Autofluorescence multiphoton microscopy (aMPM) can visualize and quantify 3D, self‐assembled vascular networks in synthetic poly(ethylene glycol) hydrogels without fixation, labels, or dyes. Different dynamic flow conditions can induce changes in vascular network morphology, which can be quantified by nondestructive, label‐free aMPM technology.
Abstract
Vascularization is an important strategy to overcome diffusion limits and enable the formation of complex, physiologically relevant engineered tissues and organoids. Self‐assembly is a technique to generate in vitro vascular networks, but engineering the necessary network morphology and function remains challenging. Here, autofluorescence multiphoton microscopy (aMPM), a label‐free imaging technique, is used to quantitatively evaluate in vitro vascular network morphology. Vascular networks are generated using human embryonic stem cell–derived endothelial cells and primary human pericytes encapsulated in synthetic poly(ethylene glycol)‐based hydrogels. Two custom‐built bioreactors are used to generate distinct fluid flow patterns during vascular network formation: recirculating flow or continuous flow. aMPM is used to image these 3D vascular networks without the need for fixation, labels, or dyes. Image processing and analysis algorithms are developed to extract quantitative morphological parameters from these label‐free images. It is observed with aMPM that both bioreactors promote formation of vascular networks with lower network anisotropy compared to static conditions, and the continuous flow bioreactor induces more branch points compared to static conditions. Importantly, these results agree with trends observed with immunocytochemistry. These studies demonstrate that aMPM allows label‐free monitoring of vascular network morphology to streamline optimization of growth conditions and provide quality control of engineered tissues.
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