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Breast-feeding mothers can exercise: results of a cohort study

Published online by Cambridge University Press:  01 October 2007

Dada Su
Affiliation:
School of Public Health, Curtin University, GPO Box U1987, Perth, Western Australia 6845, Australia
Yun Zhao
Affiliation:
School of Public Health, Curtin University, GPO Box U1987, Perth, Western Australia 6845, Australia
Colin Binns*
Affiliation:
School of Public Health, Curtin University, GPO Box U1987, Perth, Western Australia 6845, Australia
Jane Scott
Affiliation:
Division of Developmental Medicine, Human Nutrition Section, University of Glasgow, Glasgow, UK
Wendy Oddy
Affiliation:
School of Public Health, Curtin University, GPO Box U1987, Perth, Western Australia 6845, Australia
*
*Corresponding author: Email [email protected]
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Abstract

Objectives

To study the relationship between exercise by the mother and breast-feeding initiation and duration, and its effect on infant growth.

Design

A cohort study of mothers and infants, recruited at birth. Infant feeding methods were recorded in detail and breast-feeding was categorised as ‘any’ or ‘full’. Exercise levels were categorised using the metabolic equivalent tasks approach based on details of physical activity recorded in questionnaires.

Setting

Perth, Western Australia.

Subjects

A total of 587 mothers were interviewed on seven occasions over a period of 12 months.

Results

There was no difference in the means of infant weight and length changes, indicating that exercise appeared to have no significant influence on infant growth up to 52 weeks after birth (P = 0.236 and 0.974, respectively). The mother's level of exercise was not significantly associated with breast-feeding to 6 or 12 months. This applied to ‘full’ and ‘any’ categories of breast-feeding.

Conclusion

Exercise does not affect breast-feeding outcomes at the usual levels of activity undertaken by mothers. Breast-feeding and exercise are important for maintaining and promoting health, and this study provides reassurance to health professionals wishing to encourage mothers to continue both behaviours.

Type
Research Paper
Copyright
Copyright © The Authors 2007

Exercise is an important part of health-promotion programmes because of its documented benefits in promoting health at all ages. In the nutrition field, the benefits of breast-feeding receive as much emphasis as exercise in general health promotionReference Binns and Davidson1, 2.

There are numerous benefits of breast-feeding to the infant and the mother, which have been reviewed extensivelyReference Binns and Davidson1, Reference Binns3, 4. Exercise brings many health benefits for cardiovascular and musculoskeletal health5, Reference Shaw6. Energy expenditure provides the essential element in daily individual weight balance and recent research has shown the importance of exercise in the prevention of cancerReference Zhang, Lee and Binns7, Reference Jian, Shen, Lee and Binns8.

Because of the benefits of breast-feeding and of exercise, it is natural for mothers to want to do both. The effect of exercise on breast-milk composition and volume were reviewed by Clapp and Little in 1995, who noted that there had been occasional reports in the literature that physical activity had an adverse impact on breast-feeding performanceReference Clapp and Little9. Most concerns related to an increase in lactic acid in breast milk following exercise and its effect on taste to infants. However, subsequent studies have demonstrated that the quantity and quality of milk and infant growth are not adversely affected by moderate maternal exerciseReference Dewey, Lovelady, Nommsen-Rivers, McCrory and Lonnerdal10, Reference Wright, Quinn and Carey11. Where the mother's diet is adequate, exercise has been shown not to affect the long-chain polyunsaturated acid content of breast milkReference Bopp, Lovelady, Hunter and Kinsella12. However it is a commonly held belief amongst mothers that exercise while breast-feeding can affect the taste of breast milk and this may affect their infant's health. A literature search has not revealed any previous studies of breast-feeding and exercise in Australia.

An important question for mothers is ‘Can I continue (or recommence) to exercise and breast-feed?’ Mothers today have been educated about the overwhelmingly positive benefits of breast-feeding for their infants and at the same time they wish to exercise to regain their pre-pregnancy fitness level. Thus the objectives of the present study were to document the relationships between exercise by the mother and breast-feeding initiation and duration, and the effect on infant growth.

