as age advances, adverse perinatal factors, poor breastfeeding practices, and inadequate planning of complementary feeding, reflects the weight gain.¹⁷17 Skelton JA, Irby MB, Grzywacz J G, Miller G. Etiologies of obesity in children: Nature and nurture. Pediatr Clin North Am. 2011; 58 (6): 1333-54. It should be noted that, at the age of 6 months, about 88.8% of the minors already had established dietary patterns and. In this sense, meta-analyzes on the initiation of complementary feeding have found that the introduction of foods at an early age increases the risk of overweight and obesity in later stages.¹⁸18 Wang J, Wu Y, Xiong G, Chao T, Jin Q, Liu R, Hao L; Wei S; Yang N; Yang X. Introduction of complementary feeding before 4 months of age increases the risk of childhood overweight or obesity: A meta-analysis of prospective cohort studies. Nutr Res. 2016; 36 (8): 759-70.,¹⁹19 Cu L, Villarreal E, Rangel B, Galicia L, Vargas E, Lidia & M. Factores de riesgo para sobrepeso y obesidad en lactantes Risk factors for overweight and obesity in infants. Rev Chil Nutr. 2015; 42 (13): 139-44.

On the other hand, we found that only 6.9% of the minors complied with the EBF recommendation; These data are below the national figures that have been increasing over the years, ENSANUT 2012 reported 14.4%,⁹9 Gutiérrez J P, Rivera-Dommarco J, Shamah-Levy T, Villalpando-Hernández S, Franco A, Cuevas-Nasu L, Romero-Martínez M, Hernández-Ávila M. Encuesta Nacional de Salud y Nutrición 2012. Resultados Nacionales. Cuernavaca, México: Instituto Nacional de Salud Pública (MX), 2012 while ENSANUT 2018 reported 28.6%⁸8 Shamah-Levy T, Vielma-Orozco E, Heredia-Hernández O, Romero-Martínez M, Mojica-Cuevas J, Cuevas-Nasu L, et al. Encuesta Nacional de Salud y Nutrición 2018-19: Resultados Nacionales. Cuernavaca, México: Instituto Nacional de Salud Pública; 2020. of children under 6 months who received EBF.

In the present study, no significant association was found between the abandonment of EBF and the development of overweight and obesity, however, various investigations have solidly documented that the absence of EBF is related to the development of overweight and obesity and NCD in early childhood, adolescence, and adulthood. In Mexico, a case-control study with 152 infants per group identified the relationship between the absence of EBF and the development of PROW and OW + OB.²⁰20 Basain Valdés J, Pacheco Diaz L. Duración de lactancia materna exclusiva, estado nutricional y dislipidemia en pacientes pediátricos. Rev Cubana Pediatr. 2015; 87 (2): 156-66.,²¹21 Park SJ, Lee HJ. Exclusive breastfeeding and partial breastfeeding reduce the risk of overweight in childhood: A nationwide longitudinal study in Korea. Obes Res Clin Pract. 2018; 12 (2): 222-8. In other countries, research on the effect of EBF on nutritional status in infants also recognizes that the absence of EBF in the first months of life can act as a risk factor in future stages.²²22 Aguilar MJ, Sanchez AM, Madrid N, Mur N, Expósito M, Hermoso E. Lactancia materna como prevención del sobrepeso y la obesidad en el niño y el adolescente; revisión sistemática. Nutr Hosp. 2015; 31 (2): 606–20.,²³23 Jing Y, Lin L, Zhu Y, Huang G, Peizhong PW. The association between breastfeeding and childhood obesity: a meta-analysis. BMC Public Heal. 2014; 14: 1267. Other systematic reviews of cohort studies, clinical trials, descriptive studies, and correlational studies also point to the causality of low SCI over PROW and OW + OB.²⁴24 Pearce J, Langley-Evans SC. The types of food introduced during complementary feeding and risk of childhood obesity: a systematic review. Int J Obes. 2013; 37 (10): 1295-306.,²⁵25 Vásquez-Garibay EM. Primer año de vida. Leche humana y sucedáneos de la leche humana. Gac Med Mex. 2016; 152: 13-21.

