Association between breast feeding and asthma in 6 year old children: findings of a prospective birth cohort studyBMJ 1999; 319 doi: https://doi.org/10.1136/bmj.319.7213.815 (Published 25 September 1999) Cite this as: BMJ 1999;319:815
- W H Oddy, senior research officer ()a,
- P G Holt, National Health and Medical Research Council senior principal research fellowa,
- P D Sly, National Health and Medical Research Council principal research fellowa,
- A W Read, senior research officera,
- L I Landau, professorb,
- F J Stanley, professorc,
- G E Kendall, study coordinatorc,
- P R Burton, headd
- a TVW Telethon Institute for Child Health Research, PO Box 855, West Perth, Western Australia, Australia 6872
- b Faculty of Medicine and Dentistry, University of Western Australia, Nedlands, Western Australia, Australia 6009
- c TVW Telethon Institute for Child Health Research
- d Division of Biostatistics and Genetic Epidemiology, Department of Paediatrics, University of Western Australia, Princess Margaret Hospital for Children, Subiaco, Western Australia 6008, Australia
- Correspondence to: W H Oddy
- Accepted 13 July 1999
Objectives: To investigate the association between the duration of exclusive breast feeding and the development of asthma related outcomes in children at age 6 years.
Design: Prospective cohort study.
Setting: Western Australia.
Subjects: 2187 children ascertained through antenatal clinics at the major tertiary obstetric hospital in Perth and followed to age 6 years.
Main outcome measures: Unconditional logistic regression to model the association between duration of exclusive breast feeding and outcomes related to asthma or atopy at 6 years of age, allowing for several important confounders: sex, gestational age, smoking in the household, and early childcare.
Results: After adjustment for confounders, the introduction of milk other than breast milk before 4 months of age was a significant risk factor for all asthma and atopy related outcomes in children aged 6 years: asthma diagnosed by a doctor (odds ratio 1.25, 95% confidence interval 1.02 to 1.52); wheeze three or more times since 1 year of age (1.41, 1.14 to 1.76); wheeze in the past year (1.31, 1.05 to 1.64); sleep disturbance due to wheeze within the past year (1.42, 1.07 to 1.89); age when doctor diagnosed asthma (hazard ratio 1.22, 1.03 to 1.43); age at first wheeze (1.36, 1.17 to 1.59); and positive skin prick test reaction to at least one common aeroallergen (1.30, 1.04 to 1.61).
Conclusion: A significant reduction in the risk of childhood asthma at age 6 years occurs if exclusive breast feeding is continued for at least the 4 months after birth. These findings are important for our understanding of the cause of childhood asthma and suggest that public health interventions to optimise breast feeding may help to reduce the community burden of childhood asthma and its associated traits.
Asthma is the leading cause of admission to hospital in Australian children and its prevalence is increasing
Whether breast feeding protects against asthma or atopy, or both, is controversial
Asthma is a complex disease, and the relative risks between breast feeding and asthma or atopy are unlikely to be large; this suggests the need for investigation in a large prospective birth cohort with timely assessment of atopic outcomes and all relevant exposures
Exclusive breast feeding for at least 4 months is associated with a significant reduction in the risk of asthma and atopy at age 6 years and with a significant delay in the age at onset of wheezing and asthma being diagnosed by a doctor
Public health interventions to promote an increased duration of exclusive breast feeding may help to reduce the morbidity and prevalence of childhood asthma and atop
Asthma is the leading cause of admission to hospital in Australian children and its prevalence is increasing.1 2 Susceptibility to asthma may be increased by factors present early in life.3 These include being male, low birth weight, preterm birth, young maternal age, maternal smoking and, possibly, early cessation of exclusive breast feeding.4 Environmental allergens including house dust mite, grasses, or pollens may also cause sensitisation. Conversely, early exposure to respiratory infections may be protective.5 6
Environmental exposures in the early months of life are critical for the development of the immune system but have the potential to predispose to allergy or atopy.7 8 Breast feeding may be an important determinant of the immune response,9 10 but whether breast feeding protects against asthma or atopy, or both, is controversial.11
A prospective study of children from birth to 17 years concluded that exclusive breast feeding protects against atopic disease throughout childhood and into adolescence.4 Although this study was comparatively small, a larger study of children from birth to 7 years reported that the probability of respiratory symptoms (wheeze, breathlessness, or cough) occurring at or before age 7 was reduced in children exclusively breast fed for at least 15 weeks.12 Another study13 showed a protective effect of breast feeding on atopy only when the age of the infant when other milk was introduced was considered.14 Several studies have, however, failed to show an association between breast feeding and either asthma or atopy.15–17 Halpern et al17 reported childhood allergy to be equally common in children fed human, soy, or cows' milk. Breast feeding has also been reported to have no effect on the incidence of eczema,13 atopic disease, or raised IgE concentrations and may only be protective in non-atopic children.18 In one review, Kramer19 concluded that many studies, both negative and positive, exhibited significant flaws, and that future studies should improve both biological and methodological aspects of design and analysis.
