Hostname: page-component-8448b6f56d-dnltx Total loading time: 0 Render date: 2024-04-24T01:03:30.028Z Has data issue: false hasContentIssue false
  • English
  • Français

Determinants of early breastfeeding initiation and exclusive breastfeeding in Colombia

Published online by Cambridge University Press:  07 October 2019

Sheridan Finnie ,
Rafael Peréz-Escamilla  and
Gabriela Buccini
Sheridan Finnie*
Affiliation:
Yale School of Public Health, Yale University, 60 College Street, New Haven, CT06520, USA
Rafael Peréz-Escamilla
Affiliation:
Yale School of Public Health, Yale University, 60 College Street, New Haven, CT06520, USA
Gabriela Buccini
Affiliation:
Yale School of Public Health, Yale University, 60 College Street, New Haven, CT06520, USA
*
*Corresponding author: Email Sheridan.finnie@yale.edu
Rights & Permissions [Opens in a new window]

Abstract

Objective:

To identify modifiable risk factors associated with early initiation of breastfeeding (EIBF) and exclusive breastfeeding (EBF) in Colombia.

Design:

Cross-sectional study from the 2010 Colombia nationally representative Demographic Health Survey (DHS). Studied exposures were categorized into five hierarchical blocks of increasing proximity to the outcomes: household, maternal, health systems, child, and early feeding characteristics. The two outcomes examined were delayed breastfeeding initiation among infants <24 months and interruption of EBF among infants <6 months. Prevalence ratios were computed using Poisson regression analysis with robust error variance, adjusted for sampling weights, following a hierarchical modelling approach.

Setting:

Nationally representative cross-sectional survey from Colombia.

Participants:

The EIBF analytical sample included 6592 and the EBF sample 1512 women with young children.

Results:

EIBF prevalence was 65·6 % in children under 24 months and EBF was 43 % in infants under 6 months. Modifiable risk factors associated with delayed breastfeeding initiation were: C-section (PR = 2·08, CI 95 % = 1·92, 2·25), maternal overweight/obesity (PR = 1·09, CI 95 % = 1·01, 1·17), lack of skilled attendant at birth (PR = 1·09, CI 95 % = 1·01, 1·18). Modifiable risk factors for EBF interruption were C-section (PR = 1·12, CI 95 % = 1·02, 1·23) and prelacteal feeding (PR = 1·51, CI 95 % = 1·37, 1·68). Non-pregnancy intention was a protective factor for EBF interruption (PR = 0·82, CI 95 % = 0·72, 0·93).

Conclusions:

C-section, lack of skilled attendant at birth, prelacteal feeding, maternal nutritional status, and pregnancy intention were modifiable factors associated with suboptimal breastfeeding practices in Colombia.

Keywords

BreastfeedingExclusive breastfeedingInfant and young child feedingEarly breastfeeding initiation
Type
Research paper
Information
Public Health Nutrition , Volume 23 , Issue 3 , February 2020 , pp. 496 - 505
Copyright
© The Authors 2019 

Investing in breastfeeding protection, promotion, and support programmes is important to promote optimal child health and child development throughout the lifespan, including maternal health, and foster economic growth(Reference Victora, Bahl and Barros1,Reference Hansen2) .

Since the early 1990s, Colombia has identified breastfeeding and child welfare programmes as key strategies to reduce infant mortality and morbidity as well as to improve child developmental potential(Reference Ochoa Parra and Casallas Murillo3). The enabling of a breastfeeding friendly environment began in 1992 with the development of the Breastfeeding Support National Plan and three central policies that endorsed the WHO International Code of Marketing of Breast-milk Substitutes (WHO’s Code), the Baby Friendly Hospital Initiative (BFHI) and the formation of a National Breastfeeding Committee; however, oversight and regulatory responsibility for these policies were not granted to a specified entity(4,Reference Perez-Escamilla5) . Since then, the National Breastfeeding Committee has disbanded and BFHI implementation remains limited. Of the 51 430 private and public health institutions licensed to provide maternal and child care in 2009, only 330 (0·64 %) were accredited as BFHI(Reference Ochoa Parra and Casallas Murillo3,6,7) . This is not surprising given that that the country lacks a centralized coordinating entity empowered to recommend and implement needed breastfeeding policies and programmes(Reference Escobar, Giedion and Giuffrida810).

