R Bajoria1, S R Sooranna, S Ward, S D'Souza, M Hancock. 1. University of Manchester, Academic Unit of Obstetrics and Gynaecology, St Mary's Hospital for Women and Children, Manchester, United Kingdom. r.bajoria@doctors.net.uk
Abstract
OBJECTIVE: The cause of discordant growth in monochorionic twins is not clear. We hypothesize that growth restriction of 1 monochorionic twin is due to fetal under-nutrition. STUDY DESIGN: We measured plasma amino acid concentrations by high performance liquid chromatography in maternal venous and fetal umbilical cord venous blood samples that were collected at birth from gestational age-matched monochorionic twins (n = 14) with a birth weight discordance of > or =20%. The concordant monochorionic twins with birth weight differences of < or =10% constitute a control group. RESULTS: In the intrauterine growth-restricted twins, fetal concentrations of essential amino acids valine (P <.01), leucine (P <.01), isoleucine (P <.01), phenylalanine (P <.01), and L-arginine (P <.05) were lower than the co-twins and concordant monochorionic twin pairs. Fetal concentrations of the nonessential amino acids taurine (P <.001), serine (P <.01), glycine (P <.01), tyrosine (P <.01), and aspartic acid (P <.01) were lower in the intrauterine growth-restricted twin than the co-twin or concordant monochorionic twins. No such differences were found between concordant monochorionic twin pairs. Maternal amino acid concentrations were similar between discordant and concordant groups. CONCLUSION: Concentrations of certain essential and nonessential amino acids in the intrauterine growth-restricted twins were lower than the co-twins. These differences support the hypothesis that intrauterine growth-restriction that affects 1 of the monochorionic twins is due to the impaired placental transport of amino acids rather than intertwin transfusion of blood.
OBJECTIVE: The cause of discordant growth in monochorionic twins is not clear. We hypothesize that growth restriction of 1 monochorionic twin is due to fetal under-nutrition. STUDY DESIGN: We measured plasma amino acid concentrations by high performance liquid chromatography in maternal venous and fetal umbilical cord venous blood samples that were collected at birth from gestational age-matched monochorionic twins (n = 14) with a birth weight discordance of > or =20%. The concordant monochorionic twins with birth weight differences of < or =10% constitute a control group. RESULTS: In the intrauterine growth-restricted twins, fetal concentrations of essential amino acids valine (P <.01), leucine (P <.01), isoleucine (P <.01), phenylalanine (P <.01), and L-arginine (P <.05) were lower than the co-twins and concordant monochorionic twin pairs. Fetal concentrations of the nonessential amino acids taurine (P <.001), serine (P <.01), glycine (P <.01), tyrosine (P <.01), and aspartic acid (P <.01) were lower in the intrauterine growth-restricted twin than the co-twin or concordant monochorionic twins. No such differences were found between concordant monochorionic twin pairs. Maternal amino acid concentrations were similar between discordant and concordant groups. CONCLUSION: Concentrations of certain essential and nonessential amino acids in the intrauterine growth-restricted twins were lower than the co-twins. These differences support the hypothesis that intrauterine growth-restriction that affects 1 of the monochorionic twins is due to the impaired placental transport of amino acids rather than intertwin transfusion of blood.
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