Influence of liquid films on mercury vapor loss from dental amalgam

Objectives: The aim of this study was to determine the effect of aqueous liquid films on Hg emission from of dental amalgam. Methods: Amalgam specimens (4 mm dia. ×4 mm long) made from ten alloys were uniformly abraded on wet ASTM 600 grit SiC paper, quickly dried and covered by liquid films of a th...

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Published in	Dental materials Vol. 18; no. 5; pp. 407 - 412
Main Authors	Mahler, David B., Adey, Jerome D., Simms, Lisa E., Marek, Miroslav
Format	Journal Article
Language	English
Published	England Elsevier Ltd 01.07.2002
Subjects	Air Pollutants - analysis Analysis of Variance Area Under Curve Dental amalgam Dental Amalgam - chemistry Dental Deposits Humans Liquid films Maximum Allowable Concentration Mercury - analysis Mercury vapor Regression Analysis Saliva - physiology Saliva, Artificial Statistics, Nonparametric Volatilization Water Mercury vapor Dental amalgam Liquid films
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Abstract	Objectives: The aim of this study was to determine the effect of aqueous liquid films on Hg emission from of dental amalgam. Methods: Amalgam specimens (4 mm dia. ×4 mm long) made from ten alloys were uniformly abraded on wet ASTM 600 grit SiC paper, quickly dried and covered by liquid films of a thickness that approximated the thickness of saliva films on tooth surfaces in vivo. Distilled water and two formulations of artificial saliva were tested. After abrasion and film placement, the specimens were immediately inserted in a plastic tube which was then closed. After 30 min, the Hg vapor that had collected in the tube was measured using a Jerome 411 Hg analyzer. Hg emission from abraded surfaces exposed to air was also measured and used for comparative purposes. The test results were compared using ANOVA and Tukey's contrast test ( p=0.05). Results: Hg emission from abraded surfaces under liquid films was one to two orders of magnitude less than Hg emission from abraded surfaces exposed to air. Significance: In vitro measurement of Hg vapor emission from abraded surfaces exposed to air should not be used to estimate directly the Hg vapor release from dental amalgam restorations in vivo.
AbstractList	The aim of this study was to determine the effect of aqueous liquid films on Hg emission from of dental amalgam. Amalgam specimens (4 mm dia. x 4 mm long) made from ten alloys were uniformly abraded on wet ASTM 600 grit SiC paper, quickly dried and covered by liquid films of a thickness that approximated the thickness of saliva films on tooth surfaces in vivo. Distilled water and two formulations of artificial saliva were tested. After abrasion and film placement, the specimens were immediately inserted in a plastic tube which was then closed. After 30 min, the Hg vapor that had collected in the tube was measured using a Jerome 411Hg analyzer. Hg emission from abraded surfaces exposed to air was also measured and used for comparative purposes. The test results were compared using ANOVA and Tukey's contrast test (p=0.05). Hg emission from abraded surfaces under liquid films was one to two orders of magnitude less than Hg emission from abraded surfaces exposed to air. In vitro measurement of Hg vapor emission from abraded surfaces exposed to air should not be used to estimate directly the Hg vapor release from dental amalgam restorations in vivo. The aim of this study was to determine the effect of aqueous liquid films on Hg emission from dental amalgam. Amalgam specimens (4 mm dia. x 4 mm long) made from ten alloys were uniformly abraded on wet ASTM 600 grit SiC paper, quickly dried and covered by liquid films of a thickness that approximated the thickness of saliva films on tooth surfaces in vivo. Distilled water and two formulations of artificial saliva were tested. After abrasion and film placement, the specimens were immediately inserted in a plastic tube which was then closed. After 30 min, the Hg vapor that had collected in the tube was measured using a Jerome 411 Hg analyzer. Hg emission from abraded surfaces exposed to air was also measured and used for comparative purposes. The test results were compared using ANOVA and Tukey's contrast test (p = 0.05). Hg emission from abraded surfaces under liquid films was one to two orders of magnitude less than Hg emission from abraded surfaces exposed to air. In vitro measurement of Hg vapor emission from abraded surfaces exposed to air should not be used to estimate directly the Hg vapor release from dental amalgam restorations in vivo. Objectives: The aim of this study was to determine the effect of aqueous liquid films on Hg emission from of dental amalgam. Methods: Amalgam specimens (4 mm dia. ×4 mm long) made from ten alloys were uniformly abraded on wet ASTM 600 grit SiC paper, quickly dried and covered by liquid films of a thickness that approximated the thickness of saliva films on tooth surfaces in vivo. Distilled water and two formulations of artificial saliva were tested. After abrasion and film placement, the specimens were immediately inserted in a plastic tube which was then closed. After 30 min, the Hg vapor that had collected in the tube was measured using a Jerome 411 Hg analyzer. Hg emission from abraded surfaces exposed to air was also measured and used for comparative purposes. The test results were compared using ANOVA and Tukey's contrast test ( p=0.05). Results: Hg emission from abraded surfaces under liquid films was one to two orders of magnitude less than Hg emission from abraded surfaces exposed to air. Significance: In vitro measurement of Hg vapor emission from abraded surfaces exposed to air should not be used to estimate directly the Hg vapor release from dental amalgam restorations in vivo.
Author	Marek, Miroslav Simms, Lisa E. Adey, Jerome D. Mahler, David B.
Author_xml	– sequence: 1 givenname: David B. surname: Mahler fullname: Mahler, David B. email: mahlerd@ohsu.edu organization: Department of Biomaterials and Biomechanics, Oregon Health Sciences University, Portland, OR, USA – sequence: 2 givenname: Jerome D. surname: Adey fullname: Adey, Jerome D. organization: Department of Biomaterials and Biomechanics, Oregon Health Sciences University, Portland, OR, USA – sequence: 3 givenname: Lisa E. surname: Simms fullname: Simms, Lisa E. organization: Department of Biomaterials and Biomechanics, Oregon Health Sciences University, Portland, OR, USA – sequence: 4 givenname: Miroslav surname: Marek fullname: Marek, Miroslav organization: School of Materials Science and Engineering, Georgia Institute of Technology, Atlanta GA, USA
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Snippet	Objectives: The aim of this study was to determine the effect of aqueous liquid films on Hg emission from of dental amalgam. Methods: Amalgam specimens (4 mm... The aim of this study was to determine the effect of aqueous liquid films on Hg emission from of dental amalgam. Amalgam specimens (4 mm dia. x 4 mm long) made... The aim of this study was to determine the effect of aqueous liquid films on Hg emission from dental amalgam. Amalgam specimens (4 mm dia. x 4 mm long) made...
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SubjectTerms	Air Pollutants - analysis Analysis of Variance Area Under Curve Dental amalgam Dental Amalgam - chemistry Dental Deposits Humans Liquid films Maximum Allowable Concentration Mercury - analysis Mercury vapor Regression Analysis Saliva - physiology Saliva, Artificial Statistics, Nonparametric Volatilization Water
Title	Influence of liquid films on mercury vapor loss from dental amalgam
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