Primary indicators for assessing in-country breastfeeding practices include early initiation of breastfeeding (EIBF) and exclusive breastfeeding (EBF). EIBF has been shown to be associated with positive infant morbidity and mortality outcomes, associated with colostrum feeding and overall duration of breastfeeding(Reference Victora, Bahl and Barros1,6) . In Colombia, breastfeeding practices have not improved over the years. Indeed, early breastfeeding initiation rates decreased from 61 % in 2000 to 48·9 % in 2005 and then partially rebounded to 57 % in 2010. Furthermore, EBF decreased from 47 % in 2005 to 43 % in 2010(1113). To our knowledge, the reasons for this trend have not been studied. In our study we hypothesize that this may be influenced by healthcare system-adjacent modifiable risk factors(Reference Ochoa Parra and Casallas Murillo3,Reference Ogbo, Page and Idoko14) combined with population level factors such as household and maternal characteristics(7,Reference Escobar, Giedion and Giuffrida8) . There is a dearth of studies investigating the determinants of EIBF and EBF in Colombia. Thus, it is important to identify relevant modifiable risk factors for improving breastfeeding that can be integrated into and delivered through a package of interventions to improve optimal breastfeeding practices more rapidly in Colombia(Reference Lutter and Morrow15). Examples of modifiable risk factors to improve breastfeeding practices through healthcare system interventions are maternal nutrition status, pregnancy intention, type and place of delivery, prenatal and prelacteal feedings. Hence, the primary aim of this study is to identify modifiable risk factors for improving EIBF and EBF among infants under 24 months and 6 months of age, respectively.

Methods

Study setting

The study used data from the Colombian Demographic and Health Survey (DHS) conducted from November 2009 through November 2010. Colombia is an upper middle-income country with the fourth highest rate of maternal mortality in South America (92 per 100 000 live births) and relatively high rates of infant mortality (15 per 1000 live births)(16). Data on maternal and child health and nutrition outcomes were collected in the DHS for children born in the 36 months preceding data collection, and then our analyses subsets were restricted to the relevant age ranges (i.e. born during the previous 24 months for EIBF and during the previous 6 months for EBF analyses). The survey’s sampling framework was based on a stratified, multiple-stage cluster sampling design, drawing from national level census data, and regional/household level registries across geographical areas(12).

Outcome variables

This study has two primary outcomes operationalized based on the following definitions from the WHO Infant and Young Child Feeding (IYCF) guidelines(17).

Early initiation of breastfeeding was defined as the ‘proportion of children born in the last 24 months who were put to breast within 1 h of birth’ (18). The outcome variable was delayed breastfeeding initiation, i.e. not being breastfed within the 1 h of birth.

Exclusive breastfeeding was defined as the ‘proportion of infants 0–5 months of age who were fed exclusively with breastmilk’ and was based on maternal current status recall in reference to the previous day(18). EBF was categorized based on nineteen questions querying the mother if her child consumed 29 specific food or liquid items other than breastmilk in the previous day. Infants were considered to be exclusively breastfed if breastmilk was the only source of nutrition and hydration, without any additional solid or liquid supplement including water(18). The outcome variable ‘EBF interruption’ was defined as not being exclusively breastfed in the last 24 h before the interview.

Independent variables

The explanatory variables were grouped into four (EIBF model) and five (EBF model) distal to proximal blocks. Both models included household, maternal, health systems, and child characteristics, and the EBF analysis also included the early feeding environment (see conceptual model in Fig. 1). Breastfeeding initiation and exclusivity are influenced by a range of interrelated and temporally distinct factors at different levels of proximity. Conceptual hierarchical frameworks are an appropriate technique to evaluate the individual determinants of health outcomes as outlined by Victora et al.(Reference Victora, Huttly and Fuchs19). Specifically, hierarchical models have been recommended and applied to study breastfeeding outcomes globally(Reference Boccolini, Carvalho and Oliveira20Reference Rollins, Bhandari and Hajeebhoy22).

Fig. 1 Conceptual model: description of hierarchical interrelationship between explanatory and outcome variables. *Maternal Employment variable only considered in outcome 2, exclusive breastfeeding model

The DHS composite wealth index was used to describe household wealth and is based on a standard list of household assets classified into five wealth quintiles (income quintile variable). The number of adults in the household was estimated by subtracting the number of children living in the residence from the total number of usual household residents plus the number of visitors who slept in the house the previous night. A skilled attendant at birth was affirmed if delivery was performed by a doctor or nurse (yes); and not performed by a skilled attendant if it involved others, including auxiliary nurse and traditional birth attendant (no). DHS anthropometric measurements (height and weight) were assessed directly at the time of the survey using a measuring board and properly calibrated scale. Maternal overweight/obesity was estimated using the standard BMI cut-off points; i.e. ≥25 for overweight and ≥30 for obesity. Newborns were considered to have received prenatal feeds when any one of nineteen questions querying regarding any liquids given to the infant in the first 3 d post birth, including infant formula and water with or without sugar, were affirmed. Prelacteal feeding was considered to have not occurred only when all nineteen items were not affirmed(Reference Garret, Sanga and Kothari23). The number of prenatal visits were considered to be adequate if they were at least four based on Colombia’s guidelines(Reference Osorio, Tovar and Rathmann24). Prenatal visits numbering ten or more was considered potentially indicative of a higher risk pregnancy(Reference Carter, Tuuli and Caughey25).

