Patera, AlessandraZippo, Antonio G.Bonnin, AnneStampanoni, MarcoBiella, Gabriele E. M.2020-12-022020-12-022020-12-02202110.1002/ima.22520https://infoscience.epfl.ch/handle/20.500.14299/173778WOS:000589608000001High-throughput synchrotron-based tomographic microscopy at third generation light sources allows to probe cm-sized samples at micrometer-resolution. In this work, we present an approach to image a full mouse brain. With Indian-ink as a contrast agent, it was possible to obtain 3D distribution of microvessels while a computational framework automatically extracted the morphological and geometrical embedding of the putative vascular systems. Results demonstrate the potentiality of the proposed methodology to visualize and quantify in 3D details of the brain tissue with an image quality and resolution previously unachievable.Engineering, Electrical & ElectronicOpticsImaging Science & Photographic TechnologyEngineeringbrain vasculature systemdeep learningx-ray tomography3dreconstructionvasculaturemicroscopytext::journal::journal article::research article