Effect of Light Dispersion of LED Curing Lights on Resin Composite Polymerization
ABSTRACT Purpose:: This study evaluated the effect of light dispersion of halogen and LED curing lights on resin composite polymerization. Materials and Methods: One halogen (Optilux 501, SDS/Kerr, Orange, CA, USA) and five light‐emitting diode (LED) curing lights (SmartLite iQ, Dentsply Caulk, Milf...
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Veröffentlicht in: | Journal of esthetic and restorative dentistry 2005-07, Vol.17 (4), p.244-254 |
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Purpose::
This study evaluated the effect of light dispersion of halogen and LED curing lights on resin composite polymerization.
Materials and Methods:
One halogen (Optilux 501, SDS/Kerr, Orange, CA, USA) and five light‐emitting diode (LED) curing lights (SmartLite iQ, Dentsply Caulk, Milford, DE, USA; LEDemetron 1, SDS/Kerr; FLASHlite 1001, Discus Dental, Culver City, CA, USA; UltraLume LED 5, Ultradent Products, South Jordan, UT, USA; Allegro, Den‐Mat, Santa Maria, CA, USA) were used in this study. Specimens (8 mm diameter by 2 mm thick) were made in polytetra‐fluoroethylene molds using hybrid (Z100, 3M ESPE, St. Paul, MN, USA) and microfill (A110, 3M ESPE) composite resins. The top surface was polymerized for 5 seconds with the curing light guide tip positioned at a distance of 1 and 5 mm. Degree of conversion (DC) of the composite specimens was analyzed on the bottom surface using micro‐Fourier Transform Infrared (FTIR) spectroscopy (Perkin‐Elmer FTIR Spectrometer, Wellesley, PA, USA) 10 minutes after light activation. DC at the bottom of the 2 mm specimen was expressed as a percentage of the mean maximum DC. Five specimens were created per curing light and composite type (n = 5). Percent mean DC ratios and SDs were calculated for each light under each testing condition. Data were analyzed by analysis of variance (ANOVA)/Tukey's test (α= .05). A beam analyzer (LBA‐700, Spiricon, Logan, UT, USA) was used to record the emitted light from the curing lights at 0 and 5 mm distances (n = 5). A Top Hat factor was used to compare the quality of the emitted beam profile (LBA/PC, Spiricon). The divergence angle from vertical was also determined in the x‐ and y‐axes (LBA/PC). Mean values and SDs were calculated for each light under each testing condition (0 and 5 mm, x‐ and y‐axes) and analyzed by a two‐way ANOVA/Tukey's test (α= .05).
Results:
For DC ratios, significant differences were found based on curing light and curing distance (p < .05). At 1 mm, Optilux 501 and FLASHlite 1001 produced significantly higher DC ratios with the hybrid resin composite. No differences were found among lights with the microfill at 1 mm. At 5 mm, SmartLite iQ, FLASHlite 1001, LEDemetron 1, and UltraLume LED 5 produced significantly higher DC ratios with the hybrid resin composite, whereas LEDemetron 1 and SmartLite iQ produced significantly higher DC ratios with the microfill resin composite.
The UltraLume LED 5, Allegro, and Optilux 501 had significant reductions in m |
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ISSN: | 1496-4155 1708-8240 |
DOI: | 10.1111/j.1708-8240.2005.tb00122.x |