Analytical sample

In the EIBF analysis the initial sample included 6694 children under 24 months of age born to women aged 13–49 years old. After excluding multiple births, children who did not live in the maternal household, and non-living children, the analytical sample included 6592 children born within the 24 months preceding data collection. In the EBF analysis, the initial sample included 1537 infants under 6 months of age. After excluding multiple births, children who did not live in the maternal household, and non-living children the analytical sample included 1512 infants under 6 months of age. Figure 2 presents detailed information regarding analytical sample selection.

Fig. 2 Flow chart depicting analytical sample selection criteria.

Data analyses

Statistical analyses were performed using STATA version 15.1 (Stata Corp.). Separate modified Poisson logistic regressions with robust error variance weighted by the DHS weight statistic (iweight = wgt) for nationally representative proportions were conducted to identify explanatory factors for each outcome. We used the statistical command meglm with (iweight = wgt) option as it is the preferred command to fit mixed-effects generalized linear models to hierarchical datasets with normally distributed effects, such as described in our DHS dataset(26,Reference Zou27) . The study was exempt from IRB review as no primary data were available from a deidentified data asset in the public domain.

Initially, descriptive statistics expressed as counts and frequencies were tabulated for all explanatory variables (Step 1). Next, unadjusted bivariate analyses examined the associations between the independent variable and each of the outcomes (Step 2). Variables associated with a P < 0·20 were then entered into multivariable analyses examining each block of the hierarchical conceptual model (Step 3). Finally, variables associated with a P < 0·20 in the within block analyses were entered as control variables in Step 4, i.e. multivariate hierarchical modelling. Blocks of variables were entered as following in the hierarchical modelling: (i) ‘Household Variables’; (ii) ‘Maternal Variables’; (iii) ‘Health Systems Variables’; (iv) ‘Child Variables’; (v) ‘Early Feeding Environment Variables’ (EBF model only) (Fig. 1). The associations between independent variables and outcomes were determined to be significant at the 5 % P-level. For both outcomes, within the healthcare system block we tested the interaction between C-section and number of prenatal visits (block 3) to find out if the simultaneous presence of both increased the risk of poor breastfeeding outcomes in a multiplicative (v. additive) way.

Results

Early breastfeeding initiation

Table 1 shows the analytical sample characteristics and the prevalence of delayed breastfeeding initiation across outcome variables. The prevalence of EIBF within the first hour after birth was 66 %. The majority of respondents delivered in public health facilities (95·2 %) had at least a primary-level education (75·5 %), and 18·1 % were adolescent mothers. The prevalence of C-section was 37·1 % and 8·2 % of infants had low birth weight. Proportionally more mothers who delivered via C-section (51·4 %) did not practice EIBF relative to those who had a vaginal birth (24·6 %). There was a statistically significant interaction between C-section and number of prenatal visits, the risk of delayed breastfeeding initiation was higher among those who had a C-section and had fewer than four visits (OR = 1·44 CI 95 % = 1·20, 1·72) or had ten visits or more (OR = 1·50, CI 95 % = 1·27, 1·78) compared with those who had four to nine visits (data not shown).

Table 1 Descriptive characteristics of analytical sample (n 13 567), and bivariate analyses of delayed breastfeeding initiation among children aged under 24 months and unadjusted prevalence ratios (Demographic Health Surveys, Colombia 2010)

* Percentages are nationally representative with DHS weighted variable.

This analysis included alive, singleton birth, infants under 24 months of age at time of survey.

Percentages are nationally representative with DHS weighted variable.

Table 2 describes the results from the multivariate hierarchical modelling analysis by block. The modifiable risk factors associated with delayed breastfeeding initiation identified were: C-section delivery (PR = 2·08, CI 95 % = 1·92, 2·25), no skilled attendant at birth (PR = 1·09, CI 95 % = 1·01, 1·18), and maternal overweight/obesity (PR = 1·09, CI 95 % = 1·01, 1·17). Non-modifiable risk factors associated with delayed breastfeeding initiation identified were: maternal primiparity (PR = 1·23, CI 95 % = 1·12, 1·35), infant low birth weight (PR = 1·37, CI 95 % = 1·20, 1·56), and higher household income quintile (PR = 1·20, CI 95 % = 1·08, 1·34). Mother not living with partner (PR = 0·91, CI 95 % = 0·83, 1·00) and lower maternal education (PR = 0·81, CI 95 % = 0·74, 0·89) were protective factors for EIBF. Supplementary material provides detailed information regarding the hierarchical EIBF models.

Table 2 Final multiple hierarchical model to identify the factors associated with delayed breastfeeding initiation in children aged under 24 months (n 6592) (Colombia, DHS 2010)

* Significant at P < 0·05 **Significant at P < 0·001– reference category; no prevalence ratios or CI calculated.

