Content-Dependent Osteogenic Response of Nanohydroxyapatite: An in Vitro and in Vivo Assessment within Collagen-Based Scaffolds

The use of collagen-based scaffolds in orthopedic applications has been limited due to poor mechanical properties, but this may be overcome by the introduction of a stiffer supporting phase. Thus, we developed a synthesis technique to produce nonaggregating, stable nanohydroxyapatite (nHA) particles, permitting the fabrication of biomimetic-inspired scaffolds through the combination of nanosized HA with collagen, as found in native bone. This study evaluates the mechanical and biological impact of incorporating increasing concentrations of these nanoparticles into porous collagen scaffolds (1:1 and 5:1 weight ratios of nHA/collagen). Mechanical assessment demonstrated that increasing nHA incorporation correlated with increasing Young’s moduli, which could be further amplified using cross-linking treatments. Typically, the porosity of a scaffold is sacrificed to produce a stiffer material; however, through the use of nanosized particles the inclusion of up to 5:1 nHA/collagen content still preserved the hi...