Effect of hydroxyapatite whisker surface graft polymerization on water sorption, solubility and bioactivity of the dental resin composite

• Poly(Bis-GMA) grafted on the surface of HW enhanced the whisker–matrix interfacial compatibility and combination.
• HW grafted with smaller amount of poly(Bis-GMA) had superior dispersion in the resin matrix.
• PGHW-1h filled resin composite absorbed the lowest water and had lower solubility values.
• Surface modification of HW did not significantly affect the bioactivity of the resin composite.

The aim of this study was to investigate the effect of poly bisphenol A glycidyl methacrylate (poly(Bis-GMA)) grafted hydroxyapatite whisker (PGHW) on water sorption, solubility and bioactivity of the dental resin composite. PGHW with different graft ratios was synthesized, by controlling grafting time, and filled into a dental resin matrix respectively. Fracture surface of the resin composites showed that PGHW–matrix interfacial compatibility and bonding were enhanced, and lower amounts of poly(Bis-GMA) on PGHW-1h (graft ratio: 8.5 wt.%) could facilitate the dispersion of PGHW-1h in the composite. The PGHW-1h filled resin composite absorbed the lowest amount of water (27.16 μg/mm3, 7 d), whereas the untreated hydroxyapatite whisker (HW) filled resin composite absorbed the highest. PGHW with higher graft ratios induced the decrease of the monomer conversion in the resulting composite, therefore, the PGHW-18h (graft ratio: 32.8 wt.%) filled resin composite had the highest solubility. In vitro bioactivity of the studied resin composites in simulated body fluid (SBF) showed that a dense and continuous apatite layer was formed on the surface of the resin composite, and the surface graft polymerization on the whisker did not significantly affect the apatite forming ability of the resin composite. It was revealed that graft polymerization of an appropriate amount of Bis-GMA onto HW could be an effective method to improve the interfacial properties and stability in water of the dental resin composite without compromising the bioactivity.

Grafting appropriate amounts of poly(Bis-GMA) (8.5 wt.% in this study) on the surface of hydroxyapatite whisker (HW) could effectively enhance whisker–matrix interfacial compatibility and bonding, improving the whisker dispersion in the matrix and leading to a decrease in water sorption of the resin composite without compromising the bioactivity.Figure optionsDownload as PowerPoint slide