Model 1: Income quintile and infant age.

Model 2: Model 1 + mother living with partner, maternal education, maternal overweight/obese and pregnancy intention.

§ Model 3: Model 2 + skilled attendant at birth, C-section and number of prenatal visits.

Model 4: Model 3 + low infant birth weight, infant sex, and maternal primiparity.

Exclusive breastfeeding

Table 3 shows the analytical sample characteristics (n 1512) and the prevalence of non-EBF across variables. A total of 688 infants (43 %) were exclusively breastfed through the first 6 months after birth. The majority of respondents were delivered in public health facilities (95·2 %), had at least a primary-level education (77·3 %) and were non-adolescent mothers between 20 to 49 years of age (76·6 %). The prevalence of C-section was 36·5 % and 8·3 % of infants had low birth weight. Around 60 % had initiated breastfeeding within the first hour after birth and prelacteal feeds were used very frequent (62·4 %). There was a statistically significant interaction between C-section and number of prenatal visits, the risk of interrupting EBF was increased among those who had a C-section and had ten visits or more (OR = 1·24, CI 95 % = 1·03, 1·51) compared with those who had four to nine visits (data not shown).

Table 3 Descriptive characteristics of analytical sample (n 1512) and bivariate analyses of EBF interruption among children aged under 6 months and unadjusted prevalence ratios (Demographic Health Surveys, Colombia 2010)

* Percentages are nationally representative with DHS weighted variable.

This analysis included alive, singleton birth, infants under 6 months of age at time of survey.

Percentages are nationally representative with DHS weighted variable.

Table 4 describes the results from the multivariate hierarchical modelling analysis by block. The independent modifiable risk factors identified for EBF interruption were: C-section delivery (PR = 1·12, CI 95 % = 1·02, 1·23) and prelacteal feeding (PR = 1·51, CI 95 % = 1·37, 1·68). Non-pregnancy intention was a protective factor against EBF interruption (PR = 0·82, CI 95 % = 0·72, 0·93). The non-modifiable risk factor associated with EBF interruption was higher household income quintile (PR = 1·23, CI 95 % = 1·08, 1·40). Supplementary material provides detailed information regarding the EBF hierarchical models.

Table 4 Final multiple hierarchical model to identify the factors associated with interrupting EBF in children aged under 6 months (n 1512) (Colombia, DHS 2010)

* Significant at P < 0·05 **Significant at P < 0·001– reference category; no prevalence ratios or CI calculated.

Model 1: income quintile, number of adults in household, and infant age.

Model 2: Model 1 + mother living with partner, maternal overweight/obese, and pregnancy intention.

§ Model 3: Model 2 + delivery in public health facility, C-section, and number of prenatal visits.

Model 4: Model 3 + low infant birth weight, infant sex, and maternal primiparity.

Model 5: Model 3 + prelacteal feeds.

Discussion

To our knowledge, this is the first study to investigate determinants of breastfeeding practices in Colombia looking at modifiable risk factors from a healthcare system perspective. C-section, lack of skilled attendant at birth, prelacteal feeding, and maternal overweight/obesity were the identified modifiable risk factors that can be integrated and addressed through a package of health system interventions to improve breastfeeding outcomes in Colombia. Evidence has shown that designing tailored interventions focusing on multiple relevant risk factors increases breastfeeding rates, particularly in non-high income countries such as Colombia(Reference Victora, Bahl and Barros1,Reference Haroon, Das and Salam28) . Strategies that promote breastfeeding and engage individuals, facilities, and communities in interventions that integrate education and support for optimal breastfeeding practices at multiple levels have been successful in improving breastfeeding indicators and achieving country-level goals(Reference Victora, Bahl and Barros1,Reference Haroon, Das and Salam28,Reference Sinha, Chowdhury and Sankar29) .

