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Comparison of Blue Light Blocking Effects of Tips and Tinted Lenses for Dental Light Curing Machines


Affiliations
1 Department of Dental Hygiene, Professor of Silla University, 140 Baegyang-daero (Blvd), 700beon-gil (Rd.), Sasang-Gu, Busan, 46958, Korea, Democratic People's Republic of
     

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Background/Objectives: This study aimed to examine the blue-light blocking effect according to the curing light tip and the color of the protective eyeglass lens for the operator’s eye protection.

Method/Statistical Analysis: The transmittance of light with a wavelength between 200 and 900 nm was measured three times at 1.8 nm intervals using a UV-vis spectrophotometer (LAMBDA 265, Perkinelmer, Inc.). Then the average values obtained were compared for analysis. The visible- and blue-light transmittances of all the tips and tinted lenses were examined, and the ratios of blue light in the transmitted visible light were analyzed to compare the blue-light blocking effects.

Findings: The transmittance of visible light with a wavelength between 380 and 750 nm was highest in the yellow lens (60.58%), followed by company B’s tip (55.23%), company A’s tip (51.46%), the orange lens (47.48%), company C’s tip (41.53%), and the red lens (41.00%). The blue-light transmittance was 0.14% in company A’s tip for the curing light gun, 0.75% in company B’s tip, and 0.12% in company C’s tip, which were all very low. Among the tinted lenses, the orange lens had the lowest blue-light transmittance (0.20%), the red lens had a blue-light transmittance of 6.59%, and the yellow lens had the highest blue-light transmittance (12.53%). For the analysis results of the ratio of blue light in the transmitted visible light, it was 0.27% for company A’s tip, the best blue-light blocking rate, and 20.68% for the yellow lens, the worst blue-light blocking rate. The ratios of blue light in the transmitted visible light for companies B and C’s tips were 1.35 and 0.29%, respectively, showing that they have a good blue-light blocking effect.

Improvements/Applications: The curing light tips and orange lens used for the analyses in this study showed a blue-light blocking effect. In the case of blue-light blocking by tinted lenses, further studies are required because the blocking rate may vary depending on the lens tint concentration.


Keywords

Curing Light Tip, Tinting, Lens, Blue Light, Blocking.
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  • Comparison of Blue Light Blocking Effects of Tips and Tinted Lenses for Dental Light Curing Machines

Abstract Views: 402  |  PDF Views: 0

Authors

Sook-Jeong Lee
Department of Dental Hygiene, Professor of Silla University, 140 Baegyang-daero (Blvd), 700beon-gil (Rd.), Sasang-Gu, Busan, 46958, Korea, Democratic People's Republic of

Abstract


Background/Objectives: This study aimed to examine the blue-light blocking effect according to the curing light tip and the color of the protective eyeglass lens for the operator’s eye protection.

Method/Statistical Analysis: The transmittance of light with a wavelength between 200 and 900 nm was measured three times at 1.8 nm intervals using a UV-vis spectrophotometer (LAMBDA 265, Perkinelmer, Inc.). Then the average values obtained were compared for analysis. The visible- and blue-light transmittances of all the tips and tinted lenses were examined, and the ratios of blue light in the transmitted visible light were analyzed to compare the blue-light blocking effects.

Findings: The transmittance of visible light with a wavelength between 380 and 750 nm was highest in the yellow lens (60.58%), followed by company B’s tip (55.23%), company A’s tip (51.46%), the orange lens (47.48%), company C’s tip (41.53%), and the red lens (41.00%). The blue-light transmittance was 0.14% in company A’s tip for the curing light gun, 0.75% in company B’s tip, and 0.12% in company C’s tip, which were all very low. Among the tinted lenses, the orange lens had the lowest blue-light transmittance (0.20%), the red lens had a blue-light transmittance of 6.59%, and the yellow lens had the highest blue-light transmittance (12.53%). For the analysis results of the ratio of blue light in the transmitted visible light, it was 0.27% for company A’s tip, the best blue-light blocking rate, and 20.68% for the yellow lens, the worst blue-light blocking rate. The ratios of blue light in the transmitted visible light for companies B and C’s tips were 1.35 and 0.29%, respectively, showing that they have a good blue-light blocking effect.

Improvements/Applications: The curing light tips and orange lens used for the analyses in this study showed a blue-light blocking effect. In the case of blue-light blocking by tinted lenses, further studies are required because the blocking rate may vary depending on the lens tint concentration.


Keywords


Curing Light Tip, Tinting, Lens, Blue Light, Blocking.



DOI: https://doi.org/10.37506/v20%2Fi1%2F2020%2Fmlu%2F194598