OBJECTIVE: Intrauterine growth restriction (IUGR) carries an increased risk of mortality and morbidity. The accepted procedure to treat IUGR fetuses is premature delivery, which may increase neonatal mortality and morbidity and retards neonatal brain development. MATERIAL AND METHODS: We report here on intravascular supplementation with amino acids and glucose of an IUGR human fetus at 33 weeks of gestation with oligohydramnios and placental insufficiency using the port system (Norfolk Medical Products, Skokie, Ill., USA). The catheter was implanted into the umbilical vein (UV) by cordocentesis, and was then connected to a subcutaneously implanted port system. The treatment course included daily infusions of amino acid solution and 10% glucose into the UV. RESULTS: Daily intravascular fetal nutrition significantly improved both fetal condition and fetal weight gain. No complications were seen. The patient was delivered by cesarean section in the 38th week of gestation. The female newborn weighed 2,130 g and was 47 cm long. Blood sampling from the UV after delivery showed no deviations of amino acids in comparison to standardized curves. In one-year follow-up the child's development and weight gain was like that of children without IUGR in the anamnesis. CONCLUSION: This is the first report of the successful use of a subcutaneously implanted intravascular perinatal port system in IUGR human fetuses for long-term administration of nutriments into the UV of a fetus.
OBJECTIVE: Intrauterine growth restriction (IUGR) carries an increased risk of mortality and morbidity. The accepted procedure to treat IUGR fetuses is premature delivery, which may increase neonatal mortality and morbidity and retards neonatal brain development. MATERIAL AND METHODS: We report here on intravascular supplementation with amino acids and glucose of an IUGR human fetus at 33 weeks of gestation with oligohydramnios and placental insufficiency using the port system (Norfolk Medical Products, Skokie, Ill., USA). The catheter was implanted into the umbilical vein (UV) by cordocentesis, and was then connected to a subcutaneously implanted port system. The treatment course included daily infusions of amino acid solution and 10% glucose into the UV. RESULTS: Daily intravascular fetal nutrition significantly improved both fetal condition and fetal weight gain. No complications were seen. The patient was delivered by cesarean section in the 38th week of gestation. The female newborn weighed 2,130 g and was 47 cm long. Blood sampling from the UV after delivery showed no deviations of amino acids in comparison to standardized curves. In one-year follow-up the child's development and weight gain was like that of children without IUGR in the anamnesis. CONCLUSION: This is the first report of the successful use of a subcutaneously implanted intravascular perinatal port system in IUGR human fetuses for long-term administration of nutriments into the UV of a fetus.
Authors: Sandra G Wai; Paul J Rozance; Stephanie R Wesolowski; William W Hay; Laura D Brown Journal: Am J Physiol Endocrinol Metab Date: 2018-09-11 Impact factor: 4.310
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