In a study carried out in China, it was found that those children and adolescents who had been fed BF for more than 6 months had a protective effect in the presence of Metabolic Syndrome; this result could be observed in children between 10 and 17 years old.²⁶26 Wang J, Zhu Y, Cai L, Jing J, Chen Y, Mai J, Ma L, Ma Y, Ma J. Metabolic syndrome and its associated early-life factors in children and adolescents: a cross-sectional study in Guangzhou, China. Public Health Nutr. 2016; 19 (7): 1147-54.

On the other hand, independent of age and in contrast to EBF, we found that non-breast milk consumption was associated with PROW and OW + OB in the younger participants. Within this variable, the highest proportion was occupied by the use of infant formula as a total replacement for breast milk. Although there have been multiple improvement efforts in breast milk substitutes in recent years, the high sugar content combined with the over-feeding of proteins continues to position these products as potential risk factors.²⁷27 Bogen DL, Hanusa BH, Whitaker RC. The effect of breastfeeding with and without formula use on the risk of obesity at 4 years of age. Obes Res. 2004; 12 (9): 1527-35.,²⁸28 Pan L, Li R, Park S, Galuska DA, Sherry B, Freedman DS. A longitudinal analysis of sugar-sweetened beverage intake in infancy and obesity at 6 years. World Rev Nutr Diet. 2016; 114 (September): 34-5. The aforementioned case-control study in Mexican infants also showed relationships between the consumption of infant formula and the development of PRPS and OW + OB.²⁰20 Basain Valdés J, Pacheco Diaz L. Duración de lactancia materna exclusiva, estado nutricional y dislipidemia en pacientes pediátricos. Rev Cubana Pediatr. 2015; 87 (2): 156-66. Retrospective studies in children over one year of age also associated the consumption of milk formula with overweight and obesity.²⁸28 Pan L, Li R, Park S, Galuska DA, Sherry B, Freedman DS. A longitudinal analysis of sugar-sweetened beverage intake in infancy and obesity at 6 years. World Rev Nutr Diet. 2016; 114 (September): 34-5.

In the same way, regardless of age, we discovered that the consumption of products high in sugar affected the PROW and OW + OB in the minor participants. Longitudinal research in children from other countries shows that the introduction of foods with high sugar content before 6 months represents a 92% risk for overweight and obesity in the next age.²⁹29 Davis JN, Whaley SE, Goran MI. Effects of breastfeeding and low sugar-sweetened beverage intake on obesity prevalence in Hispanic toddlers. Am J ClinNutr. 2012; 95 (1): 3-8. Meanwhile, studies in Latino children have shown a risk of approximately 60% for overweight and obesity after consuming foods with high sugar content.²⁹29 Davis JN, Whaley SE, Goran MI. Effects of breastfeeding and low sugar-sweetened beverage intake on obesity prevalence in Hispanic toddlers. Am J ClinNutr. 2012; 95 (1): 3-8.

Regarding the products selected as a risk factor in our study, they were those that presented a threat of exceeding 5% of the total recommended caloric value in children under 1 year of age according to the WHO. The foregoing in Mexico has been the subject of debate given that the guidelines implemented by the Federal Commission for the Protection against Sanitary Risks (COFEPRIS) are very lax compared to other countries, consequently, the "Nutritional Distinction" that supposes an adequate food for age is voluntary.

Some of the limitations of the work are, the size of the sample depending on the women who belong to the Mexican cohort, therefore, it is not representative at the national level. The observed low prevalence of overweight and obesity depended on the stage of physiological adaptation in which the minors are found, which the first year of life is, coupled with the fact that it is a semi-rural population and does not reach the rural population, it also only focuses a population without social security.

Our results show the importance of addressing inappropriate feeding practices and poor breastfeeding practices in the first year of life, as overweight and obesity prevention measures within programs and policies aimed at health in childhood. In addition to contributing scientific evidence on the importance of breastfeeding, the early consumption of foods high in sugar and fat and of course emphasizing child malnutrition in Mexico.

