Atsushi Kameyama, Junji Kato, Jan De Munck, Hitoshi Hatayama, Akiko Haruyama, Masao Yoshinari, Yasuaki Takase, Bart Van Meerbeek, Masatake Tsunoda
Division of General Dentistry, Tokyo Dental College Chiba Hospital, Japan. kameyama@tdc.ac.jp
Bio-medical materials and engineering 2011The purpose of this study was to evaluate whether violet-laser diode (VLD) can be used as light-curing source. The ultimate (micro-)tensile strength (μTS) of three adhesives was determined when cured by VLD in comparison with curing by two different types of commercial LED light-curing units. One VLD (VLM 500) and two LED units (Curenos and G-Light Prima) were used to cure the adhesive resin of the two-step self-etch adhesives Clearfil SE Bond, Tokuso Mac Bond II, and FL-Bond II. A 0.6-mm thick acrylic mould was filled with adhesive resin and cured for 60 s. After 24-h water storage, specimens were trimmed into an hourglass shape with a width of 1.2 mm at the narrowest part, after which the μTS was determined (n=10). In addition, the light transmittance of each adhesive was characterized using a UV-vis-NIR spectrometer. No significant difference in curing efficiency between VLD and LED were observed for both Tokuso Mac Bond II and FL-Bond II (p>0.05). For Clearfil SE Bond, the μTS of VLD-cured specimens was higher than that of the specimens cured by the LED Curenos unit (p<0.05). Spectrometry revealed that this marked difference must be attributed to a different light transmittance of Clearfil SE Bond for visible blue light versus for the lower area of UV and visible violet light. In conclusion, A GaN-based violet laser diode can be used as light-curing source to initiate polymerization of dental resins.
Atsushi Kameyama, Junji Kato, Jan De Munck, Hitoshi Hatayama, Akiko Haruyama, Masao Yoshinari, Yasuaki Takase, Bart Van Meerbeek, Masatake Tsunoda. Light-curing efficiency of dental adhesives by gallium nitride violet-laser diode determined in terms of ultimate micro-tensile strength. Bio-medical materials and engineering. 2011;21(5-6):347-56
PMID: 22561254
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