posted on 2023-02-24, 18:07authored byJixing Ye, Ningyuan Liu, Zongxin Li, Liehua Liu, Ming Zheng, Xueping Wen, Nan Wang, Yanqin Xu, Biemin Sun, Qiang Zhou
Bioactive materials play vital roles in the repair of
critical
bone defects. However, bone tissue engineering and regenerative medicine
are still challenged by the need to repair bone defects evenly and
completely. In this study, we functionally simulated the natural creeping
substitution process of autologous bone repair by constructing an
injectable, hierarchically degradable bioactive scaffold with a composite
hydrogel, decalcified bone matrix (DBM) particles, and bone morphogenetic
protein 2. This composite scaffold exhibited superior mechanical properties.
The scaffold promoted cell proliferation and osteogenic differentiation
through multiple signaling pathways. The hierarchical degradation
rates of the crosslinked hydrogel and DBM particles accelerated tissue
ingrowth and bone formation with a naturally woven bone-like structure
in vivo. In the rat calvarial critical defect repair model, the composite
scaffold provided even and complete repair of the entire defect area
while also integrating the new and host bone effectively. Our results
indicate that this injectable, hierarchically degradable bioactive
scaffold promotes bone regeneration and provides a promising strategy
for evenly and completely repairing the bone defects.