References

¹
Barker DJP. The origins of the developmental origins theory. J InternMed. 2007; 261 (5): 412-7.
²
Pantoja Ludueña M. Los primeros 1000 días de la vida. Rev Soc Boliv Pediatr. 2015; 54 (2): 60-1.
³
Victora C. Los mil días de oportunidad para intervenciones nutricionales: de la concepción a los dos años de vida. Arch Argent Pediatr. 2012; 110 (4): 311-7.
⁴
da Cunha AJ, Leite ÁJ, de Almeida IS. The pediatrician’s role in the first thousand days of the child: the pursuit of healthy nutrition and development. J Pediatr (Rio J). 2015; 91 (6): S44-51.
⁵
Saavedra JM, Dattilo AM. Nutrition in the First 1000 Days of Life : Society’s Greatest Opportunity a. In: Early Nutrition and Long-Term Health. 2015. p. xxxv–xliv.
⁶
OMS (Organización Mundial de la Salud). Informe de la Comisión para acabar con la obesidad infantil. Biblioteca de la OMS; 2016.
⁷
OMS (Organización Mundial de la Salud). Obesidad y sobrepeso; 2018.
⁸
Shamah-Levy T, Vielma-Orozco E, Heredia-Hernández O, Romero-Martínez M, Mojica-Cuevas J, Cuevas-Nasu L, et al. Encuesta Nacional de Salud y Nutrición 2018-19: Resultados Nacionales. Cuernavaca, México: Instituto Nacional de Salud Pública; 2020.
⁹
Gutiérrez J P, Rivera-Dommarco J, Shamah-Levy T, Villalpando-Hernández S, Franco A, Cuevas-Nasu L, Romero-Martínez M, Hernández-Ávila M. Encuesta Nacional de Salud y Nutrición 2012. Resultados Nacionales. Cuernavaca, México: Instituto Nacional de Salud Pública (MX), 2012
¹⁰
Franco LV. Obesidad. Espejismo de salud y belleza en niños lactantes. [Editorial]. Rev Mex Pediatr. 2003; 70 (6): 271-2.
¹¹
Reilly J, Methven E, McDowell ZC, Hacking B, Alexander D, Stewart L, Kelnar C. Health consequences of obesity. Arch Dis Child. 2003; 88 (9): 748-52.
¹²
McCormick DP, Sarpong K, Jordan L, Ray LA, Jain S. Infant Obesity: Are We Ready to Make this Diagnosis? J Pediatr. 2010; 157 (1): 15-9.
¹³
Finer N. Medical consequences of obesity. Med (United Kingdom). 2015; 43 (2): 88-93.
¹⁴
Arredondo A, Torres C, Orozco E, Pacheco S, Huang F, Zambrano E, Bolaños-Jiménez F. Socio-economic indicators, dietary patterns, and physical activity as determinants of maternal obesity in middle-income countries: Evidences from a cohort study in Mexico. Int J Health Plann Manage. 2018; (August): 1-13.
¹⁵
Arredondo A, Torres C, Orozco E, Pacheco S, Huang F, Zambrano E. Indicadores socioeconómicos de la obesidad materna en México y Francia. Análisis comparado de dos cohortes. Rev Salud Pública. 2018; 20 (2): 245-53.
¹⁶
OMS (Organización Mundial de la Salud). Patrones de crecimiento del niño de la OMS; 2008.
¹⁷
Skelton JA, Irby MB, Grzywacz J G, Miller G. Etiologies of obesity in children: Nature and nurture. Pediatr Clin North Am. 2011; 58 (6): 1333-54.
¹⁸
Wang J, Wu Y, Xiong G, Chao T, Jin Q, Liu R, Hao L; Wei S; Yang N; Yang X. Introduction of complementary feeding before 4 months of age increases the risk of childhood overweight or obesity: A meta-analysis of prospective cohort studies. Nutr Res. 2016; 36 (8): 759-70.
¹⁹
Cu L, Villarreal E, Rangel B, Galicia L, Vargas E, Lidia & M. Factores de riesgo para sobrepeso y obesidad en lactantes Risk factors for overweight and obesity in infants. Rev Chil Nutr. 2015; 42 (13): 139-44.
²⁰
Basain Valdés J, Pacheco Diaz L. Duración de lactancia materna exclusiva, estado nutricional y dislipidemia en pacientes pediátricos. Rev Cubana Pediatr. 2015; 87 (2): 156-66.
²¹
Park SJ, Lee HJ. Exclusive breastfeeding and partial breastfeeding reduce the risk of overweight in childhood: A nationwide longitudinal study in Korea. Obes Res Clin Pract. 2018; 12 (2): 222-8.
²²
Aguilar MJ, Sanchez AM, Madrid N, Mur N, Expósito M, Hermoso E. Lactancia materna como prevención del sobrepeso y la obesidad en el niño y el adolescente; revisión sistemática. Nutr Hosp. 2015; 31 (2): 606–20.
²³
Jing Y, Lin L, Zhu Y, Huang G, Peizhong PW. The association between breastfeeding and childhood obesity: a meta-analysis. BMC Public Heal. 2014; 14: 1267.
²⁴
Pearce J, Langley-Evans SC. The types of food introduced during complementary feeding and risk of childhood obesity: a systematic review. Int J Obes. 2013; 37 (10): 1295-306.
²⁵
Vásquez-Garibay EM. Primer año de vida. Leche humana y sucedáneos de la leche humana. Gac Med Mex. 2016; 152: 13-21.
²⁶
Wang J, Zhu Y, Cai L, Jing J, Chen Y, Mai J, Ma L, Ma Y, Ma J. Metabolic syndrome and its associated early-life factors in children and adolescents: a cross-sectional study in Guangzhou, China. Public Health Nutr. 2016; 19 (7): 1147-54.
²⁷
Bogen DL, Hanusa BH, Whitaker RC. The effect of breastfeeding with and without formula use on the risk of obesity at 4 years of age. Obes Res. 2004; 12 (9): 1527-35.
²⁸
Pan L, Li R, Park S, Galuska DA, Sherry B, Freedman DS. A longitudinal analysis of sugar-sweetened beverage intake in infancy and obesity at 6 years. World Rev Nutr Diet. 2016; 114 (September): 34-5.
²⁹
Davis JN, Whaley SE, Goran MI. Effects of breastfeeding and low sugar-sweetened beverage intake on obesity prevalence in Hispanic toddlers. Am J ClinNutr. 2012; 95 (1): 3-8.

