Restorative Dentistry & Endodontics

Research Article

Difference in light transmittance and depth of cure of flowable composite depending on tooth thickness: an in vitro experimental study: Seong-Pyo Bae, Myung-Jin Lee, Kyung-San Min, Mi-Kyung Yu, Kwang-Won Lee; Restor Dent Endod 2025;50(4):e39. Published online November 28, 2025; DOI: https://doi.org/10.5395/rde.2025.50.e39

Abstract PDF PubReader ePub: Objectives
This study aimed to quantify light attenuation through varying tooth thicknesses and its impact on the depth of cure of composite resin.
Methods
Twenty extracted premolars were used to create enamel-dentin discs that were sanded progressively in 0.5 mm increments from 2.5 mm to 0.5 mm. Light irradiance was measured with and without tooth specimens to evaluate light transmittance. Resin was cured beneath different thicknesses, and the depth of cure was assessed using the Vickers hardness test.
Results
The results demonstrated that light transmittance significantly decreased as tooth thickness increased (p < 0.01), leading to reduced resin polymerization. In the 2.0-mm and 2.5-mm tooth thickness groups, the depth of cure was significantly lower than in the control group without tooth specimens (p < 0.05).
Conclusions
Ultimately, for tooth structures exceeding 2 mm, self-cure or dual-cure resin polymerization is thought to be more efficient than light polymerization.

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Original Article

The polymerization rate and the degree of conversion of composite resins by different light sources: Joo-Hee Ryoo, In-Bog Lee, Hyun-Mee Yoo, Mi-Ja Kim, Chang-In Seok, Hyuk-Choon Kwon; J Korean Acad Conserv Dent 2004;29(4):386-398. Published online July 31, 2004; DOI: https://doi.org/10.5395/JKACD.2004.29.4.386

Abstract PDF PubReader ePub

Objectives

The purpose of this study was to observe the reaction kinetics and the degree of polymerization of composite resins when cured by different light sources and to evaluate the effectiveness of the blue Light Emitting Diode Light Curing Units (LED LCUs) compared with conventional halogen LCUs.

Materials and Methods

First, thermal analysis was performed by a differential scanning calorimeter (DSC). The LED LCU (Elipar Freelight, 320 mW/cm²) and the conventional halogen LCU (XL3000, 400 mW/cm²) were used in this study for curing three composite resins (SureFil, Z-250 and AEliteFLO). Second, the degree of conversion was obtained in the composite resins cured according to the above curing mode with a FTIR. Third, the measurements of depth of cure were carried out in accordance with ISO 4049 standards. Statistical analysis was performed by two-way ANOVA test at 95% levels of confidence and Duncan's procedure for multiple comparisons.

Results

The heat of cure was not statistically different among the LCUs (p > 0.05). The composites cured by the LED (Exp) LCUs were statistically more slowly polymerized than by the halogen LCU and the LED (Std) LCU (p < 0.05). The composite resin groups cured by the LED (Exp) LCUs had significantly greater degree of conversion value than by the halogen LCU and the LED (Std) LCU (p = 0.0002). The composite resin groups cured by the LED (Std) LCUs showed significantly greater depth of cure value than by the halogen LCU and the LED (Exp) LCU (p < 0.05).

Citations

Citations to this article as recorded by

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