Methods

The second Perth Infant Feeding Study (PIFS II) was conducted between 2002 and 2004. Mothers were recruited from women delivering at two public hospitals in Perth, Western Australia. Women were eligible for the study if they had delivered a live infant free of serious health problems requiring transfer to Perth's major maternity hospital for critical careReference Graham, Scott, Binns and Oddy13. A total of 870 mothers of newborn infants were contacted and 587 completed the baseline questionnaire while they were in hospital on their infant feeding practices and preferences. This represented 68% of the eligible mothers contacted; a high response rate for this type of survey, reducing the likelihood of a response bias. The mothers in the study were interviewed on seven occasions at regular intervals until their infants reached 12 months of age. There were no significant differences in the age and level of education of participants and non-participants, indicating that participants were representative of the population from which they were drawnReference Graham, Scott, Binns and Oddy13. The categories of breast-feeding used in this study were ‘any breast-feeding’ and ‘full breast-feeding’Reference Webb, Marks, Lund-Adams, Rutishauser and Abraham14. ‘Full breast-feeding’ includes infants who received only breast milk or breast milk plus small amounts of water, water-based drinks or fruit juice.

There are many ways in which exercise can be measured. Some are very restrictive such as the use of whole-body calorimetry, while modern studies use doubly labelled water, which is accurate and unobtrusiveReference Levine15. However this method has the disadvantage of high cost and in this study the large sample size precluded its use. For that reason exercise was measured with a comprehensive questionnaire using the metabolic equivalent task (MET) approach. Logging physical activity and multiplying the nature and duration of these activities by their metabolic equivalents has been widely used to estimate activity thermogenesisReference Levine15.

Physical activity was assessed in terms of type, intensity and duration. The type of exercise included all occupational and leisure-time activities. Intensity was categorised as light, moderate (e.g. cycling on level ground, gardening, housework, cooking, walking, tai chi) or vigorous (e.g. moving heavy furniture, loading or unloading trucks, jogging, cycling up hill, swimming). The classification of tasks was based on the amount of energy a person expends in performing the activity. The questions used were developed for the Hawaiian Cancer StudyReference Goodman, Hankin, Wilkens, Lyu, McDuffie and Liu16 and the National Health Survey17 and have been used in previous studiesReference Zhang, Lee and Binns7, Reference Jian, Shen, Lee and Binns8.

To measure duration, the weekly average time spent in each activity level was recorded. The overall physical activity exposure was then quantified in terms of MET, representing the number of kilocalories per hour each kilogram of body weight expended in activities. For this study energy expenditure was examined in quartiles in the period since the previous interview and then summed over the 6- or 12-month period.

The project was approved by the research ethics committees of the two participating hospitals and by the Human Research Ethics Committee of Curtin University. All mothers were given an information sheet about the study and those willing to participate gave their signed informed consent before being asked to complete the questionnaires.

The data were coded and analysed using the SPSS for Windows program (SPSS Inc.). Initially descriptive statistics were computed and differences between MET groups were examined using χ2 analysis. Cox regression analysis controlling for a variety of factors known to be associated with breast-feeding duration was used to model the time-to-event data and to determine which variables had an independent effect on the duration of breast-feeding (‘any’ and ‘full’) for those mothers who were breast-feeding at the time of discharge from hospital.

Results

The demographic factors of mothers and infants that might be expected to have an influence on undertaking exercise at a selected time point, week 4, are listed in Table 1. This time period was chosen as mothers would be unlikely to return to exercise before this time. The numbers and percentage of mothers who exercised at the four levels of MET-hours per week are given for each variable. The analysis of demographic variables showed that mother's parity (P = 0.000) and infant birth weight (P = 0.013) were significantly associated with undertaking more exercise at week 4. The relationships between demographic factors and undertaking exercise were calculated for other time points (before pregnancy, week 10, 16, 22, 32, 40 and 52) and were similar to the results at week 4.

Table 1 Demographic variables and exercise at week 4 (n=587)

MET – metabolic equivalent task.

Data are presented as n (%).

