23 January 2023>: Lab/In Vitro Research
Comparison of Antibacterial Activity, Cytotoxicity, and Fluoride Release of Glass Ionomer Restorative Dental Cements in Dentistry
Ayse Gunay 1ABCDEF* , Sema Celenk 1EF , Ozkan Adiguzel 2AE , Suzan Cangul 3AEF , Nida Ozcan 4BE , Ezgi Eroglu Cakmakoglu 5ADOI: 10.12659/MSM.939065
Med Sci Monit 2023; 29:e939065
Table 1 Glass ionomer cements used in the study.
Materials | Type | Manufacturer | Composition |
---|---|---|---|
Riva Silver | Silver-alloy reinforced GIC | SDI, Australia | Liquid: acrylic acid homopolymer; tartaric acid. Powder: glass powder; acrylic acid homopolymer; alloy powder |
Equia Forte HT | Bulk fill glass hybrid restorative system | GC, Tokyo, Japan | Powder: fluoroaluminosilicate glass, polyacrylic acid, iron oxide Liquid: polybasic carboxylic acid, water |
ChemFil Rock | Zinc-reinforced glass ionomer | Dentsply, Konstanz, Germany | Calcium-aluminium-zinc-fluoro-phosphor-silicate glass, polycarboxylic acid, iron oxide pigments, titanium dioxide pigments, tartaric acid, water |
Ketac™ Molar Easymix | Conventional glass-ionomer cement | 3M-ESPE, Germany | Powder: Al-Ca-La fluorosilicate glass, 5% copolymer acid (acrylic and maleic acid) Liquid: Polyalkenoic acid, tartaric acid, water |