For eLBP-loaded hydrogels to reach clinical translation, these design criteria must be considered: (1) Delivery efficiency, (2) cell viability and growth, (3) preservation of eLBP functional activity, and (4) hydrogel degradation and clearance.
This study introduces gelatinized dECM, a tissue-specific rheological modifier, enabling high-resolution printing of flexible tissue constructs with enhanced resilience.
The engineering and appliccations of ECM hydrogels.
Dual crosslinkable hydrogels enables incorporation of electro-conductive materials and cells for 3D biofabrication of cardiac tissue constructs.
The synthesis of dual-photoresponsive polymers was achieved through [2+2+1] cycloadditive polymerization. The polymers exhibit photoactivated crosslinking and switch-on fluorescence, demonstrating their significance in advancing 2D/3D lithography.