Abstract
The hypoxic fetus is at greater risk of cardiovascular demise during a challenge, but the reasons behind this are unknown. Clinically, progress has been hampered by the inability to study the human fetus non-invasively for long period of gestation. Using experimental animals, there has also been an inability to induce gestational hypoxia while recording fetal cardiovascular function as the hypoxic pregnancy is occurring. We use novel technology in sheep pregnancy that combines induction of controlled chronic hypoxia with simultaneous, wireless recording of blood pressure and blood flow signals from the fetus. Here, we investigated the cardiovascular defense of the hypoxic fetus to superimposed acute hypotension. Pregnant ewes carrying singleton fetuses surgically prepared with catheters and flow probes were randomly exposed to normoxia or chronic hypoxia from 121±1 days of gestation (term ≈145 days). After 10 days of exposure, fetuses were subjected to acute hypotension via fetal nitroprusside intravenous infusion. Underlying in vivo mechanisms were explored by (1) analyzing fetal cardiac and peripheral vasomotor baroreflex function; (2) measuring the fetal plasma catecholamines; and (3) establishing fetal femoral vasoconstrictor responses to the α1-adrenergic agonist phenylephrine. Relative to controls, chronically hypoxic fetal sheep had reversed cardiac and impaired vasomotor baroreflex function, despite similar noradrenaline and greater adrenaline increments in plasma during hypotension. Chronic hypoxia markedly diminished the fetal vasopressor responses to phenylephrine. Therefore, we show that the chronically hypoxic fetus displays markedly different cardiovascular responses to acute hypotension, providing in vivo evidence of mechanisms linking its greater susceptibility to superimposed stress.
Highlights
The hypoxic fetus is at greater risk of cardiovascular demise during a challenge, but the reasons behind this are unknown
Ewes exposed to chronic hypoxia had significantly elevated hematocrit by the end of exposure
Fetuses exposed to chronic hypoxia had a significant reduction from baseline in the partial pressure of arterial oxygen and arterial oxygen saturation
Summary
All procedures were performed at The Barcroft Centre of the University of Cambridge under the UK Animals (Scientific Procedures) Act 1986 and were approved by the Ethical Review Board of the University of Cambridge. Pregnancies allocated to the normoxia group were housed in a barn in floor pens with the same floor area as the hypoxic chambers Both the normoxia and chronic hypoxia groups of ewes were fed daily the same bespoke maintenance diet made up of concentrate pellets and hay (40 g nuts/kg and 3 g hay/kg; Manor Farm Feeds Ltd; Oakham, Leicestershire, United Kingdom) to facilitate the monitoring of maternal food intake. Paired fetal carotid and femoral arterial blood samples (4 mL) were taken during baseline (−10, −5 minutes), during acute hypotension (+5, +10 min), and 10 minutes after recovery from hypotension (+20 min) These samples were used to determine blood gas and metabolic status, as before, and for analysis of fetal plasma noradrenaline and adrenaline concentrations (femoral sample only).
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