| Literature DB >> 34499415 |
Catherine G Dimasi1, Joanna Lazniewska2, Janna L Morrison1, Jack R T Darby1, Sally E Plush3,4, Brahmdeep S Saini5, Stacey L Holman1, Steven K S Cho5, Michael D Wiese4, Alexandra Sorvina2, Christopher K Macgowan5, Mike Seed5, Doug A Brooks2.
Abstract
Intrauterine growth restriction (IUGR) is a result of limited substrate supply to the developing fetus in utero, and can be caused by either placental, genetic or environmental factors. Babies born IUGR can have poor long-term health outcomes, including being at higher risk of developing cardiovascular disease. Limited substrate supply in the IUGR fetus not only changes the structure of the heart but may also affect metabolism and function of the developing heart. We have utilised two imaging modalities, two-photon microscopy and phase-contrast MRI (PC-MRI), to assess alterations in cardiac metabolism and function using a sheep model of IUGR. Two-photon imaging revealed that the left ventricle of IUGR fetuses (at 140-141 d GA) had a reduced optical redox ratio, suggesting a reliance on glycolysis for ATP production. Concurrently, the use of PC-MRI to measure foetal left ventricular cardiac output (LVCO) revealed a positive correlation between LVCO and redox ratio in IUGR, but not control fetuses. These data suggest that altered heart metabolism in IUGR fetuses is indicative of reduced cardiac output, which may contribute to poor cardiac outcomes in adulthood.Entities:
Keywords: MRI; cardiac output; cardiovascular; fetus; foetal development; foetal growth restriction; metabolism; redox ratio; substrate supply; two-photon microscopy
Mesh:
Year: 2021 PMID: 34499415 DOI: 10.1002/jbio.202100157
Source DB: PubMed Journal: J Biophotonics ISSN: 1864-063X Impact factor: 3.207