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PEDIATRICS Vol. 108 No. 3 September 2001, pp. 624-630
Received Oct 19, 2000; accepted Jan 5, 2001.
,
From the * LOCUS for Homocysteine and Related Vitamins and
Objective. Cobalamin deficiency
accompanied by bone marrow dysfunction and impaired central nervous
system development has been reported in infants who were born to
mothers with low cobalamin intake. We investigated the relation between
cobalamin status in newborns and in their healthy mothers who consumed
an omnivorous diet.
Methods. Serum cobalamin and the functional markers plasma
methylmalonic acid (MMA) and total homocysteine (tHcy) were determined
in 173 newborns and their mothers. Forty-five children and mothers were
reinvestigated after 6 weeks.
Results. At birth, median (interquartile range) serum
cobalamin levels were 245 (175-323) pmol/L in the mothers and 314 (238-468) pmol/L in the newborns. In the neonates, serum cobalamin,
but not folate, was inversely associated with MMA and tHcy. Among
maternal factors, low serum cobalamin was the strongest predictor of
impaired cobalamin function (defined as low cobalamin, high tHcy, or
high MMA levels) in the newborns. After 6 weeks, the maternal cobalamin
levels had increased (to 421 [271-502] pmol/L), whereas the newborn
levels had declined (to 230 [158-287] pmol/L). In the same interval, the infants had a marked increase in plasma MMA (from 0.29 [0.24-0.38] to 0.81 [0.37-1.68] µmol/L). At 6 weeks, parity was
a strong predictor of cobalamin status in the infant.
Conclusion. The cobalamin status in the neonatal
period is strongly associated with maternal cobalamin status
and parity. A reduction in serum cobalamin and an increase in
metabolite levels are consistent with impaired cobalamin function in a
significant portion of the infants who were born to healthy,
nonvegetarian mothers.
Department of Pediatrics, University of Bergen, Bergen, Norway.
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