Zirconia toughened mica glass ceramics for dental restorations: Wear, thermal, optical and cytocompatibility properties

In an effort to design novel zirconia reinforced mica glass ceramics for dental restorations, clinically relevant properties such as wear, coefficient of thermal expansion, optical transmittance, and cytocompatibility with human gingival fibroblast cell lines were investigated in the present study....

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Bibliographic Details
Published in:Dental materials 2019-12, Vol.35 (12), p.1706-1717
Main Authors: Gali, Sivaranjani, K, RaviKumar
Format: Article
Language:English
Subjects:
Abrasive cutting
Abrasive wear
Aluminum oxide
Aluminum Silicates
Biocompatibility
Biotechnology
Boron oxides
Cell lines
Cell spreading
Ceramic fibers
Ceramics
Chewing
Coefficient of thermal expansion
Composite materials
Cutting wear
Cytocompatibility
Dental ceramics
Dental materials
Dental Porcelain
Dental restorative materials
Fibroblasts
Gingiva
Glass ceramics
Glass matrix composites
Heat treatment
Humans
Light penetration
Magnesium oxide
Materials Testing
Mica glass ceramics
Optical properties
Scattering coefficient
Silicon Dioxide
Surface Properties
Talc
Thermal expansion
Transmittance
Veneering
Wear mechanisms
Wear resistance
Yttria-stabilized zirconia
Zirconia
Zirconium
Zirconium dioxide
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Summary:In an effort to design novel zirconia reinforced mica glass ceramics for dental restorations, clinically relevant properties such as wear, coefficient of thermal expansion, optical transmittance, and cytocompatibility with human gingival fibroblast cell lines were investigated in the present study. Microstructure analysis of two body wear of heat treated mica glass ceramic ceramics (47.2 SiO2–16.7 Al2O3–9.5 K2O–14.5 MgO–8.5 B2O3–6.3F wt.%) reinforced with 20wt.% YSZ, were evaluated against a steatite antagonist in a chewing simulator following Willytec Munich method. In addition, Coefficient of thermal expansion (CTE), total transmittance, scattering coefficient and cytocompatibility on human gingival fibroblast cell lines were performed and compared to the commercially available dental ceramic systems. The experimental mica glass ceramic demonstrate micro-ploughing, pull out and debris formation along the cutting surface, indicating abrasive wear mechanism. Thermal expansion of mica glass ceramic composite was recorded as 5×10−6/°C, which is lower than the thermal expansion of commercially available core and veneering ceramics. Further, significant differences of transmittance and scattering coefficient of mica glass ceramics with 20wt.% YSZ with commercial dental ceramics was found and extensive fibroblast cell spreading with filopodial extension, cell-to-cell bridges and proliferation with human gingival fibroblast cell lines. With acceptable cytocompatibility with human gingival fibroblast cells and better wear properties with respect to commercial IPS emax Press, the mica glass ceramic composites (47.2 SiO2–16.7Al2O3–9.5 K2O–14.5 MgO–8.5 B2O3–6.3F wt.%) with 20wt.% YSZ have the potential for dental restorative applications as machinable veneering ceramics.
ISSN:0109-5641
1879-0097
DOI:10.1016/j.dental.2019.08.112