Application of collagen-chondroitin sulfate scaffolds with different pore sizes combined with acidic fibroblast growth factor in repairing full thickness skin defects in nude mice.

Wound healing of skin defects is complex. For the treatment of large and deep wounds, it is a good alternative to accept artificial dermis grafting at the first stage surgery, and autologous split-thickness skin grafting 2-3 weeks later at the second stage surgery. In addition, the effectiveness of numerous cytokines such as fibroblast growth factor (FGF) on wounds healing has been widely researched. The traditional view is that direct external application or<i>in vivo</i>injection of exogenous FGFs may not achieve the desired therapeutic effect as the effective concentration cannot be maintained for a long time. Therefore, some researchers have tried to integrate various cytokines into skin substitutes for combined application. However, we believe that considering the current situation, it is still difficult to achieve mass production of these types of artificial dermis. Here, we manufactured a collagen-chondroitin sulfate scaffold material by imitating the marketed artificial dermis materials. Then, we combined it with recombinant human acidic FGF in a single full dose during the first-stage artificial dermis transplantation, which is simple and completely feasible but always controversial in the current clinical work, to explore whether this combinatorial therapy could serve as an efficient way wound healing in the Balb/c-nu mice full-thickness skin defect model.