Mechanical properties and biocompatibility of MgO / Ca3(PO4)2 composite ceramic scaffold with high MgO content based on digital light processing

Abstract

Magnesium oxide-calcium phosphate (MgO/Ca3(PO4)2) composite ceramic materials are considered a promising class of bioactive materials, expected to be used in artificial bone scaffolds. However, there are few pieces of research on the content of magnesium oxide in composite ceramic scaffolds. To study the effect of magnesium oxide content on the biocompatibility and mechanical properties of magnesium oxide-calcium phosphate composite ceramic scaffolds, six groups of scaffolds with magnesium oxide content of 10 wt%, 20 wt%, 30 wt%, 40 wt%, 100 wt%, and 0 wt% were produced by digital light processing (DLP) printing technology. And scaffolds’ pores size and porosity percentage were 0.6–1 mm and 50%, respectively. The compressive strength of the scaffold increased with the magnesium oxide proportion, and the 40 wt% group was almost twice that of the 0 wt% magnesium oxide group. The 40 wt% and 0 wt% magnesium oxide groups performed better for biocompatibility. Comprehensive analysis of the biocompatibility and mechanical properties of the scaffold confirmed that the 40 wt% magnesium oxide group was the best. The results show that high magnesium oxide content enhanced the mechanical properties and achieved well biocompatibility of the composite scaffolds, broadening the scope of future experimental research.