We are interested in studying how blood vessels form and selforganize by combining in-vitro experiments and computational modeling. Our goal is to identify key regulators of vascular morphogenesis and explore strategies for vascularized tissue engineering.

We aim to develop vascularized microfluidic platforms that mimic blood flow conditions to study disease mechanisms and therapeutic responses. These models will enable real-time imaging, controlled perfusion, and drug screening, contributing to personalized medicine and targeted therapies.

We aim to develop vascularized tumor-on-chip systems that mimic tumor-vascular interactions. These platforms will enable real-time analysis of cancer progression, immune cell infiltration and drug response, providing insights for optimizing cancer therapies.