Scientist specialized in 3D biology with hands-on experience in high-throughput screening using physiologically relevant models. During my PhD, I focused on developing and optimizing 3D cell culture assays (such as spheroids, organoids, and 3D colony formation assays) for use in high-throughput settings, gaining strong expertise in assay design and imaging. In my industry role, I contributed to the automation of complex 3D biology workflows, supporting decision-making through advanced imaging and AI-based image analysis. I’ve worked extensively with iPSCs, adult stem cells, and various 3D assay formats, driving innovation at the interface of cell biology, automation, and data science.
Axion BioSystems is a leading life sciences tools company focused on innovative live-cell assays used to study the function of cells in vitro for drug discovery, disease modeling, cancer immunotherapy, safety/toxicity, and more. The Maestro platform is the world’s most advanced microelectrode array (MEA) and impedance system, allowing non-invasive evaluation of your cells in an easy-to-use assay. Whether monitoring the intricate, electrical activity of excitable cells (e.g. neurons and cardiomyocytes), or tracking the growth and death of cancer cells, Maestro allows you to investigate the functionality of your cells label-free in a multiwell plate. Axion’s Omni products are the next generation in kinetic live-cell imaging, combining compact and fast imaging hardware with powerful image analysis algorithms. Generate high-quality, robust data with the latest in automated time-lapse imaging.
Adrian Ranga
Bioengineer using organoids to understand patterning and morphogenesis @KU_Leuven, KU Leuven