* Significant association between the variables parity (P = 0.000) and birth weight (P = 0.013) with exercise.

Exercise and breast-fed infant weight and length

Infant weight and length were used as proxy measures to assess the adequacy of breast-milk production. Non-parametric tests were used to explore the influence of exercise on infant weight and length. The means of weight and length changes between week 4 and week 52 of infants whose mothers were breast-feeding by each intensity level activity were compared. Figure 1 is a box-and-whisker plot of weight gain, with the box representing the interquartile range and the whiskers the range. There was no difference in the means of infant weight and length changes, indicating that exercise appeared to have no significant influence on infant growth up to 52 weeks after birth (P = 0.236 and 0.974, respectively).

Fig. 1 Infant weight change during the first year of life by maternal exercise in the Perth Infant Feeding Study Mark II (MET – metabolic equivalent task)

Influence of exercise on breast-feeding

The duration of ‘any breast-feeding’ and ‘full breast-feeding’ up to 12 months was estimated using the Kaplan–Meier survival method for different exercise levels (quartiles). The exercise intensity levels were measured by total MET-hours in a year (see Table 2). There was no difference in the duration of ‘any’ or ‘fully’ breast-feeding between each level of exercise intensity (P = 0.1275 and 0.2092, respectively). In addition, the determinants of duration of ‘any breast-feeding’ and ‘full breast-feeding’ to 6 months were explored with multivariate analysis using Cox regression and the forward selection procedure. A summary of the results obtained from the Cox regression of ‘any breast-feeding’ to 6 months is shown in Table 2. Details of the variables associated with breast-feeding duration to 6 months have been published previously and in the current paper only detailed results for the effect of exercise are presentedReference Scott, Binns, Oddy and Graham18, Reference Scott, Binns, Graham and Oddy19.

Table 2 Association of exercise with the risk of discontinuing ‘any breast-feeding’ before 6 months, before and after adjustment for potential confounders*, in the Perth Infant Feeding Study Mark II

MET – metabolic equivalent task; RR – relative risk; CI – confidence interval.

 − 2 log likelihood (deviance) = 2056.418, df = 16.

* The variables controlled for in the model were infant sex, infant birth weight, infant admitted to a special-care nursery, maternal marital status, demand feeding, parity, attendance at antenatal classes, maternal age, maternal infant feeding attitude score, maternal occupation, age of infant when mother returned to work, maternal years of education, maternal country of birth, how many times mother had been sick in one year, maternal grandmother's feeding preference, father's feeding preference, age by which dummy was introduced, time at which infant feeding method decided, how many times mother had breast-feeding problems in one year, and total MET-hours spent for exercise in one year.

Non-significant variables were sex, infant admitted to a special-care nursery, maternal marital status, demand feeding, parity, attendance at antenatal classes, maternal occupation, maternal years of education, maternal country of birth, how many times mother had been sick in one year, and total MET-hours spent for exercise in one year.

All variables in the final model were variables for which, when excluded, the change in deviance compared with the corresponding χ2 test statistic on the relevant degrees of freedom was significant.

The analysis was repeated for ‘full breast-feeding’ duration up to 6 months and again for ‘any breast-feeding’ to 12 months, as 22% of the mothers in this study were still breast-feeding at 1 year. The amount of exercise undertaken by the mothers was not associated with ‘any breast-feeding’ or ‘full breast-feeding’ duration up to 6 months or up to 12 months. Specifically, mothers who had different levels of energy expenditure (MET-hours) were not found to be statistically different in their duration of any breast-feeding.

Discussion

Breast-feeding and exercise are both of major health interest to parents, particularly mothers. This analysis of data from the PIFS II indicated that there was no evidence to support the claim that exercise, especially moderate exercise, would have a negative impact on breast-feeding. None of the mothers in this study consistently reached levels of energy activity that would be associated with elite international athletes, so no information is available on the effects of extreme energy expenditure on breast-feeding performance.

