Microscopy techniques can readily visualize the finest details of embryo vasculature, but still lack to provide a complete three-dimensional representation of blood flow parameters. We present an in-vivo 3D imaging technique, able to reconstruct the blood cell velocity vector over a large volume of zebrafish embryos. This low cost and relatively simple technique is exploited to quantitatively assess blood velocity in the zebrafish tail at different stages of development.
Objective-Endothelial sphingosine-1-phosphate (S1P) receptor-1 (S1P 1 ) affects different vascular functions, including blood vessel maturation and permeability. Here, we characterized the role of the zS1P 1 ortholog in vascular development in zebrafish.
Methods and Results
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