List of Articles by MeSH
GLASS IONOMER CEMENTS
- Gjorgievska E, Nicholson JW, Iljovska S, Slipper IJ. A Preliminary Study of the Water Movement Across Dentin Bonded to Glass-Ionomer Cements. Acta Stomatol Croat. 2008;42(4):326-34.
[details]
[close]
Full Text
Title in English: |
A Preliminary Study of the Water Movement Across Dentin Bonded to Glass-Ionomer Cements |
Title in Croatian: |
Preliminarno istraživanje kretanja vode preko veze dentina i stakleno-ionomernih cemenata |
Type of Article: |
original scientific paper |
MeSH: |
GLASS IONOMER CEMENTS DENTAL MATERIALS DENTIN |
Abstract: |
Objectives: The purpose of this study was to examine the effects of the water movement across dentin bonded to conventional glass-ionomer cements. Material and method: Class V cavities were prepared on extracted permanent third molar teeth, filled with conventional glass-ionomer cement Fuji IX and stored in artificial saliva for one and 18 months. After the storage time interval, the teeth were sectioned longitudinally and examined by SEM (in secondary and backscattered electron mode) and EDAX. Results: Spherical structures were noted in the material adjacent to the interface with the hard dental substances after 18 months. The air voids found next to the interface between the traditional glass-ionomer cements and dentin are mainly “egg-shell-like” (although, solid ones were also found). They are probably a result of the continuation of the setting reaction in the air voids of the original polyalkenoate matrix, which appears because of water diffusion from the humid dentin. The EDAX analysis proved that these formations consist of high quantity of strontium, silica and aluminium. Conclusions: The described spherical formations may lead to improvement of the compressive strength, which is found in old restorations with conventional glass-ionomer cements. |
- Mehulić K. Glass-Ceramics. Acta Stomatol Croat. 2005;39(4):477-86.
[details]
[close]
Full Text
Title in English: |
Glass-Ceramics |
Title in Croatian: |
Staklokeramika |
Type of Article: |
case report |
MeSH: |
DENTAL MATERIALS CERAMICS GLASS IONOMER CEMENTS |
Abstract: |
Glass ceramics is a polycrystal material which is obtained by controlled crystallisation of glass. During the controlled crystallisation of glass a two-phase material emerges: crystals and an amorphous glass matrix. The development of crystals, several micrometers in size, takes place during the procedure of heating the total volume of glass, formation of germs and growth of crystals. The germs are either latently present in the glass or are added as an insoluble material in the finely dispersed distribution of the mixture (glass amorphous mass). Glass ceramic systems exist for laboratory fabrication and machine milling of finished ceramic blocks. By the method of casting and heat pressing glass ceramics materials are obtained with excellent mechanical and aesthetic properties for fabrication single crowns, inlays and onlays and also of three-unit bridges. |
- Hedzelek W, Muszalski B, Joniak S. Comparison of Tearing off and Impact Load Resistance of Selected Phosphate and Glassionomer Cements. Acta Stomatol Croat. 2002;36(3):352.
[details]
[close]
Full Text
Title in English: |
Comparison of Tearing off and Impact Load Resistance of Selected Phosphate and Glassionomer Cements |
Title in Croatian: |
nema |
Type of Article: |
congress abstract |
MeSH: |
DENTAL CEMENTS GLASS IONOMER CEMENTS |
Abstract: |
Cements used for seating fixed dentures are expected to have some definite resistance to tearing off and impact loads. It seems that these features may significantly influence the effective adhesion of a crown or bridge. For final seating of dentures both phosphate and glassionomer cements, which are a more recent invention, are used.The aim of this work was to compare two cements from the phosphate group with two cements from the glassionomere group with respect to their tearing off resistance and resistance to impact loads. The experiment was conducted in vitro. In the test fortearing off resistance Osteoplant implant was used as the abutment. The crown was a cast chrome- nickel substructure. The Raustein FM 250 was used for registration of this phenomenon. Six tests for tearing were conducted for each cement. A special device was constructed to test resistance to impact loads. The abutment was made of brass. After coating with a layer of varnish the substructure was contoured as a wax pattern and then cast in Remanium CSalloy. This metal substructure had additional handles for easier manipulation. Six tests were made for each material. When analyzing the results we found significant differences between the values of tearing resistance of the cements from the two groups (the average tearimg resistance for 1. Harv. Phosp. 183.3 N; 2. Poscal 273.5 N; 3.Rely X 27.8 N; 4. GC Fuji I 19 N). Significant differences were also observed when impact load resistance was tested. |
- Grgurević J, Sokler K, Sandev S, Kuna T, Ivasović Z, Božić D. Comparison of the Bond Strengths of Zinc Phosphate, Glass-Ionomer, and Compomere Cement for Dowel Cementation. Acta Stomatol Croat. 2002;36(2):179-89.
