Reconstruction and representation of caudal vasculature of zebrafish embryo from confocal scanning laser fluorescence microscopic images

Three-dimensional (3D) reconstruction from a series of sections is an important technique in medical imaging, particularly for visualization of blood vessels from angiography. Here, we present a framework for automatic segmentation and registration of different kind of blood vessels from 2-day-old zebrafish embryos. Series of optical sections were acquired from confocal microscopy with the blood vessels labeled by fluorescent microbeads (0.02 microm) injected into blood stream of 2-day-old zebrafish embryos. Blood vessels were extracted and their morphological parameters, including length and diameter, were calculated. At the same time, individual blood vessels were registered automatically. Vasculature was represented by attributed vessel represent graph (AVRG), which contained morphological data and connectivity of every blood vessel. Using AVRG to represent a vasculature made the comparison between vasculatures of different embryos more easy. Visualization, as well as quantification, of reconstructed 3D model of AVRG was presented in an interactive interface. The framework was implemented by Visual C++ as Windows-based program.