Multifunctional sponge scaffold loaded with concentrated growth factors for promoting wound healing
Lianglong Chen, Chaoyang Huang, Yu Zhong, Yujia Chen, Huihui Zhang, Zijun Zheng, Ziwei Jiang, Xuerong Wei, Yujie Peng, Lei Huang, Li-Bin Niu, Yanbin Gao, Jun Ma, Lei Yang
Abstract
Although both are applied in regenerative medicine, acellular dermal matrix (ADM) and concentrated growth factor (CGF) have their respective shortcoming: The functioning of CGF is often hindered by sudden release effects, among other problems, and ADM can only be used in outer dressing for wound healing. In this study, a compound network with physical-chemical double cross-linking was constructed using chemical cross-linking and the intertwining of ADM and chitosan chains under freezing conditions; equipped with good biocompatibility and cell/tissue affinity, the heparin-modified composite scaffold was able to significantly promote cell adhesion and proliferation to achieve adequate fixation and slow down the release of CGF; polydopamine nanoparticles having excellent near-infrared light photothermal conversion ability could significantly promote the survival of rat autologous skin grafts. In a word, this multifunctional composite scaffold is a promising new type of implant biomaterial capable of delivering CGF to promote the healing of full-thickness skin defects.