In our study, C-section was a risk factor for both delayed breastfeeding initiation and interruption of EBF. C-section is often associated with obstetric complications that may lead to mother–newborn separation, which in turn can reduce the likelihood of EIBF and the duration of any breastfeeding or EBF(Reference Rowe-Murray and Fisher30Reference Cato, Sylvén and Lindbäck32). The prevalence of C-section is higher in Latin America relative to other low-and-middle income (LMIC) regions, accounting for 24–45 % of births in public and private sector facilities(Reference Benova, Macleod and Footman33,Reference Oakley, Benova and Macleod34) . This high prevalence combined with the dearth of skilled birth attendants found in our study points to a key barrier for EIBF. Skilled attendants at birth, particularly those who are properly trained in supporting optimal breastfeeding practices, are shown to improve maternal EIBF as well as longer-term feeding practices(Reference Selim35). Therefore, it is important to acknowledge that addressing barriers for timely breastfeeding initiation is a crucial first step for achieving longer term EBF and any breastfeeding success(Reference Cato, Sylvén and Lindbäck32,Reference Esteves, Daumas and Oliveira36,Reference DiGirolamo, Grummer-Strawn and Fein37) . Additionally, consistent evidence from countries across world regions has identified C-section as a risk factor for influencing pre-lacteal feeding(Reference Boccolini, Pérez-Escamilla and Giugliani38). Indeed, Boccolini et al. analysed data from Latin America and the Caribbean, including Colombia and found important inequities between C-section delivery and risk of prelacteal feeds. Specifically, women of lower socio-economic status experienced a heightened risk of milk-based prelacteal feeding associated with C-section delivery(Reference Boccolini, Pérez-Escamilla and Giugliani38). Pre-lacteal feeding is of serious concern as it has consistently been identified as a risk factor for EBF in cohort and cross-sectional studies globally(Reference Pérez-Escamilla, Segura-Millán and Canahuati39). These findings combined with the high rates of hospital or clinic births (95·6 %) in Colombia indicate an opportunity for improving healthcare system support and protection of breastfeeding mothers in the perinatal and postnatal period in Colombia.

Maternal pregnancy intention is generally described in the literature as associated with positive breastfeeding behaviour as compared with lack of intention at the time of conception(Reference Keddem, Frasso and Dichter40). However, in our study, non-pregnancy intention was associated with longer EBF perhaps because, in the Colombian context, women with unplanned pregnancies may have received more attention and support with regards to their breastfeeding plans. More than 50 % of pregnancies are not planned(Reference Sedgh, Singh and Hussain41), thus, providing breastfeeding education during the antenatal care is key to encouraging non-intentional pregnant women to breastfeed. A patient-centred approach to such promotion activities, such as incorporating pregnancy intention into counselling, is key to achieving optimally targeted and effective interventions(Reference Taylor and Cabral42,Reference Murray, Ricketts and Dellaport43) . Maternal overweight/obesity is a recognized risk factor for delayed breastfeeding initiation and is also implicated in shorter overall breastfeeding duration(Reference Amir and Donath44,Reference Wojcicki45) owing to biological, mechanical, behavioural and/or psychological factors. This characteristic is of particular relevance in the global context as prevalence of obesity is increasing worldwide and in LMIC such as Colombia(Reference Hossain, Kawar and El Nahas46). Providing timely support and counselling for obese and overweight women is crucial to improving both EIBF and EBF(Reference Claesson, Larsson and Steen47).

Several non-modifiable factors associated with suboptimal breastfeeding were found in our study. The finding of increased EBF interruption with higher income quintiles is consistent with findings from other LMIC(Reference Victora, Bahl and Barros1). Indeed, in these countries poorer women are more likely to initiate and continue breastfeeding for longer periods of time as compared with their richer counterparts(Reference Victora, Bahl and Barros1). Consistent with our findings, infant low birth weight and primiparity have been previously found to be associated with suboptimal breastfeeding practices(Reference Chapman and Perez-Escamilla31,Reference Patil, Turab and Ambikapathi48) . Lower maternal education and mother not living with partner were protective factors to delayed breastfeeding initiation in Colombia, which is somewhat consistent with some but not all studies previously conducted(Reference Patel, Bucher and Pusdekar49,Reference Dewey, Nommsen-Rivers and Heinig50) .

It is important to acknowledge that Colombia has been working for several years towards building an enabling breastfeeding environment. In 2010, a ‘Ten Year Plan’ (2010–2020) was formulated to strengthen breastfeeding programmes(7,Reference Betancourt51) . Universal maternity leave up to 18-weeks and maternal workplace protection strategies were recently legislated(52,53) . However, our findings clearly indicate that there are key modifiable risk factors that can be addressed through healthcare systems interventions. Indeed, the modifiable factors identified in this study can inform the development of a package of interventions to strengthen the coordination of efforts on breastfeeding counselling and support, including enhancing BFHI implementation(Reference Perez-Escamilla5,6) and breastfeeding counselling within the Colombian health systems(Reference Victora, Bahl and Barros1,Reference Rollins, Bhandari and Hajeebhoy22) . Evidence has shown that these identified factors are amenable to change and improvement through clear and specific recommendations and interventions to better support breastfeeding practices, underscoring the strong focus needed on the healthcare systems(54Reference Perez-Escamilla and Engmann56).

Our findings must be carefully interpreted due to the cross-sectional survey design, precluding the establishment of the temporality of associations. The retrospective nature of the surveying method also introduces potential recall bias. The external validity of the study was tested and both analytical samples were similar for most household and maternal variables analysed, differing only slightly in place of residence, marital status, and maternal age. However, these characteristics were not associated with both outcomes; therefore, we believe that this limitation did not significantly affect the external validity of the study. It is also important to note that the study data were from 2010; nevertheless, our literature review indicates that the findings are still very applicable to the current breastfeeding context in Colombia and can be used to generate hypotheses to be tested through future quasi-experimental and experimental studies(Reference Victora, Huttly and Fuchs19).

