| THE BULLETIN OF TOKYO DENTAL COLLEGE | |
| Vol. 49 No. 4 November 2008 | |
| ISSN: 0040-8891 UBIC: 66 | |
| Abstract | |
| The aim of this study was to determine the effect of different ceramic thickness on heat generation during resin cement photo-activation by
QTH (quartz-tungsten-halogen), LED (light emitting diode), and PAC (plasma arc-curing) LCUs (light curing units). The resin cement used was Rely X ARC (3M-ESPE), and
the ceramic was IPS Empress Esthetic (Ivoclar-Vivadent), of which 0.7-, 1.4- and 2.0-mm thick disks, 0.8 mm in diameter were made. Temperature increase was recorded
with a type-K thermocouple connected to a digital thermometer (Iopetherm 46). An acrylic resin base was built to guide the thermocouple and support the 1 .0-mm thick
dentin disk. A 0.1-mm thick black adhesive paper matrix with a perforation 6 mm in diameter was placed on the dentin to contain the resin cement and support the ceramic
disks of different thicknesses. Three LCUs were used: QTH, LED and PAC. Nine groups were formed (n = 10) according to the interaction: 3 ceramic thicknesses, 1 resin
cement and 3 photo-activation methods. Temperature increase data were submitted to Tukey's test (5%). For ah ceramic thicknesses, a statistically significant difference
in temperature increase was observed among the LCUs, with the highest mean value for the QTH LCU (p<0.05). For all the LCUs, a thickness of 0.7mm produced the
highest temperatures (1.4 and 2.mm, p<0.05). There was no difference in temperature values between the latter two thicknesses (p>0.05). The interaction of higher
energy density with smaller ceramic thickness showed higher temperature increase values.
Key words: Ceramic thickness. Photo-activation methods. Temperature increase. Resin cement. |
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