J Bielicki1, R Huch, U von Mandach. 1. Department of Obstetrics, Zurich University Hospital, Frauenklinikstrasse 10, CH-8091 Zurich, Switzerland.
Abstract
OBJECTIVE: To compare the time-course of breast milk leptin levels between term and preterm pregnancy. DESIGN: Open longitudinal prospective randomised study. METHODS:RIA of leptin levels in milk from 33 mothers (term pregnancy: n=24; preterm: n=9) at three postpartum intervals: 2-3 days, 4-5 days and 6 weeks (intervals A, B and C), combined with serum in 23 mothers (term: n=17; preterm: n=6) in interval A. Milk samples were sonicated before incubation. RESULTS:Interval A leptin levels were approximately tenfold higher in serum than in milk (term: 13.24+/-2.48 vs 1.34+/-0.14 ng/ml, P<0.0001; preterm: 4.46+/-1.05 vs 0.63+/-0.18 ng/ml, P<0.0005), and higher in term than in preterm serum (P=0.03). Milk levels were higher in the term vs preterm group in intervals A (P<0.01) and B (P<0.05). In the term group they declined significantly from interval A to interval B (P<0.05) but did not vary significantly in the preterm group. Serum levels correlated with maternal body mass index; milk levels showed only moderate correlation with maternal and infant weight or body mass index. CONCLUSION: The reasons for the presence and differential longitudinal expression of leptin in human milk after term and preterm pregnancy remain unknown. A hypothesis, requiring further study, is that persistently lower leptin levels in preterm milk act as a compensatory release of a brake on neonatal growth.
RCT Entities:
OBJECTIVE: To compare the time-course of breast milk leptin levels between term and preterm pregnancy. DESIGN: Open longitudinal prospective randomised study. METHODS: RIA of leptin levels in milk from 33 mothers (term pregnancy: n=24; preterm: n=9) at three postpartum intervals: 2-3 days, 4-5 days and 6 weeks (intervals A, B and C), combined with serum in 23 mothers (term: n=17; preterm: n=6) in interval A. Milk samples were sonicated before incubation. RESULTS: Interval A leptin levels were approximately tenfold higher in serum than in milk (term: 13.24+/-2.48 vs 1.34+/-0.14 ng/ml, P<0.0001; preterm: 4.46+/-1.05 vs 0.63+/-0.18 ng/ml, P<0.0005), and higher in term than in preterm serum (P=0.03). Milk levels were higher in the term vs preterm group in intervals A (P<0.01) and B (P<0.05). In the term group they declined significantly from interval A to interval B (P<0.05) but did not vary significantly in the preterm group. Serum levels correlated with maternal body mass index; milk levels showed only moderate correlation with maternal and infant weight or body mass index. CONCLUSION: The reasons for the presence and differential longitudinal expression of leptin in human milk after term and preterm pregnancy remain unknown. A hypothesis, requiring further study, is that persistently lower leptin levels in preterm milk act as a compensatory release of a brake on neonatal growth.
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