In conclusion, women in Colombia need additional breastfeeding support at multiple levels to engage in optimal infant feeding practices. The identification of modifiable risk factors for EIBF and EBF can help inform the development of a tailored package of interventions to improve the coverage and quality of breastfeeding counselling through the healthcare system in Colombia.

Acknowledgements

Acknowledgements: Not applicable. Financial support: This research received no specific grant from any funding agency, commercial or not-for-profit sectors. No other entity besides the authors had a role in the design, analysis, or writing of this article. Conflicts of interest: None. Authorship: S.F. was responsible for formulating the research question, analysing the data, and writing the article with advice, reviewing, and editing from R.P.-E. and G.B. Ethics of human subject participation: This research did not involve human subjects but relied on secondary data analysis of a deidentified dataset. Ethical standards were upheld in the research process.

Supplementary material

To view supplementary material for this article, please visit https://doi.org/10.1017/S1368980019002180

References

Victora, CG, Bahl, R, Barros, AJ, et al. (2016) 1 Breastfeeding in the 21st century: epidemiology, mechanisms, and lifelong effect. Lancet 387, 475490.CrossRefGoogle Scholar
Hansen, K (2016) Breastfeeding: a smart investment in people and in economies. Lancet 387, 416.CrossRefGoogle Scholar
Ochoa Parra, G & Casallas Murillo, AL (2014) Report on the Situation of Infant and Young Child Feeding in Colombia. The Committee on the Rights of the Child. International Baby Food Action Network (IBFAN).Google Scholar
Organización Panamericana de la Salud (2011) 30 años del Código en América Latina: Un recorrido sobre diversas experiencias de aplicación del Código Internacional de Comercialización de Sucedáneos de la Leche Materna en la Región entre 1981 y 2011.Google Scholar
Perez-Escamilla, R (2007) Evidence based breast-feeding promotion: the Baby-Friendly Hospital Initiative. J Nutr 137, 484487.CrossRefGoogle ScholarPubMed
UNICEF (2005) Instituciones Amigas de la Mujer y la Infancia en el Marco de los Derechos: Manual para su aplicación por el interés superior del Niño, pp. 5960.Google Scholar
Organizacion Panamericana de la Salud (2013) Avances y retos de la lactancia materna en Colombia 1970 a 2013: un recorrido sobre 40 años de experiencias en la aplicación de políticas públicas. Washington, DC: Organización Panamericana de la Salud.Google Scholar
Escobar, M-L, Giedion, U, Giuffrida, A, et al. (2009) Colombia: after a decade of health system reform. From Few to Many 1.Google Scholar
World Breastfeeding Trends Initiative (2016) Colombia 2016 Estado de la “estrategia mundial para la alimentación del lactante niño pequeño” [Iniciativa Mundial sobre Tendencias de la Lactancia Materna (WBTi), editor]. San José, Costa Rica: World Breastfeeding Trends Initiative.Google Scholar
World Breastfeeding Trends Initiative (2016) Seguimiento WBTi 2016 a 2017: Colombia 2017. Iniciativa munidal sobre tendencias de la lactancia materna. Bogotá, Colombia: International Baby Food Action Network (IBFAN): Coordinacion Nacional Grupo IBFAN Colombia.Google Scholar
Departamento Administrativo Nacional de Estadística (2015) Encuesta Nacional de Calidad de Vida – ECV 2015. Available from: https://www.dane.gov.co/files/investigaciones/condiciones_vida/calidad_vida/Boletin_Tecnico_ECV_2015.pdf Google Scholar
Profamilia/Colombia (2011) Colombia Encuesta Nacional de Demografía y Salud 2010. Bogotá: Profamilia, Ministerio de la Protección Social Republica de Colombia, and USAID.Google Scholar
UNICEF (2017) Statistics: Colombia. Available from: http://www.who.int/topics/breastfeeding/en/ Google Scholar
Ogbo, FA, Page, A, Idoko, J, et al. (2018) Population attributable risk of key modifiable risk factors associated with non-exclusive breastfeeding in Nigeria. BMC Public Health 18, 247.CrossRefGoogle ScholarPubMed
Lutter, CK & Morrow, AL (2013) Protection, promotion, and support and global trends in breastfeeding. Adv Nutr 4, 213219.CrossRefGoogle ScholarPubMed
Pan American Health Organization (2012) Colombia. Available from: http://www.paho.org/salud-en-las-americas-2012/index.php?option=com_docman&view=download&category_slug=hia-2012-country-chapters-22&alias=123-colombia-123&Itemid=231&lang=en Google Scholar