Publication Dates

Publication in this collection
21 Feb 2022
Date of issue
Oct-Dec 2021

History

Received
08 Feb 2021
Reviewed
09 Aug 2021
Accepted
20 Sept 2021

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited

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Wang J, Wu Y, Xiong G, Chao T, Jin Q, Liu R, Hao L; Wei S; Yang N; Yang X. Introduction of complementary feeding before 4 months of age increases the risk of childhood overweight or obesity: A meta-analysis of prospective cohort studies. Nutr Res. 2016; 36 (8): 759-70.

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Park SJ, Lee HJ. Exclusive breastfeeding and partial breastfeeding reduce the risk of overweight in childhood: A nationwide longitudinal study in Korea. Obes Res Clin Pract. 2018; 12 (2): 222-8.

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[23] ²³
Jing Y, Lin L, Zhu Y, Huang G, Peizhong PW. The association between breastfeeding and childhood obesity: a meta-analysis. BMC Public Heal. 2014; 14: 1267.

[24] ²⁴
Pearce J, Langley-Evans SC. The types of food introduced during complementary feeding and risk of childhood obesity: a systematic review. Int J Obes. 2013; 37 (10): 1295-306.

[25] ²⁵
Vásquez-Garibay EM. Primer año de vida. Leche humana y sucedáneos de la leche humana. Gac Med Mex. 2016; 152: 13-21.

[26] ²⁶
Wang J, Zhu Y, Cai L, Jing J, Chen Y, Mai J, Ma L, Ma Y, Ma J. Metabolic syndrome and its associated early-life factors in children and adolescents: a cross-sectional study in Guangzhou, China. Public Health Nutr. 2016; 19 (7): 1147-54.

[27] ²⁷
Bogen DL, Hanusa BH, Whitaker RC. The effect of breastfeeding with and without formula use on the risk of obesity at 4 years of age. Obes Res. 2004; 12 (9): 1527-35.

[28] ²⁸
Pan L, Li R, Park S, Galuska DA, Sherry B, Freedman DS. A longitudinal analysis of sugar-sweetened beverage intake in infancy and obesity at 6 years. World Rev Nutr Diet. 2016; 114 (September): 34-5.