Effect of exercise on infant growth

The study demonstrated that the level of exercise by breast-feeding mothers does not affect the growth of their infants in terms of weight and length. The lack of an impact on growth in breast-fed infants is a good indication that exercise has no effect on the quantity and quality of breast-milk production. Our results support those reported by Lovelady et al., who compared eight well-nourished exercising and eight sedentary women whose infants were 9–24 weeks old and exclusively breast-fedReference Lovelady, Lonnerdal and Dewey20. They demonstrated there was no difference between the groups in plasma hormones, milk energy, lipid, protein or lactose content. In addition they confirmed that milk volume was slightly though not significantly higher in the exercise group (839 vs. 776 g day− 1).

Some previous studies showed that lactic acid seemed to increase in the breast milk of women exercising at maximal intensityReference Wallace, Inbar and Ernsthausen21. Controversy exists as to whether this short-term increase in lactic acid makes the breast milk less acceptable to the nursing infantReference Wright, Quinn and Carey11, Reference Wallace, Inbar and Ernsthausen21. While we did not directly measure lactic acid or any other markers of taste in breast milk, our finding that maternal exercise was not associated with either infant growth or breast-feeding duration would suggest that maternal exercise had no adverse effect on the taste of breast milk.

We could locate no published papers on cohort studies of the association between exercise and duration of breast-feeding. The present study has indicated that breast-feeding duration up to 6 and 12 months was not adversely affected by exercise, regardless of the intensity. Studies that include the duration of breast-feeding as a variable show that there is an increasing dose–response in health benefits, i.e. the longer the duration of breast-feeding, the more health benefits are accrued by both mothers and infantsReference Finch and Daniel2224. The finding of the lack of a relationship between exercise and duration of breast-feeding in the current study may help to reduce the socio-cultural inhibition of extended breast-feeding to postpartum exercise for breast-feeding women.

It is rare that studies with negative findings are so significant for health promotion. In this case, the finding that mothers can exercise and continue to breast-feed is a significant finding. This should be the basis of health-promotion programmes to mothers and fathers. Fathers have an important role to play in caring for infants while their partner exercises or by accompanying the mother. Modern technology (improved exercise baby carriages) allows mothers to walk and jog with their infants in safety.

There are several limitations that need to be taken into account when considering the results of this study. None of the mothers was exercising at the level of an elite athlete, and hence the results may not apply to extreme levels of exercise. The exercise levels were measured by a standardised questionnaire and no independent measures of energy expenditure are available, such as metabolic studies using doubly labelled water. This study included mothers recruited from public hospitals and therefore cannot be considered to be representative of more affluent populations. However, these mothers are representative of the ‘hard to reach’ groups in health-promotion programmes. Therefore the lessons learned from this study could be appropriately applied in health-promotion programmes. The message ‘you can exercise and breast-feed’ should be communicated to all mothers and mothers-to-be.

Conclusion

In the past it has been common practice to advise mothers to restrict the amount of exercise they do while breast-feeding, as it would affect the taste of their breast milk and overall breast-milk production. This study shows that mothers can exercise without having any impact on breast-feeding performance. This is important news for all mothers and for all health professionals who communicate health messages to mothers.

Acknowledgements

Sources of funding: The Perth Infant Feeding Study was funded by the Australian Department of Health and Ageing. The project was initiated by C.B., the principal investigator.

Conflict of interest declaration: The authors declare that they have no conflicts of interest.

Authorship responsibilities: D.S. – data collection, data analysis, paper writing; Y.Z. – statistical analysis; C.B. – chief investigator, project design, data analysis, paper writing; J.S. – associate investigator, data management, paper writing; W.O. – associate investigator, paper writing.

Acknowledgements: We thank the mothers, hospitals, nursing staff and medical practitioners who assisted in the study. Without their assistance the study would not have been possible.

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Figure 0

Table 1 Demographic variables and exercise at week 4 (n=587)

Figure 1

Fig. 1 Infant weight change during the first year of life by maternal exercise in the Perth Infant Feeding Study Mark II (MET – metabolic equivalent task)

Figure 2

Table 2 Association of exercise with the risk of discontinuing ‘any breast-feeding’ before 6 months, before and after adjustment for potential confounders*, in the Perth Infant Feeding Study Mark II