10 research outputs found
Advances in Fetal and Neonatal Physiology
The quality of the intrauterine environment interacts with our genetic
makeup to shape the risk of developing disease in later life. Fetal chronic
hypoxia is a common complication of pregnancy. This chapter reviews
how fetal chronic hypoxia programmes cardiac and endothelial dysfunction
in the offspring in adult life and discusses the mechanisms via which
this may occur. Using an integrative approach in large and small animal
models at the in vivo , isolated organ, cellular and molecular levels, our
programmes of work have raised the hypothesis that oxidative stress in the
fetal heart and vasculature underlies the mechanism via which prenatal
hypoxia programmes cardiovascular dysfunction in later life.
Developmental hypoxia independent of changes in maternal nutrition promotes
fetal growth restriction and induces changes in the cardiovascular,
metabolic and endocrine systems of the adult offspring, which are normally
associated with disease states during ageing. Treatment with antioxidants
of animal pregnancies complicated with reduced oxygen delivery
to the fetus prevents the alterations in fetal growth, and the cardiovascular,
metabolic and endocrine dysfunction in the fetal and adult offspring.
The work reviewed offers both insight into mechanisms and possible
therapeutic targets for clinical intervention against the early origin of cardiometabolic
disease in pregnancy complicated by fetal chronic hypoxia