[details]
[close]
Full Text
Title in English: |
Comparison of the Bond Strengths of Zinc Phosphate, Glass-Ionomer, and Compomere Cement for Dowel Cementation |
Title in Croatian: |
Usporedba vezne čvrstoće cink-fosfatnog, stakleno-ionomernog i kompomernog cementa za cementiranje nadogradnji |
Type of Article: |
original scientific paper |
MeSH: |
DENTAL CEMENTS GLASS IONOMER CEMENTS COMPOMERS POST AND CORE TECHNIQUE CEMENTATION |
Abstract: |
In spite of numerous previous studies, there is no final conclusion onwhich type of cement is the best for dowel cementation. The purpose of this study was to compare the retention of dowels cemented with three different cement types: zinc phosphate, glass-ionomer, and compomere.Thirty teeth were divided into 3 groups, root-canals were preparedto ISO 140, to 7 mm depth and dowels were cemented. After 40 hours the tensile force needed to dislodge the dowels was recorded. For zinc phosphate it was 175±33.17 N, for glass-ionomer 235.5±46.93 N, and for compomere 275.63±96.42 N.The dowels cemented with compomere had significantly higher tensilestrength than those cemented with zinc phosphate or glass-ionomercement. Glass-ionomer cement had significantly higher tensile strength than zinc phosphate cement. The advantages of zinc-phosphate are its low price and simple usage. Thus, in many clinical situations it may be the cement of choice. |
- Knežević A, Tarle Z, Meniga A, Pandurić V, Šutalo J. The Most Frequently Used Materials for Compensation of Hard Tissue. Acta Stomatol Croat. 2000;34(4):379-90.
[details]
[close]
Full Text
Title in English: |
The Most Frequently Used Materials for Compensation of Hard Tissue |
Title in Croatian: |
Najčešće rabljeni materijali za naknadu tvrdog zubnog tkiva |
Type of Article: |
original scientific paper |
MeSH: |
COMPOSITE RESINS DENTIN-BONDING AGENTS GLASS IONOMER CEMENTS OPERATIVE DENTISTRY |
Abstract: |
The continual progress in development of new dental materials for tooth fillings and the presence of those materials on the market confuse the dentist when choosing the most appropriate material. The purpose of this research was to carry aut a survey in order to find out what are the most frequently used materials for permanent tooth fillings, dentine adhesives and polymerization units in clinical practice. The survey covered 304 subjects (doctors/dentists) with experience ranging from 1 to 40 years of practice. The results show that Tetric Ceram (Vivadent, Schaan, Liechtenstein) is the most used composite material, Syntac (Vivadent, Schaan, Liechtenstein) the most used dentine adhesive and Heliolux (Vivadent, Schaan, Liechtenstein) the most used curing unit for photopolymerisation of composite materials in clinical practice. |
- Mužić D. Rekonstrukcija trajnoga sjekutića nakon teške traume suvremenim kompozitnim glass ionomer materijalima [in Croatian]. Acta Stomatol Croat. 1998;32(Suppl):177.
[details]
[close]
- Anić I, Kasami N. [A methylene blue dye microleakage study of retrograde filling materials]. Acta Stomatol Croat. 1997;31(2):135-42.
[details]
[close]
- Kišić S, Tarle Z, Simeon P, Šutalo J. [Compomer as restorative material for carious and noncarious lesions]. Acta Stomatol Croat. 1997;31(2):115-21.
[details]
[close]
- Staničić T. [Restoration of cervical lesions with glass ionomer cements]. Acta Stomatol Croat. 1991;25(3):171-5.
[details]
[close]
Title in English: |
Restoration of cervical lesions with glass ionomer cements |
Title in Croatian: |
Restoracije cervikalnih lezija stakleno ionomernim cementima |
Type of Article: |
professional paper |
MeSH: |
DENTAL CARIES + therapy DENTAL RESTORATION, PERMANENT GLASS IONOMER CEMENTS TOOTH ROOT DENTAL CAVITY LINING |
Abstract: |
Cervical lesions and their proper treatment still represent a considerable professional problem. The incidence of these lesions increases with aging of the population. The lesions have to be treated because of esthetic reasons, hypersensitivity to stimuli, and possible further loss of dental substance. Most of the restorative materials used to date have failed to fulfill both functional and esthetic requirements. In this study, a novel approach to the treatment of these lesions using type II glass ionomer cement, with an additional possibility of the application of the final composite layer to attain the maximal esthetic effect, was investigated. This filling was found to have great advantages over both classical fillings and the composite materials alone, because it chemically binds to dentin, exerts a marked caries-protective effect through a continuous release of fluor ions, and provides the best esthetic effect in combination with composite materials (when necessary). |
- Prskalo K, Pandurić J, Šutalo J, Vukovojac S, Meniga A. [Glass-ionomer cements]. Acta Stomatol Croat. 1990;24(3):197-208.
[details]
[close]
Title in English: |
Glass-ionomer cements |
Title in Croatian: |
Stakleno-ionomerni cementi |
Type of Article: |
review |
MeSH: |
GLASS IONOMER CEMENTS |
Abstract: |
Glass-ionomer cements represent a new type of dental materials widely clinically applied owing to their good adhesion to dental tissue, caries-protective effects, biocompatibility and simple handling. They are two-component materials commercially available in forms of powder or liquid. The two components are mixed manually or automatically in a vibrator to produce a compact mixture. In addition to chemical, light-polymerizing hybrid glass-ionomer cements are also available. A description is given of physical and chemical features of these materials, their classification and use in particular clinical cases. |
|