If exclusive breast feeding is protective against childhood asthma it requires investigation in a large childhood cohort followed prospectively from birth, with assessment of both exposures and outcomes. We report the results of a unique study in Western Australian of this type.
Subjects and methods
The Western Australian pregnancy cohort study is a prospective birth cohort initially established (1989-92) as a randomised trial, which showed that pregnancy outcome was not improved in women who had multiple ultrasonography.20 Recruitment to the study was from antenatal clinics at King Edward Memorial Hospital and nearby private practices. A total of 2979 children were enrolled by 18 weeks of gestation. Of 2860 live births, 13 have since died and 121 have been lost to follow up. The parents of 124 children declined follow up or withdrew at a later date. Overall, 2602 (91.0%) of the liveborn children remained available for follow up at 6 years of age.
At enrolment, parents completed a questionnaire about the general health of the study child. Data recorded at birth included sex, gestational age, birth weight, and smoking within the household. Parents kept a diary of their child's health in the first year. When the children were 1 year old, the parents completed a standardised questionnaire that included items about feeding: 2411 questionnaires were returned (84.3% of the liveborn cohort, 92.7% of those consenting to follow up), and 2365 children (82.7%, 90.9%) attended for clinical assessment.
Shortly before a child was 6 years old (71 (SD 6.6) months), the parents were contacted and sent another questionnaire, which included items about smoking in the household, family history of respiratory symptoms, and illnesses in the study child Questionnaires were returned for 2187 children (76.5% of the liveborn cohort, 84.1% of children available for follow up). Results of skin prick tests were available for 1598 (61.4%) children (79.4% of 2012 children examined).
Childhood asthma is a complex phenotype, and several phenotypic definitions were applied in children aged 6 years. These included cumulative incidence measures—asthma diagnosed by a doctor and wheeze three or more times since age 1 year—and point prevalence measures—wheeze in the past year, sleep disturbance due to wheeze in the past year,2 and objective atopy defined by the results of a skin prick test. A child was categorised atopic if the wheal to one or more aeroallergens (house dust mite, ryegrass, cat dander, and aspergillus mould) was ≥2 mm and larger than a control 10 minutes after testing. A 2 mm cut off point was used rather than 3 mm, which is more usual in studies of adults, because wheal size increases with age.21
Exposure to breast feeding was measured in two ways: the duration of breast feeding and the duration of exclusive breast feeding (child's age when other milk was introduced). These were analysed both as continuous and binary variables and were highly correlated (P<0.001). Over a range of models, the duration of exclusive breast feeding was found to be a better determinant of outcome than the duration of breast feeding, and child's age at which other milk was introduced became the key exposure variable. Given the statistical power, we elected for conservatism and based the primary analysis on a binary variable Dichotomisation was at 4 months, the integer cut off point closest to the median; this choice was statistically powerful and bioclinically logical.12
Potential confounding exposures included sex, gestational age, being of Aboriginal descent, and smoking in the household. These were modelled as binary covariates. Smoking in the household was defined as positive if ≥1 cigarettes a day were smoked inside the house. Maternal education and family income were modelled as categorical factors. Maternal age and height were modelled as continuous covariates.
Childcare or attendance at a playgroup in the first 3 months of life was used as a proxy for early exposure to respiratory infections. Our conclusions pertaining to the effects of breast feeding were, however, similar no matter how respiratory infections were modelled Parental history of asthma was used as a potential binary confounder, but it was only used in secondary (exploratory) analysis because family history may in part reflect the action of the causal pathway of interest, and naive adjustment could be misleading.
Significance tests for contingency tables were on the basis of the χ2 test for association (without continuity correction). Unconditional logistic regression was used to investigate the multivariate relation between binary response variables and explanatory exposures of interest. Age at asthma diagnosis and onset of wheezing were analysed using Kaplan Meier survival functions and the log rank statistic. We used Cox regression for analysis of multivariate survival. Regression models were subjected to standard tests of goodness of fit including an investigation of the need for additional polynomial or interaction terms, an analysis of Pearson and Martingale residuals, and tests of regression leverage and influence.22
Statistical significance was defined at the two sided P=0.05 level. The final data set generated more than 99% power to detect an odds ratio of 2.0 and more than 95% power to detect an odds ratio of 1.5 for most analyses.
The key characteristics of the cohort are detailed in table 1. A strong association (P<0.001) was found between most measures of asthma and wheeze suggesting that the end point definitions were internally consistent with each other.
Binary end points
Table 2 details the results of the logistic regression analyses. Having adjusted for the potential confounding of other risk factors, the introduction of milk other than breast milk before 4 months of age was positively associated with all primary end points at age 6 years. Being male, of gestational age less than 37 weeks, and smoking in the household were also significant risk factors for the development of asthma and wheeze. Early exposure to childcare was negatively associated.
