Multifunctional Protein-Immobilized Plasma Polymer Films for Orthopedic Applications

Osseointegration is essential for ensuring optimal functioning and longevity of orthopedic implants. In a significant number of patients, the body does not fully integrate with the orthopedic implant, which opens the potential for the formation of bacterial biofilms and adverse foreign body reactions. Protein-functionalization of the implant surfaces can reduce this potential by stimulating rapid cell attachment or bone formation. Ideally, a multifunctional protein surface should simultaneously stimulate cell attachment and bone formation for optimal osseointegration. In this study, we utilized primary mouse osteoblasts to examine the osteogenic potential of a multifunctional fusion protein, combining the fibronectin (FN) attachment and osteocalcin (OCN) bone signaling sequences, compared against that of the individual proteins. These three biomolecules were immobilized on radical-functionalized plasma polymer films (rPPFs) that covalently bond proteins through interactions with embedded radicals that mig...