1. Influence of the addition of different metal oxides on physicochemical and biological properties of calcium fluorosilicate/PCL bone cement.
- Author
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Soliman YM, Mabrouk M, Raboh ASA, Tohamy KM, and Beherei HH
- Subjects
- Male, Rats, Animals, Rats, Wistar, Anti-Bacterial Agents pharmacology, Glass Ionomer Cements, Oxides pharmacology, Calcium, Bone Cements pharmacology
- Abstract
Calcium silicate cements have been greatly developed in the last decades through different approaches. Among these approaches, the inclusion of antibacterial agents or addition of metal oxides. Herein, calcium silicate cement containing fluorine (CFS) was developed from sodium fluorosilicate precursor for the first time using chemical perception method. Afterwards, metal oxide Bi
2 O3 or MgO or ZrO2 was individually mixed with CFS powder and blended together using Polycaprolactone polymer (PCL). The cement mixtures were characterized using DSC, XRD, FTIR and SEM/EDX to determine the effect of metal oxide on the pure CFS. Furthermore, mechanical, antibacterial and cell viability properties were evaluated for the developed CFS mixture cements. Moreover, these CFS mixture cements were implanted in male Wistar rats to determine the effect of metal oxides on the rate of bone reformation. The findings of physicochemical and morphological characterization showed no remarkable effects on the pure CFS after mixing with each metal oxide. However, enhanced compressive strengths (up to 104.07N/cm2 ), antibacterial activity and cell viability (up to 96%) were achieved for the CFS cement mixtures. Finally, the in vivo studies confirmed the biocompatibility of the CFS cement mixtures and especially those mixed with Bi2 O3 or ZrO2 . Therefore, this study supports that CFS blends with Bi2 O3 or ZrO2 can be novel promising cementing materials for bone restoration., Competing Interests: Declaration of competing interest None, (Copyright © 2023 Elsevier Ltd. All rights reserved.)- Published
- 2023
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