In this work, PMMA-based composite bone cements, embedding bioactive and ferrimagnetic glass-ceramic particles, have been prepared and characterized. Bioactivity, wettability, density, curing parameters, viscoelastic behaviour, bending strengths and creep have been investigated at 37 °C. The growth of a layer of HA on the samples surface after immersion in SBF has been confirmed. The presence of glass-ceramic particles improved the wetting behaviour of the composite cements. Shorter curing times and lower maximum temperatures for the three composite cements, in comparison to the plain one, have been detected. Almost unaffected mechanical properties of the composite bone cements have been found in comparison to those of the plain commercial cement both at room and at 37 °C. A little increase of the viscous flow has been evidenced in the composite samples at 37 °C. Radiographic imaging confirmed the intrinsic radiopacity of the composite cements. © 2023 Elsevier Ltd and Techna Group S.r.l.
PMMA composite bone cement containing bioactive and ferrimagnetic glass-ceramic particles: Effect of temperature and of the additional phase on some physical and mechanical properties
Barberis Fabrizio;Lagazzo Alberto;Verne Enrica
2023-01-01
Abstract
In this work, PMMA-based composite bone cements, embedding bioactive and ferrimagnetic glass-ceramic particles, have been prepared and characterized. Bioactivity, wettability, density, curing parameters, viscoelastic behaviour, bending strengths and creep have been investigated at 37 °C. The growth of a layer of HA on the samples surface after immersion in SBF has been confirmed. The presence of glass-ceramic particles improved the wetting behaviour of the composite cements. Shorter curing times and lower maximum temperatures for the three composite cements, in comparison to the plain one, have been detected. Almost unaffected mechanical properties of the composite bone cements have been found in comparison to those of the plain commercial cement both at room and at 37 °C. A little increase of the viscous flow has been evidenced in the composite samples at 37 °C. Radiographic imaging confirmed the intrinsic radiopacity of the composite cements. © 2023 Elsevier Ltd and Techna Group S.r.l.File | Dimensione | Formato | |
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