Strong Bioactive Glass-Based Hybrid Implants with Good Biomineralization Activity Used to Reduce Formation Duration and Improve Biomechanics of Bone Regeneration

Developing bioactive implants with strong mechanical properties and biomineralization activity is critical in bone repair. In this work, modified cellulose nanofiber (mCNF)-reinforced glass (BG)-polycaprolactone (PCL) hybrids (mCNF–BP) biomechanics good apatite formation ability were reported. Incorporating mCNFs shortens the forming duration of hybrid films enhances biomechanical performance vitro apatite-formation capability. The optimized optimal materials produced at a relatively high mCNF content (1.0 wt%), including considerably higher modulus elasticity (948.65 ± 74.06 MPa). addition, mCNF–BP also tailored increase contents. 1.5 wt% 2.0 demonstrate best after immersing simulated body fluid for 3 days. This study suggests that are efficient additive to reinforce BG-based hybrids’ activity.