Masanori Hashimoto1, Kouichi Nakamura, Masayuki Kaga, Yasutaka Yawaka. 1. Department of Dentistry for Children and Disabled Persons, Graduate School of Dental Medicine, Hokkaido University, Kita 13, Nishi 7, Kita-ku, Sapporo 060-8586, Hokkaido, Japan. masanori-h@mue.biglobe.ne.jp
Abstract
OBJECTIVE: This investigation was carried out to evaluate the long-term effects of fluoride-releasing adhesive resins on structural changes in standardized fluid-filled gaps simulating microleakage between the materials and the tooth surface in vitro. METHODS: Three commercially available fluoride-releasing resin adhesives (One-Up Bond F, OptiBond Solo, and Reactmer Bond) were used in this study. Cured disks of resin adhesive were placed over flat human tooth surfaces (enamel and dentin), separated by a standardized 40microm interfacial gap and stored in distilled water for 24h (control group) or 1000 days (experimental group). After 1000 days of water storage, the resins were detached from the teeth and the opposing surfaces were examined by scanning electron microscopy (SEM). In addition, chemical structural analysis was performed by laser-Raman spectroscopy. RESULTS: The SEM microphotographs showed numerous crystal types on the enamel, dentin, and resin surfaces after 1000 days of water storage for OptiBond Solo and Reactmer Bond. However, there was no crystal formation in the control specimens and the aged specimens of One-Up Bond F. Raman analysis showed several peaks (463, 618, and 990cm(-1)) from the crystals of OptiBond Solo that were not identified in the enamel, dentin, or cured resin. SIGNIFICANCE: In conclusion, two of the three tested fluoride-release resin adhesives (OptiBond Solo and Reactmer Bond) have the ability to induce crystal growth within gaps between the adhesive and teeth in long-term water storage. These results suggest that the two adhesive resins have self-reparative ability with regard to bond leakage.
OBJECTIVE: This investigation was carried out to evaluate the long-term effects of fluoride-releasing adhesive resins on structural changes in standardized fluid-filled gaps simulating microleakage between the materials and the tooth surface in vitro. METHODS: Three commercially available fluoride-releasing resin adhesives (One-Up Bond F, OptiBond Solo, and Reactmer Bond) were used in this study. Cured disks of resin adhesive were placed over flat human tooth surfaces (enamel and dentin), separated by a standardized 40microm interfacial gap and stored in distilled water for 24h (control group) or 1000 days (experimental group). After 1000 days of water storage, the resins were detached from the teeth and the opposing surfaces were examined by scanning electron microscopy (SEM). In addition, chemical structural analysis was performed by laser-Raman spectroscopy. RESULTS: The SEM microphotographs showed numerous crystal types on the enamel, dentin, and resin surfaces after 1000 days of water storage for OptiBond Solo and Reactmer Bond. However, there was no crystal formation in the control specimens and the aged specimens of One-Up Bond F. Raman analysis showed several peaks (463, 618, and 990cm(-1)) from the crystals of OptiBond Solo that were not identified in the enamel, dentin, or cured resin. SIGNIFICANCE: In conclusion, two of the three tested fluoride-release resin adhesives (OptiBond Solo and Reactmer Bond) have the ability to induce crystal growth within gaps between the adhesive and teeth in long-term water storage. These results suggest that the two adhesive resins have self-reparative ability with regard to bond leakage.
Authors: Sui Mai; Young Kyung Kim; Manuel Toledano; Lorenzo Breschi; Jun Qi Ling; David H Pashley; Franklin R Tay Journal: Dent Mater Date: 2009-05-30 Impact factor: 5.304
Authors: Monika Łukomska-Szymańska; Beata Zarzycka; Janina Grzegorczyk; Krzysztof Sokołowski; Konrad Półtorak; Jerzy Sokołowski; Barbara Łapińska Journal: Biomed Res Int Date: 2016-12-08 Impact factor: 3.411