Add to ORKGAbstract Hypoxia of residence at high altitude (>2500 m) decreases birth weight. Lower birth weight associates with infant mortality and morbidity and increased susceptibility to later-in-life cardiovascular and metabolic diseases. We sought to determine the effects of hypoxia on maternal glucose and lipid metabolism and their contributions to fetal weight. C57BL6/NCrl mice, housed throughout gestation in normobaric hypoxia (15% oxygen) or normoxia, were studied at mid (E9.5) or late gestation (E17.5). Fetal weight at E17.5 was 7% lower under hypoxia than normoxia. The hypoxic compared with normoxic dams had ~20% less gonadal white adipose tissue at mid and late gestation. The hypoxic dams had better glucose tolerance and insulin sensit...
BackgroundHigh altitude hypoxia (HAH) exposure affects fetal development. However, the fetal cardiov...
Abstract Gestational hypoxemia is often associated with reduced birth weight, yet how hypoxemia cont...
The human fetus develops in a profoundly hypoxic environment. Thus, the foundations of our physiolog...
The most well known reproductive consequence of residence at high altitude (HA >2700 m) is reduction...
Abstract Maternal overweight/obesity contributes significantly to the development of gestational dia...
The placenta adapts its transport capacity to nutritional cues developmentally, although relatively ...
Chronic hypoxia is a common complication of pregnancy, arising through malperfusion of the placenta ...
Lowland mammals, including humans, experience an increased risk for fetal growth restriction (FGR) a...
Maternal hypoxia is a common perturbation that can disrupt placental and thus fetal development, con...
Blood glucose and the prevalence of diabetes are lower in mountain than lowland dwellers, which coul...
Intrauterine growth restriction (IUGR) enhances risk for adult onset cardiovascular disease (CVD). T...
Gestational hypoxia is a risk factor in the development of pulmonary hypertension in the newborn and...
Abstract Obesity is now considered to be a global epidemic, impacting a great number of women and l...
Abstract At high altitudes, chronic hypoxia challenges fetal growth leading to decreased birth weig...
<p><b>(A)</b> Exposure of pregnant SD rats to 12% oxygen (hypoxic; n = 5 dams) from 15–19 dG resulte...
BackgroundHigh altitude hypoxia (HAH) exposure affects fetal development. However, the fetal cardiov...
Abstract Gestational hypoxemia is often associated with reduced birth weight, yet how hypoxemia cont...
The human fetus develops in a profoundly hypoxic environment. Thus, the foundations of our physiolog...
The most well known reproductive consequence of residence at high altitude (HA >2700 m) is reduction...
Abstract Maternal overweight/obesity contributes significantly to the development of gestational dia...
The placenta adapts its transport capacity to nutritional cues developmentally, although relatively ...
Chronic hypoxia is a common complication of pregnancy, arising through malperfusion of the placenta ...
Lowland mammals, including humans, experience an increased risk for fetal growth restriction (FGR) a...
Maternal hypoxia is a common perturbation that can disrupt placental and thus fetal development, con...
Blood glucose and the prevalence of diabetes are lower in mountain than lowland dwellers, which coul...
Intrauterine growth restriction (IUGR) enhances risk for adult onset cardiovascular disease (CVD). T...
Gestational hypoxia is a risk factor in the development of pulmonary hypertension in the newborn and...
Abstract Obesity is now considered to be a global epidemic, impacting a great number of women and l...
Abstract At high altitudes, chronic hypoxia challenges fetal growth leading to decreased birth weig...
<p><b>(A)</b> Exposure of pregnant SD rats to 12% oxygen (hypoxic; n = 5 dams) from 15–19 dG resulte...
BackgroundHigh altitude hypoxia (HAH) exposure affects fetal development. However, the fetal cardiov...
Abstract Gestational hypoxemia is often associated with reduced birth weight, yet how hypoxemia cont...
The human fetus develops in a profoundly hypoxic environment. Thus, the foundations of our physiolog...