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Feeding behaviour and energy balance in 4- to 6-month-old infants: adaptive changes during exclusive breast-feeding

Published online by Cambridge University Press:  30 June 2021

S. B. Nielsen ,
J. C. K. Wells ,
M. S. Fewtrell  and
J. J. Reilly
S. B. Nielsen
Affiliation:
University of Glasgow, Glasgow, UK
J. C. K. Wells
Affiliation:
University College London, London, UK
M. S. Fewtrell
Affiliation:
University College London, London, UK
J. J. Reilly
Affiliation:
University of Glasgow, Glasgow, UK
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Abstract

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Abstract
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Proceedings of the Nutrition Society , Volume 67 , Issue OCE6: A Scientific Meeting was held at the West Park Conference Centre, Dundee, Scotland, on 27 and 28 March 2008 , May 2008 , E220
Copyright
Copyright © The Authors 2008

The WHO recommends exclusive breast-feeding (EBF) until 6 months of age( Footnote 1 ). EBF indisputably has many advantages for mother and infant, but a systematic review of cross-sectional studies has found only sparse data on energy transfer from mother to baby after age 5 months( Footnote 2 ), and has suggested uncertainty as to whether sufficient adaptive changes take place during EBF to accommodate increasing infant energy needs during EBF to 6 months( Footnote 3 ). Longitudinal studies have failed to find significant changes in breast milk volume or energy content after 4 months of lactation( Footnote 2 ). Most studies have used test weighing combined with milk sampling, which may interfere with breast-feeding routines, and provide unrepresentative estimates of the energy content of breast milk, so there is a need for more evidence using isotopic techniques. In the present investigation isotopic techniques have been used in cross-sectional and longitudinal studies in order to identify the adaptive changes that occur to make EBF possible for 6 months. Data from the cross-sectional study are presented here.

The metabolisable energy content of breast milk was examined in 21 infants at 12.3 (sd 0.6) weeks of age( Footnote 4 ). A dose-to-infant of doubly-labelled water was administered through a feeding tube, and disappearance rates of Deuterium and Oxygen-18 was measured from daily urine samples for the subsequent 7 days, as described previously( Footnote 4 ).

Mean breast milk intake was 879 (sd 121) ml/d and the metabolisable energy density content was 2.59 kJ (0.62 kcal)/ml breast milk (Table).

This cross-sectional study suggests that the metabolisable energy density of breast milk may be lower than literature values, which are commonly found to be 2.9–3.0 kJ/ml (ranging from 2.6–3.3 kJ/ml)( Footnote 2 ). Increasing infant energy needs during EBF could be met by increased breast milk energy density and/or milk volume. Alternatively, infant growth rate may decrease, delaying the point at which breast milk energy supply becomes insufficient. To investigate this it is necessary to conduct a longitudinal observational study on the energetics, growth and body composition of healthy EBF infants from 4 to 6 months of age, using the doubly-labelled water method, and such a study is underway.

References

1. World Health Organization (2002) Infant and Young Child Nutrition. Global Strategy on Infant and Young Child Feeding. Geneva: WHO.

2. Reilly, JJ, Ashworth, S & Wells, JC (2005) Br J Nutr 94, 5663.CrossRefGoogle Scholar

3. Reilly, JJ & Wells, JC (2005) Br J Nutr 94, 869–872.CrossRefGoogle Scholar

4. Wells, JCK & Davies, PSW (1995) Am J Hum Biol 7, 8592.CrossRefGoogle Scholar