Antenatal glucocorticoid exposure and long-term alterations in aortic function and glucose metabolism.

OBJECTIVE: Animal studies have demonstrated long-term effects of in utero glucocortcoid exposure on vascular development and glucose metabolism. We hypothesized that there would be a similar impact in humans. METHODS: One hundred and two young adults born preterm aged 23 to 28 years, with prospective data collection from birth, and 95 adults born term after uncomplicated pregnancies underwent cardiovascular MRI. We compared cardiac and aortic structure and function, as well as cardiovascular risk profile, in a nested case-control study of 16 participants exposed to antenatal steroids and 32 who were not, but with otherwise similar perinatal care. Outcomes were compared with normal ranges in those born term. RESULTS: Adults whose mothers had received antenatal steroids had decreased ascending aortic distensibility (9.88 ± 3.21 vs 13.62 ± 3.88 mm Hg(-1) × 10(3), P = .002) and increased aortic arch pulse wave velocity (5.45 ± 1.41 vs 4.47 ± 0.91 m/s, P = .006). The increase in stiffness was equivalent to that of term adults a decade older. Those who had in utero exposure to antenatal steroids also had significant differences in homeostatic model assessments for ß-cell function (P = .010), but in multiple regression analysis this did not explain the impact of steroids on aortic function. CONCLUSIONS: Antenatal glucocorticoid exposure in preterm infants is associated with increased aortic arch stiffness and altered glucose metabolism in early adulthood.

Pre-eclampsia and offspring cardiovascular health: mechanistic insights from experimental studies.

Pre-eclampsia is increasingly recognized as more than an isolated disease of pregnancy. Women who have had a pregnancy complicated by pre-eclampsia have a 4-fold increased risk of later cardiovascular disease. Intriguingly, the offspring of affected pregnancies also have an increased risk of higher blood pressure and almost double the risk of stroke in later life. Experimental approaches to identify the key features of pre-eclampsia responsible for this programming of offspring cardiovascular health, or the key biological pathways modified in the offspring, have the potential to highlight novel targets for early primary prevention strategies. As pre-eclampsia occurs in 2-5% of all pregnancies, the findings are relevant to the current healthcare of up to 3 million people in the U.K. and 15 million people in the U.S.A. In the present paper, we review the current literature that concerns potential mechanisms for adverse cardiovascular programming in offspring exposed to pre-eclampsia, considering two major areas of investigation: first, experimental models that mimic features of the in utero environment characteristic of pre-eclampsia, and secondly, how, in humans, offspring cardiovascular phenotype is altered after exposure to pre-eclampsia. We compare and contrast the findings from these two bodies of work to develop insights into the likely key pathways of relevance. The present review and analysis highlights the pivotal role of long-term changes in vascular function and identifies areas of growing interest, specifically, response to hypoxia, immune modification, epigenetics and the anti-angiogenic in utero milieu.