[29] ²⁹
Davis JN, Whaley SE, Goran MI. Effects of breastfeeding and low sugar-sweetened beverage intake on obesity prevalence in Hispanic toddlers. Am J ClinNutr. 2012; 95 (1): 3-8.

	(N=150) 37.87%	Food introduction age in months, under 6 months			(N=246) 62.12%	Food introduction age in months, over 6 months
	%	Mean	SD	CI95%	%	Mean	SD	CI95%
Simple water	81.8	4.0	1.4	72.1 – 88.6	97.9	4.6	1.5	93.7 – 99.3
Serum or medicated drops	17.0	3.2	1.6	10.4 – 26.5	21.3	5.0	2.9	15.3 – 28.8
Milk other than breast ^¥	39.7	2.7	1.6	29.9 – 50.5	44.1	3.7	2.6	36.1 – 52.4
Non-nutritive liquids ^‡	46.5	4.2	1.5	36.2 – 57.2	82.7	5.4	1.4	75.6 – 88.1
Nutritive liquids^†	6.8	5.1	1.8	3.0 – 14.5	20.6	5.7	1.7	14.8 – 28.1
Cereals and legumes ^ƒ	37.5	5.0	1.2	27.8 – 48.2	84.1	5.7	1.5	77.1 – 89.2
Fruits and vegetables	59.0	4.7	1.1	48.3 – 69.0	92.4	5.4	1.2	86.7 – 95.7
Red meat	5.6	5.0	0.8	2.3 – 13.1	16.5	5.9	1.7	11.2 – 23.6
White meats	21.5	5.4	0.6	14.0 – 31.6	51.7	6.1	1.3	43.5 – 59.8
Sausages	2.2	5.0	1.0	0.5 – 8.8	8.2	7.3	1.4	4.7 – 14.0
Egg	3.4	5.0	1.0	1.0 – 10.2	24.8	7.0	1.8	18.4 – 32.5
Dairy products^§	21.5	4.7	1.1	14.0 – 31.6	55.8	6.4	1.9	47.5 – 63.8
Miscellaneous *	21.5	5.3	0.9	14.0 – 31.6	51.7	6.7	1.5	43.5 – 59.8
Bottle fed	56.8	-	-	46.1 – 66.9	77.2	-	-	69.6 – 83.4
Add sugar to food	3.4	-	-	1.0 – 10.2	8.9	-	-	5.2 – 14.9
Add salt to food	5.6	-	-	2.3 – 13.1	34.4	-	-	27.1 – 42.6
Foods high in iron^a	75	-	-	64.7 – 83.0	63.4	-	-	55.2 – 70.0
Foods high in sugar^b	38.6	-	-	28.8 – 49.3	81.3	-	-	74.1 – 86.9
Solid, semi-solid and soft foods <6 months of life	72.7	-	-	62.3 – 81.1	98.6	-	-	94.5 – 99.6

Category	(N=396)	Mean	± SD	CI95%
Category	%	Mean	± SD	CI95%
Age	100.0	7.3	2.07	7.08-7.62
Weigth (kg)	100.0	7.7	1.07	7.60-7.87
Length (cm)	100.0	67.2	5.41	66.57-67.97
Growth indicators
Weigth/Age
Low moderate weight	5.1	-	-	2.93-8.88
Slight underweight	22.3			17.39-28.15
Normal	63.9	-	-	57.53-69.89
PROW^§	6.9	-	-	4.23-10.95
Overwegth	1.7	-	-	0.06-4.51
Length/Age
Severe short stature	2.6	-	-	1.15-5.64
Moderate short stature	6.4	-	-	3.90-10.43
Slight short stature	24.9	-	-	19.72-30.89
Normal	66.1	-	-	59.73-71.92
Weigth/Length^†
Severe Malnutrition	0.8	-	-	0.02-3.39
Moderate Malnutrition	3.0			1.43-6.19
Mild Malnutrition	14.6	-	-	10.58-19.77
Normal	67.8			61.49-73.53
PROW^§	7.7	-	-	4.90-11.96
Overweigh	5.6	-	-	3.25-9.40
Obesity	0.4	-	-	0.00-3.02

