The development of an artificial graft with distinct osteogenetic activity to enhance osseointegration and to induce the formation of biomimetic tissue structure for ligament reconstruction remains a significant challenge. Inspired by mussels, biomimetic calcium phosphate apatite/polydopamine hybridized-polyethylene terephthalate (APA/PDA-PET) grafts were successfully prepared. The efficacy and mechanism of APA/PDA-PET grafts to induce osseointegration were systematically investigated. The results from the in vitro study indicated that the prepared APA/PDA-PET grafts support the attachment of bone marrow stromal cells (BMSCs) and stimulate the proliferation and osteogenic/angiogenic differentiation of BMSCs via activation of the PKC/p-ERK1/2 signaling pathway. In vivo, histological and radiological results further demonstrate that the APA/PDA-PET grafts significantly improve osseointegration by inducing the formation of new bone tissue and the fibrocartilage transitional zone compared with pure PET grafts. In addition, the pull-out strength of the APA/PDA-PET grafts is significantly higher than that of the pure PET grafts 12 weeks after surgery. These results suggest that this mussel-inspired biomimetic method is an effective strategy for modifying artificial grafts, and the prepared APA/PDA-PET grafts, which possess a beneficial interface, can significantly improve in vivo osseointegration for ligament reconstruction via the synergistic effect of polydopamine and apatite.
Keywords: apatite; artificial ligament; mussel; osseointegration; polydopamine.