Other exposures investigated included maternal age, older siblings at birth, the percentage of expected birth weight, smoking in pregnancy, the age that solids were introduced, maternal education, and family income, and none made a significant contribution to model fit Substantive conclusions were also unaffected if family history was added to the models.
Conclusions pertaining to asthma and wheezing were robust to the choice of cut off point for the age other milk was introduced (table 3). However, the association between a positive skin prick test result and age at introduction of other milk, which was positive at all cut off points between 3 and 6 months, was significant (P=0.019) only at 4 months. Total duration of breast feeding exhibited a weaker association with the end points although all associations were positive. If duration of breast feeding (cut off point of 6 months) was added to the models in table 2, the age other milk was introduced consistently remained significant whereas duration of breast feeding did not.
In Australia, Aboriginal children have high rates of respiratory illness There were few Aboriginal children in our study (54 of 1902 (2.8%) children) but they were non-significantly more likely to be given milk other than breast milk before 4 months (odds ratio 1.42, 95% confidence interval 0.73 to 2.78), and they were at significantly greater risk of asthma being diagnosed by a doctor (1.84, 1.07 to 3.17; P=0.029), current wheeze (2.05, 1.16 to 3.62; P=.0014), and sleep disturbance due to wheeze (3.28, 1.80 to 6.00; P<0.001) but not a positive skin prick test result (0.95, 0.50 to 1.80; P=0.87). The exclusion of all Aboriginal children from primary analyses made no substantial difference to our conclusions.
Age at onset of asthma and wheeze
Figures 1 and 2 detail the Kaplan Meier survival functions indicating age at diagnosis of asthma by a doctor, and age at onset of wheezing, stratified by duration of exclusive breast feeding. The cumulative incidence of both asthma (P=0.001) and wheeze (P<0.001) was higher if other milk was introduced before 4 months. Cox regression showed that age at asthma diagnosis (hazard ratio 1.22, 1.03 to 1.43; P=0.02) and age at first wheeze (1.36, 1.17 to 1.59; P=0.0002) were both earlier if other milk was introduced before 4 months, after controlling for confounders.
The Western Australian pregnancy cohort study has a high response rate. Nevertheless, random non-response may have reduced statistical power. Our reported power calculations are on the basis of the final sample size and take account of non-response, therefore our positive conclusions remain valid. Any systematic non-response is most likely to be determined by disease status and social class and this may have biased estimated effects in either direction. But, the addition of social class covariates to our models made little difference to point estimates. Mothers were enrolled in midpregnancy, and selection bias was unlikely in relation to key outcomes. Most dropout occurred early in the study and was unlikely to have been associated with the later development of asthma or atopy. The study is often viewed as representative of the general Western Australian population.20 Nevertheless, recruitment was mainly through a tertiary obstetric hospital and included a small excess of mothers with preterm babies. Our models, however, include a covariate reflecting preterm delivery, and confounding due to pregnancies at risk should not have distorted our conclusions.
Measurement of outcome data was based on validated methodologies, and the study was powerful enough to detect the risk ratios of only moderate size that were likely to be found in the study of a complex disease such as asthma. Standard regression diagnostics showed that our models fitted well.22
Protective effect of exclusive breast feeding
Our study provides evidence consistent with others 4 12 14 of a protective effect of exclusive breast feeding (≥4 months) against a range of end points reflecting asthma and atopy. This protective effect may operate through several mechanisms. These include the exclusion of milk other than breast milk (and its potentially allergenic components) from the infant's diet; and the provision of immunomodulatory, anti-inflammatory, nutritional, or other components in human milk.9 23 24 Like others,14 we found that it was the age that other milk was introduced rather than the duration of breast feeding that was more closely associated with asthma or atopy at age 6 years. This favours “exclusion” mechanisms. The two variables are, however, strongly correlated, and we cannot definitively reject the possibility that it is breast feeding itself that is of prime importance.
Delaying the introduction of milk other than breast milk until at least 4 months of age may protect against asthma and atopy later in childhood. These findings are relevant to our understanding of the cause of childhood asthma and also to public health. Although further studies and analyses are required to confirm these benefits and to understand better the mechanisms concerned, public health interventions promoting an increased duration of exclusive breast feeding may help to reduce the morbidity and prevalence of childhood asthma.
Contributors: WHO developed the hypothesis, undertook statistical analyses, and wrote the main drafts of the paper; she will act as guarantor for the paper. PGH, PDS, AWR, and GEK were involved in the design and conduct of the key follow ups and assisted with the interpretation of the data FJS and LIL were involved in the initial study design and coordinating the study follow ups. PRB was involved in the design and conduct of the key follow ups and supervised the statistical analyses and write up of the paper.
Funding WHO was supported by a research award from the Western Australian Health Promotion Foundation. The Western Australian pregnancy cohort study is funded by project and programme grants from the National Health and Medical Research Council of Australia, and GlaxoWellcome.
Competing interests None declared.