Category	(N=396)	CI95%
Category	%	CI95%
Breastfeeding Practices
Chest "Ever"	97.4	94.35-98.84
EIBF^‡	80.8	72.06-83.10
BFE^†	6.9	4.23-10.95
PBF ^¥	9.7	4.17-11.13
Infant formula
Consumption “Ever”	71.7	65.50-77.12
Principal reasons for formula consumtion**
Lactation problems^€	69.5	61.98-76.03
Time	14.9	10.28-21.29
Others^§	15.6	10.78-21.95

PROW/SP/OB	(N=396)	Odds Ratio	CI95%	p<0.05
PROW/SP/OB	%	Odds Ratio	CI95%	p<0.05
Age (months)
< 6	37.7%	-	-	-
> 6	62.2%	-	0.28 - 1.41	0.043
Sex
Kids	58.0%	-	-	-
Girls	42.0%	-	0.27 - 1.66	0.395
Gave breast
No	-	-	-	-
Yes	97.4%	2.248659	0.94 - 2.99	0.994
EIBF‡
No	-	-	-	-
Yes	78.0%	.4792922	0.18 - 1.24	0.132
EBF†
No	-	-	-	-
Yes	6.9%	5.262606	3.30 - 2 2.23	0.994
PBF ¥
No	-	-	-	-
Yes	6.9%	2.055938	0.35 11.99	0.423
Drinks after birth
No	-	-	-	-
Yes	41.6%	2.902787	2.12 - 4.27	0.027
Still breastfeeding
No	-	-	-	-
Yes	82.8%	.7558515	0.23 - 2.42	0.638
Add sugar
Yes	-	-	-	-
No	93.1%	3.324625	0.38 - 28.56	0.274
Foods high in iron
No	-	-	-	-
Yes	48.9%	2.229576	0.75 - 6.56	0.146
Food high in sugar
No	-	-	-	-
Yes	65.2%	2.508982	0.78 - 3.56	0.015

PROW/SP /OB	(N=396)	Odds Ratio	CI95%	p<0.05
PROW/SP /OB	%	Odds Ratio	CI95%	p<0.05
Formula
No	-	-	-	-
Yes	71.7%	1.567375	0.59 - 4.09	0.359
Hydration serum
No	-	-	-	-
Yes	19.7%	2.312167	0.58 - 9.07	0.230
Milk other than breast
No	-	-	-	-
Yes	42.5%	3.259656	2.15 - 4.67	0.025
Non-nutritive liquids
No	-	-	-	-
Yes	69.1%	.4752044	0.14 - 1.52	0.211
Nutritive liquids
No	-	-	-	-
Yes	15.5%	6.99792	0.78 - 62.47	0.082
Cereals and legumes
No	-	-	-	-
Yes	66.5%	1.396874	0.43 - 4.51	0.576
Fruits and vegetables
No	-	-	-	-
Yes	79.8%	.5786879	0.15 - 2.10	0.407
Red meat
No	-	-	-	-
Yes	12.5%	2.441966	0.53 - 11.11	0.248
White meats
No	-	-	-	-
Yes	40.3%	.5062275	0.17 - 1.47	0.213
Meat and sausages
No	-	-	-	-
Yes	6.0%	2.580639	0.26 - 25.08	0.414
Egg
No	-	-	-	-
Yes	16.7%	.2899289	0.18 - 0.52	0.056
Egg white
No	-	-	-	-
Yes	4.7%	.6417283	0.06 - 6.21	0.702
Dairy products
No	-	-	-	-
Yes	42.9%	1.929311	0.68 - 5.46	0.216
Nutrisano
No	-	-	-	-
Yes	5.6%	.3110833	0.06 - 1.48	0.143
Miscellaneous
No	-	-	-	-
Yes	40.3%	1.282827	0.46 - 3.52	0.629

Brasil

Brasil

Breastfeeding and feeding practices in the first year of life and its association with overweight and obesity of children in Mexico

Abstract

Objectives:

Methods:

Results:

Conclusions:

Resumen

Objetivos:

Métodos:

Resultados:

Conclusiones:

Introduction

Methods

Results

Nutritional status

Breastfeeding Practices (BFP)

Feeding practices

Under six months

Older than six months

Discussion

References

Publication Dates

History