Photoacoustic Microscopy Reveals Deep Angiogenic Responses in 3D Bioprinted Tumor–vessel Models

Three-dimensional (3D) tumor–vessel models provide a physiologically relevant platform to study tumor-induced angiogenesis and evaluate therapeutic responses. However, imaging-based analysis of these models is often constrained by limited penetration depth and volumetric resolution. To overcome these challenges, we employed high-resolution photoacoustic microscopy (HR − PAM) to monitor and quantify angiogenesis within bioprinted tumor–vessel models under drug treatments. Compared to confocal microscopy, the PAM achieved a 1.6-fold increase in 1/e² penetration depth, enabling visualization of vascular structures up to ~ 1 mm in depth. Using our HR − PAM platform, we successfully monitored and quantified tumor-induced angiogenesis, and following treatment with antibiotics, observed significant suppression. This deep-tissue and large-volume PAM platform provides enhanced 3D insights into the effects of antibiotics on angiogenesis, paving the way for more precise in vitro evaluations of therapeutic interventions and drug screening studies.