World Health Organization (2010) Indicators for assessing infant and young child feeding practices: part 1 & 2 definitions & measurement. Geneva: WHO.Google Scholar
World Health Organization (2018) Nutrition: Breastfeeding. Geneva: WHO.Google Scholar
Victora, CG, Huttly, SR, Fuchs, SC, et al. (1997) The role of conceptual frameworks in epidemiological analysis: a hierarchical approach. Int J Epidemiol 26, 224227.CrossRefGoogle ScholarPubMed
Boccolini, CS, Carvalho, ML & Oliveira, MI (2015) Factors associated with exclusive breastfeeding in the first six months of life in Brazil: a systematic review. Rev Saude Publica 49, 91.CrossRefGoogle ScholarPubMed
Venancio, SI & Monteiro, CA (2006) Individual and contextual determinants of exclusive breast-feeding in São Paulo, Brazil: a multilevel analysis. J Public Health Nutr 9, 4046.CrossRefGoogle Scholar
Rollins, NC, Bhandari, N, Hajeebhoy, N, et al. (2016) Why invest, and what it will take to improve breastfeeding practices? Lancet 387, 491504.CrossRefGoogle ScholarPubMed
Garret, DA, Sanga, JK, Kothari, MT, et al. (2011) Field-friendly techniques for assessment of biomarkers of nutrition for development. Am J Clin Nutr 94, 685S690S.CrossRefGoogle Scholar
Osorio, AM, Tovar, LM & Rathmann, K (2014) Individual and local level factors and antenatal care use in Colombia: a multilevel analysis. J Cad Saude Publica 30, 10791092.CrossRefGoogle ScholarPubMed
Carter, EB, Tuuli, MG & Caughey, AB, et al. (2016) Number of prenatal visits and pregnancy outcomes in low-risk women. J Perinatol 36, 178.CrossRefGoogle ScholarPubMed
StataCorp LLC. (2019) Mutlilevel generalized linear models. Available from https://www.stata.com/features/overview/multilevel-generalized-linear-models/ Google Scholar
Zou, G (2004) A modified Poisson regression approach to prospective studies with binary data. Am J Epidemiol 159, 702706.CrossRefGoogle ScholarPubMed
Haroon, S, Das, JK, Salam, RA, et al. (2013) Breastfeeding promotion interventions and breastfeeding practices: a systematic review. BMC Public Health 13, S20.CrossRefGoogle ScholarPubMed
Sinha, B, Chowdhury, R, Sankar, MJ, et al. (2015) Interventions to improve breastfeeding outcomes: a systematic review and meta-analysis. J Acta Paediatrica 104, 114134.CrossRefGoogle ScholarPubMed
Rowe-Murray, HJ & Fisher, JR (2002) Baby friendly hospital practices: cesarean section is a persistent barrier to early initiation of breastfeeding. Birth 29, 124131.CrossRefGoogle ScholarPubMed
Chapman, DJ & Perez-Escamilla, R (1999) Identification of risk factors for delayed onset of lactation. J Am Diet Assoc 99, 450454.CrossRefGoogle ScholarPubMed
Cato, K, Sylvén, SM, Lindbäck, J, et al. (2017) Risk factors for exclusive breastfeeding lasting less than two months—Identifying women in need of targeted breastfeeding support. PLoS One 12, e0179402.CrossRefGoogle ScholarPubMed
Benova, L, Macleod, D, Footman, K, et al. (2015) Role of the private sector in childbirth care: cross-sectional survey evidence from 57 low-and middle-income countries using demographic and health surveys. Trop Med Int Health 20, 16571673.CrossRefGoogle Scholar
Oakley, L, Benova, L, Macleod, D, et al. (2018) Early breastfeeding practices: descriptive analysis of recent demographic and health surveys. Matern Child Nutr 14, e12535.CrossRefGoogle Scholar
Selim, L (2018) Breastfeeding from the first hour of birth: What works and what hurts. New York: UNICEF.Google Scholar
Esteves, TMB, Daumas, RP, Oliveira, MI, et al. (2014) Factors associated to breastfeeding in the first hour of life: systematic review. Rev Saude Publica 48, 697708.CrossRefGoogle ScholarPubMed
DiGirolamo, AM, Grummer-Strawn, LM & Fein, S (2001) Maternity care practices: implications for breastfeeding. Birth 28, 94100.CrossRefGoogle ScholarPubMed
Boccolini, CS, Pérez-Escamilla, R, Giugliani, ERJ, et al. (2015) Inequities in milk-based prelacteal feedings in Latin America and the Caribbean: the role of cesarean section delivery. J Hum Lact 31, 8998.CrossRefGoogle ScholarPubMed
Pérez-Escamilla, R, Segura-Millán, S, Canahuati, J, et al. (1996) Prelacteal feeds are negatively associated with breast-feeding outcomes in Honduras. J Nutr 126, 27652773.Google ScholarPubMed
Keddem, S, Frasso, R, Dichter, M, et al. (2018) The association between pregnancy intention and breastfeeding. J Hum Lact 34, 97105.CrossRefGoogle ScholarPubMed
