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Literature DB >> 26468069

Blood flow through the embryonic heart outflow tract during cardiac looping in HH13-HH18 chicken embryos.

Madeline Midgett¹, Venkat Keshav Chivukula¹, Calder Dorn², Samantha Wallace², Sandra Rugonyi³.

Abstract

Blood flow is inherently linked to embryonic cardiac development, as haemodynamic forces exerted by flow stimulate mechanotransduction mechanisms that modulate cardiac growth and remodelling. This study evaluated blood flow in the embryonic heart outflow tract (OFT) during normal development at each stage between HH13 and HH18 in chicken embryos, in order to characterize changes in haemodynamic conditions during critical cardiac looping transformations. Two-dimensional optical coherence tomography was used to simultaneously acquire both structural and Doppler flow images, in order to extract blood flow velocity and structural information and estimate haemodynamic measures. From HH13 to HH18, peak blood flow rate increased by 2.4-fold and stroke volume increased by 2.1-fold. Wall shear rate (WSR) and lumen diameter data suggest that changes in blood flow during HH13-HH18 may induce a shear-mediated vasodilation response in the OFT. Embryo-specific four-dimensional computational fluid dynamics modelling at HH13 and HH18 complemented experimental observations and indicated heterogeneous WSR distributions over the OFT. Characterizing changes in haemodynamics during cardiac looping will help us better understand the way normal blood flow impacts proper cardiac development.

Entities: Disease Species

Keywords: cardiovascular development; chick embryo; haemodynamics; optical coherence tomography; outflow tract; subject-specific haemodynamic modelling

Mesh：

Year: 2015 PMID： 26468069 PMCID： PMC4614502 DOI： 10.1098/rsif.2015.0652

Source DB: PubMed Journal: J R Soc Interface ISSN： 1742-5662 Impact factor: 4.118

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