Esther Hope1, Dana R Reed2, Lori H Moilanen3. 1. Medical Department, 3M Company, Bldg 220-6E-03, Saint Paul, MN 55144-1000, USA. Electronic address: efhope@mmm.com. 2. Central Research Analytical Laboratory, 3M Company, Bldg 201-BW-31, Saint Paul , MN 55144-1000, USA. 3. Medical Department, 3M Company, Bldg 220-6E-03, Saint Paul, MN 55144-1000, USA.
Abstract
OBJECTIVES: In the published literature, a variety of analytical methods have been used to quantify and report bisphenol A (BPA) release from dental resins. The objective of this study was to compare results obtained for quantification of BPA in dental resin extracts using an LC/UV analytical method and an LC/MS/MS method. METHODS: A cured Bis-GMA-based resin representative of commercial dental products was extracted according to ISO 10993 guidelines for medical devices. d16BPA was included as an internal standard. Sample processing followed expert recommendations for minimizing BPA sample contamination. Extracts were separated using HPLC methods and analyzed for BPA using LC/UV and LC/MS/MS detection methods. RESULTS: The reported BPA concentrations were about 30-fold higher using LC/UV vs. LC/MS/MS. Full scan LC/MS/MS in both positive and negative modes showed that the apparent high BPA values seen with LC/UV were caused by co-elution of a previously unidentified chemical, thought to arise from one of the polymerization initiators. SIGNIFICANCE: These results emphasize the potential difficulties in obtaining accurate analyses of BPA in complex mixtures such as dental resins and their extracts. Both good separation methodology and a detection method with high specificity and sensitivity are important to avoid incorrect identification of extractables, and consequent incorrect quantitative assignments for species of interest. Reliable methods are essential for accurate estimation of patient exposure to BPA and development of meaningful health risk assessments.
OBJECTIVES: In the published literature, a variety of analytical methods have been used to quantify and report bisphenol A (BPA) release from dental resins. The objective of this study was to compare results obtained for quantification of BPA in dental resin extracts using an LC/UV analytical method and an LC/MS/MS method. METHODS: A cured Bis-GMA-based resin representative of commercial dental products was extracted according to ISO 10993 guidelines for medical devices. d16BPA was included as an internal standard. Sample processing followed expert recommendations for minimizing BPA sample contamination. Extracts were separated using HPLC methods and analyzed for BPA using LC/UV and LC/MS/MS detection methods. RESULTS: The reported BPA concentrations were about 30-fold higher using LC/UV vs. LC/MS/MS. Full scan LC/MS/MS in both positive and negative modes showed that the apparent high BPA values seen with LC/UV were caused by co-elution of a previously unidentified chemical, thought to arise from one of the polymerization initiators. SIGNIFICANCE: These results emphasize the potential difficulties in obtaining accurate analyses of BPA in complex mixtures such as dental resins and their extracts. Both good separation methodology and a detection method with high specificity and sensitivity are important to avoid incorrect identification of extractables, and consequent incorrect quantitative assignments for species of interest. Reliable methods are essential for accurate estimation of patient exposure to BPA and development of meaningful health risk assessments.
Authors: Siemon De Nys; Eveline Putzeys; Philippe Vervliet; Adrian Covaci; Imke Boonen; Marc Elskens; Jeroen Vanoirbeek; Lode Godderis; Bart Van Meerbeek; Kirsten L Van Landuyt; Radu Corneliu Duca Journal: Sci Rep Date: 2018-05-03 Impact factor: 4.379