Sedgh, G, Singh, S & Hussain, R (2014) Intended and unintended pregnancies worldwide in 2012 and recent trends. Stud Fam Plann 45, 301314.CrossRefGoogle ScholarPubMed
Taylor, JS & Cabral, H (2002) Are women with an unintended pregnancy less likely to breastfeed? J Fam Pract 51, 431437.Google ScholarPubMed
Murray, EK, Ricketts, S & Dellaport, J (2007) Hospital practices that increase breastfeeding duration: results from a population-based study. Birth 34, 202211.CrossRefGoogle ScholarPubMed
Amir, LH & Donath, S (2007) A systematic review of maternal obesity and breastfeeding intention, initiation and duration. BMC Pregnancy Childbirth 7, 9.CrossRefGoogle ScholarPubMed
Wojcicki, JM (2011) Maternal prepregnancy body mass index and initiation and duration of breastfeeding: a review of the literature. J Women Health 20, 341347.CrossRefGoogle ScholarPubMed
Hossain, P, Kawar, B & El Nahas, M (2009) Obesity and diabetes in the developing world—a growing challenge. N Engl J Med 356, 213215.CrossRefGoogle Scholar
Claesson, M, Larsson, L, Steen, L, et al. (2018) “You just need to leave the room when you breastfeed” breastfeeding experiences among obese women in Sweden–a qualitative study. BMC Pregnancy Childb 18, 39.CrossRefGoogle ScholarPubMed
Patil, CL, Turab, A, Ambikapathi, R, et al. (2015) Early interruption of exclusive breastfeeding: results from the eight-country MAL-ED study. J Health Popul Nutr 34, 10.CrossRefGoogle ScholarPubMed
Patel, A, Bucher, S, Pusdekar, Y, et al. (2015) Rates and determinants of early initiation of breastfeeding and exclusive breast feeding at 42 days postnatal in six low and middle-income countries: a prospective cohort study. Reprod Health 12, S10.CrossRefGoogle ScholarPubMed
Dewey, KG, Nommsen-Rivers, LA, Heinig, MJ, et al. (2003) Risk factors for suboptimal infant breastfeeding behavior, delayed onset of lactation, and excess neonatal weight loss. Pediatrics 112, 607619.CrossRefGoogle ScholarPubMed
Betancourt, DP (2010) Plan Decenal Lactancia Materna 2010-2020. Bogota, Colombia: Ministerio de la Protección Social.Google Scholar
Congreso de Colombia (2017) Ley No 1823. Available from: http://es.presidencia.gov.co/normativa/normativa/LEY%201823%20DEL%204%20DE%20ENERO%20DE%202017.pdf Google Scholar
Secretaría Jurídica Distrital (2017) Proyecto de Acuerdo 422 de 2017: Por el cual se estableen estrategias para la protección, promoción, fomento y apoyo a la cultura de la lactancia materna en el Distrito Capital. Concejo de Bogotá D.C.Google Scholar
World Health Organization (1989) Protecting, promoting and supporting breast-feeding: the special role of maternity services. Geneva: WHO.Google Scholar
Lamprea, E & García, J (2016) Closing the gap between formal and material health care coverage in Colombia. Health Human Rights 2, 4965.Google Scholar
Perez-Escamilla, R & Engmann, C. (2019) Integrating nutrition services into health care systems platforms. Where are we and where do we go from here. Matern Child Nutr 15, 15.CrossRefGoogle Scholar
Figure 0

Fig. 1 Conceptual model: description of hierarchical interrelationship between explanatory and outcome variables. *Maternal Employment variable only considered in outcome 2, exclusive breastfeeding model

Figure 1

Fig. 2 Flow chart depicting analytical sample selection criteria.

Figure 2

Table 1 Descriptive characteristics of analytical sample (n 13 567), and bivariate analyses of delayed breastfeeding initiation among children aged under 24 months and unadjusted prevalence ratios (Demographic Health Surveys, Colombia 2010)

Figure 3

Table 2 Final multiple hierarchical model to identify the factors associated with delayed breastfeeding initiation in children aged under 24 months (n 6592) (Colombia, DHS 2010)

Figure 4

Table 3 Descriptive characteristics of analytical sample (n 1512) and bivariate analyses of EBF interruption among children aged under 6 months and unadjusted prevalence ratios (Demographic Health Surveys, Colombia 2010)

Figure 5

Table 4 Final multiple hierarchical model to identify the factors associated with interrupting EBF in children aged under 6 months (n 1512) (Colombia, DHS 2010)

Supplementary material: PDF

Finnie et al. supplementary material

Finnie et al. supplementary material

Download Finnie et al. supplementary material(PDF)
PDF 50.3 KB