Abstract
BackgroundThe most well known reproductive consequence of residence at high altitude (HA >2700 m) is reduction in fetal growth. Reduced fetoplacental oxygenation is an underlying cause of pregnancy pathologies, including intrauterine growth restriction and preeclampsia, which are more common at HA. Therefore, altitude is a natural experimental model to study the etiology of pregnancy pathophysiologies. We have shown that the proximate cause of decreased fetal growth is not reduced oxygen availability, delivery, or consumption. We therefore asked whether glucose, the primary substrate for fetal growth, might be decreased and/or whether altered fetoplacental glucose metabolism might account for reduced fetal growth at HA.MethodsDoppler and ultrasound were used to measure maternal uterine and fetal umbilical blood flows in 69 and 58 residents of 400 vs 3600 m. Arterial and venous blood samples from mother and fetus were collected at elective cesarean delivery and analyzed for glucose, lactate and insulin. Maternal delivery and fetal uptakes for oxygen and glucose were calculated.Principal FindingsThe maternal arterial – venous glucose concentration difference was greater at HA. However, umbilical venous and arterial glucose concentrations were markedly decreased, resulting in lower glucose delivery at 3600 m. Fetal glucose consumption was reduced by >28%, but strongly correlated with glucose delivery, highlighting the relevance of glucose concentration to fetal uptake. At altitude, fetal lactate levels were increased, insulin concentrations decreased, and the expression of GLUT1 glucose transporter protein in the placental basal membrane was reduced.Conclusion/SignificanceOur results support that preferential anaerobic consumption of glucose by the placenta at high altitude spares oxygen for fetal use, but limits glucose availability for fetal growth. Thus reduced fetal growth at high altitude is associated with fetal hypoglycemia, hypoinsulinemia and a trend towards lactacidemia. Our data support that placentally-mediated reduction in glucose transport is an initiating factor for reduced fetal growth under conditions of chronic hypoxemia.
Highlights
Abnormalities of fetal growth cost billions per year in neonatal intensive care, maternal hospital admissions and lost work productivity for the worried parents
The birth weight of neonates at 3600 m is reduced .300 g compared to low altitude pregnancies, despite the fact that maternal and fetal oxygen delivery and fetal oxygen consumption do not differ between altitudes
Maternal glucose delivery to the placenta did not differ between altitudes but both umbilical venous and arterial glucose concentrations were significantly decreased at high altitude
Summary
Abnormalities of fetal growth cost billions per year in neonatal intensive care, maternal hospital admissions and lost work productivity for the worried parents. Determining the effects of chronic hypoxia on human fetoplacental metabolism and growth has long presented a challenge, due to ethical concerns and problems of accessibility, but because hypoxia is almost always present in combination with additional pathologies such as abnormal placental development or preeclampsia. The natural experiment afforded by human residence at high altitude allows us to study fetal and placental responses to chronic hypoxia in the absence of these additional pathologies. Reduced fetoplacental oxygenation is an underlying cause of pregnancy pathologies, including intrauterine growth restriction and preeclampsia, which are more common at HA. We have shown that the proximate cause of decreased fetal growth is not reduced oxygen availability, delivery, or consumption. We asked whether glucose, the primary substrate for fetal growth, might be decreased and/or whether altered fetoplacental glucose metabolism might account for reduced fetal growth at HA
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