Surface modification of PCL‐TCP scaffolds improve interfacial mechanical interlock and enhance early bone formation: An in vitro and in vivo characterization

Abstract

Pretreatment of polycaprolactone-20% tricalcium phosphate (PCL-TCP) scaffolds under alkaline conditions can be utilized to alter surface characteristics for enhanced early bone formation. PCL-TCP scaffolds were treated with sodium hydroxide (NaOH) at various time intervals (group A: untreated, group B: 3M NaOH for 48 h, and group C: 3M NaOH for 96 h). In vitro results showed a greater degree of physical changes in the NaOH-treated scaffolds (B and C) than the untreated group (A). Clearly, the NaOH-treated scaffolds showed an increased surface roughness than the untreated ones. A significantly large number of "channel-like" pits and greater average pit sizes were detected in groups B (14.51 +/- 10.9 microm) and C (20.27 +/- 14.3 microm); and absent in group A. In addition, treated scaffolds had a significant reduction of the water contact angle (40.9-58.2%). Favorably, the pore dimensions and scaffold rod thickness remained unchanged throughout the experiment. When implanted in the calvaria of rabbits, NaOH-treated scaffolds reported greater early matrix deposition and bone formation from scanning electron images and Micro-computed tomography analyses. In conclusion, pretreatment of PCL-TCP scaffolds with NaOH increases the wettability and surface area for initial matrix deposition and early bone ingrowth.