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Granulated wollastonite–hardystonite bioceramics
* 1 , 1 , 2
1  Scientific Laboratory, Stomatological Department, Omsk State Medical University, 644099 Omsk, Russia
2  Physics Department, Radio Engineering Faculty, Omsk State Technical University, 644050 Omsk, Russia
Academic Editor: Rossana Madrid

Abstract:

Introduction: Hardystonite (HS, Ca2ZnSi2O7) is a promising compound for bone tissue restoration due to its biocompatibility and good mechanical properties. However, it has too low a rate of dissolution in biological fluids, according to data in the literature. In this work, we propose a method of composite production based on Ca2ZnSi2O7 and CaSiO3 mixtures to increase the dissolution of HS materials.

Methods: Granules were synthesized by the emulsion method using mechanical mixtures of powdered β-wollastonite and ZnO (0, 0.5, 1.5, 2.5, 5, 10, 12.5, 15, 20, 25 wt.%), with gelatin as a binder. All syntheses were carried out in 10 parallels. Granules were heat-treated in air at 1250°C and analyzed using XRD, FTIR, TGA and SEM. Their fractional composition, true and average density, open porosity and solubility in Tris-HCl buffer were determined.

Results and Discussion: Spherical granules with a diameter of 0.1÷3 mm were synthesized. During heat treatment, the binder burns out (200÷500°C) and hardystonite is formed as a result of solid-state interaction between ZnO and CaSiO3 (above 750°C). According to XRD and FTIR, variation in ZnO content in the initial powder leads to the formation of α-CaSiO3 mixed with up to 96 wt.% Ca2ZnSi2O7. The granules had a density >1 g/cm3 and open porosity of 60±5%. Materials can gradually dissolve in Tris-HCl buffer. Concentrations of ions in solutions decrease in the order Ca2+ > SiO32– > Zn2+ at all time points. The less HS content in granules, the more Ca2+ and SiO32– quantities and less Zn2+ in the surrounding media. Granules with 96 wt.% HS lost less than 0.5 wt.% in 6 months. A 2-fold decrease in HS content leads to a 25-fold increase in weight loss.

Conclusions: Composites with varying content of Ca2ZnSi2O7 and CaSiO3 were produced. Mixing with wollastonite allowed for a significant increase in the dissolution rate of HS-containing materials.

Keywords: Biomaterials; spherical granules; porosity; phase composition

 
 
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