The effect of surface treatment of hydroxyapatite on the properties of a bioactive bone cement

The fact that bisphenol-a-glycidyl methacrylate (bis-GMA)-based cements contain an uncured surface is believed to play an important role when determining the surface curing properties of the cements. Therefore, in the present study, the bone-bonding strength of cement plates having an uncured surfac

We introduced an inhibitor to the polymerization reaction of bioactive bone cement (AWC) consisting of MgO{CaO{SiO 2 {P 2 O 5 {CaF 2 apatite and wollastonite containing glass-ceramic powder and bisphenol-a-glycidyl methacrylate based resin, together with an increased amount of accelerator but withou

We took three types of bioactive bone cement (designated AWC, HAC, and TCPC), each with a different bioactive filler, and evaluated the influence of each filler on the mechanical properties and osteoconductivity of the cement. The cements consisted of bisphenol-a-glycidyl methacrylate-based (Bis-GMA

A bioactive bone cement (designated GBC), consisting of bioactive glass beads as an inorganic filler and poly(methyl methacrylate) (PMMA) as an organic matrix, has been developed. The purpose of the present study was to examine the effect of the size of the glass beads added as a filler to GBC on it