BACKGROUND: Our purpose was to evaluate the metabolism of bile acids in the fetus by analyzing the bile acid composition of meconium of preterm (less than 30 weeks' gestational age) and full-term infants and comparing the results with the bile acid composition of feces of preterm and full-term infants 6 days after delivery. METHODS: The concentrations of individual bile acids were determined by gas chromatography-mass spectrometry after solvolysis and hydrolysis of bile acid conjugates. RESULTS: In meconium, the main bile acids were chenodeoxycholic and hyocholic acids. The main bile acid of feces from preterm infants at 6 days of age was the same as that of meconium. We also detected large amounts of secondary bile acids, especially deoxycholic acid and ursodeoxycholic acid. The ratio of cholic acid relative to chenodeoxycholic acid in meconium of preterm and full-term infants and in feces of preterm infants was less than 1, 0.36, 0.55, and 0.55, respectively. The percentage of chenodeoxycholic acid relative to total bile acids in meconium of preterm (P < 0.05) and full-term (P < 0.01) infants was significantly higher than that in feces of 6-day-old full-term infants. CONCLUSIONS: More than half of the main pathway, at least, for bile acid synthesis in preterm infants may be the acidic pathway until the infants reach about 7 days of age.
BACKGROUND: Our purpose was to evaluate the metabolism of bile acids in the fetus by analyzing the bile acid composition of meconium of preterm (less than 30 weeks' gestational age) and full-term infants and comparing the results with the bile acid composition of feces of preterm and full-term infants 6 days after delivery. METHODS: The concentrations of individual bile acids were determined by gas chromatography-mass spectrometry after solvolysis and hydrolysis of bile acid conjugates. RESULTS: In meconium, the main bile acids were chenodeoxycholic and hyocholic acids. The main bile acid of feces from preterm infants at 6 days of age was the same as that of meconium. We also detected large amounts of secondary bile acids, especially deoxycholic acid and ursodeoxycholic acid. The ratio of cholic acid relative to chenodeoxycholic acid in meconium of preterm and full-term infants and in feces of preterm infants was less than 1, 0.36, 0.55, and 0.55, respectively. The percentage of chenodeoxycholic acid relative to total bile acids in meconium of preterm (P < 0.05) and full-term (P < 0.01) infants was significantly higher than that in feces of 6-day-old full-term infants. CONCLUSIONS: More than half of the main pathway, at least, for bile acid synthesis in preterm infants may be the acidic pathway until the infants reach about 7 days of age.
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Authors: A Kimura; M Suzuki; T Murai; T Inoue; H Kato; D Hori; Y Nomura; T Yoshimura; T Kurosawa; M Tohma Journal: J Lipid Res Date: 1997-10 Impact factor: 5.922
Authors: C Colombo; A Roda; E Roda; M Buscaglia; C A dell'Agnola; P Filippetti; M Ronchi; F Sereni Journal: Pediatr Res Date: 1985-02 Impact factor: 3.756
Authors: Huijuan Ma; Vicencia M Sales; Ashley R Wolf; Sathish Subramanian; Tucker J Matthews; Michael Chen; Aparna Sharma; Walt Gall; Wim Kulik; David E Cohen; Yusuke Adachi; Nicholas W Griffin; Jeffrey I Gordon; Mary-Elizabeth Patti; Elvira Isganaitis Journal: Endocrinology Date: 2017-08-01 Impact factor: 4.736
Authors: Naureen Memon; Ian J Griffin; Chris W Lee; Aimee Herdt; Barry I Weinberger; Thomas Hegyi; Mary O Carayannopoulos; Lauren M Aleksunes; Grace L Guo Journal: J Matern Fetal Neonatal Med Date: 2018-10-29
Authors: Naureen Memon; Chris W Lee; Aimee Herdt; Barry I Weinberger; Thomas Hegyi; Mary O Carayannopoulos; Lauren M Aleksunes; Grace L Guo; Ian J Griffin Journal: J Clin Exp Hepatol Date: 2021-04-13