Kosior Piotr, Kaczmarek Urszula
Zakład Propedeutyki Stomatologicznej Akademii Medycznej we Wroclawiu.
Ann Acad Med Stetin. 2006;52 Suppl 1:57-60.
Conventional and resin modified glass-ionomer cements according to their physico-chemical properties are widely used in dental treatment. The main advantages of these materials are chemical bonding to hard dental tissues and high level of fluoride release. The aim of this study was to compare the fluoride release of selected glass-ionomer cements in vitro conditions.
Conventional glass-ionomer cement Ionofil Molar and resin modified glass ionomer cement - Vitremer were examined. Samples of the materials were placed in saline and deionised water. Fluoride concentration measurements were carried out using ORION 9609 electrode, after 1, 3, 24, 48, 72, 168 hours and next every 168 hours (7 days) until 2352 hour (98 days).
Significantly higher concentration level of fluoride released from resin modified cement (Vitremer) was obtained for saline and deionized water than conventional cement Ionofil Molar. Cumulative fluoride release in saline after 14 weeks for Vitremer was 256.87+/-15.77 microg F/mm(2) and for Ionofil Molar 206.61+/-20.01 microg F/mm(2). For both materials the dynamics of fluoride release was the highest within the first 24 hours, and sharply decreased in next intervals.
Resin modified glass-ionomer cement Vitremer released highest amount of fluoride than conventional glass-ionomer cement Ionofil Molar. Similar level of fluoride emission into deionised water and saline was observed.
根据其物理化学性质,传统玻璃离子水门汀和树脂改性玻璃离子水门汀在牙科治疗中被广泛使用。这些材料的主要优点是能与坚硬的牙齿组织发生化学键合以及具有高水平的氟释放。本研究的目的是在体外条件下比较所选玻璃离子水门汀的氟释放情况。
对传统玻璃离子水门汀Ionofil Molar和树脂改性玻璃离子水门汀Vitremer进行了检测。将材料样本置于生理盐水和去离子水中。使用ORION 9609电极在1、3、24、48、72、168小时后以及接下来每隔168小时(7天)直至2352小时(98天)进行氟浓度测量。
在生理盐水和去离子水中,树脂改性水门汀(Vitremer)释放的氟浓度水平显著高于传统水门汀Ionofil Molar。14周后,Vitremer在生理盐水中的累积氟释放量为256.87±15.77μg F/mm²,Ionofil Molar为206.61±20.01μg F/mm²。对于这两种材料,氟释放在最初24小时内最高,在接下来的时间段内急剧下降。
树脂改性玻璃离子水门汀Vitremer比传统玻璃离子水门汀Ionofil Molar释放的氟量最高。在去离子水和生理盐水中观察到类似的氟释放水平。
