The combination of technological advances in Dental materials and increased demands in quantity and quality by a burgeoning population of dentate elderly has resulted in the production of new Dental restoration systems at an unprecedented pace. Longevity studies can no longer keep up with market-driven demands. This has placed increased importance on testing techniques and failure analyses. The goal of this project is to meet the needs of Dental professionals by understanding Dental restoration failure modes, produce guidelines and recommendations for improving Dental restoration longevity and disseminate the relevant information. The goals will be achieved in a series of steps. First, relevant application-based property testing techniques will be established, rather than material-based. This will help solve some of the current problems in the Dental field, where many different materials are now so advanced they can be used for the same application, but are still tested differently. Second, restoration-shaped specimens of the tested materials will be made and broken to mimic the fracture surfaces of failed restorations in vivo. The ability to reproduce a fracture surface represents a thorough understanding of the stress configuration and fracture progression. Only very recently have fractographic studies and a small collection of failed restorations enabled such an endeavor. Next, this project will continue to build a library of failed restorations, utilizing the newly established PBRNs. By collecting a statistically significant number of fractures, correlations with published longevity studies would finally be possible. The last goal is effective technology transfer, as this research has immediate practical value and scientific merit. Besides presentations and publications, an educational package will be made available for Dental schools, and information will be made available to practicing professions through the PBRN program and the resources of the ADA. This project will benefit the public by improving the quality and durability of Dental restorations. In order to avoid restoration failure, the role of properties, testing and fracture progression must be understood. This is of obvious value to researchers, but this knowledge and data will also be accessible for practicing Dentists, manufacturers and laboratory technicians to be able to work together to make informed choices regarding restorations within their own areas of expertise.

Agency
National Institute of Health (NIH)
Institute
National Institute of Dental & Craniofacial Research (NIDCR)
Type
Research Project (R01)
Project #
5R01DE017983-04
Application #
7806530
Study Section
Oral, Dental and Craniofacial Sciences Study Section (ODCS)
Program Officer
Wan, Jason
Project Start
2007-05-01
Project End
2012-04-30
Budget Start
2010-05-01
Budget End
2011-04-30
Support Year
4
Fiscal Year
2010
Total Cost
$220,299
Indirect Cost
Name
American Dental Association Foundation
Department
Type
DUNS #
789085941
City
Chicago
State
IL
Country
United States
Zip Code
60611
Quinn, G D (2015) On edge chipping testing and some personal perspectives on the state of the art of mechanical testing. Dent Mater 31:26-36
Quinn, G D; Giuseppetti, A A; Hoffman, K H (2014) Chipping fracture resistance of dental CAD/CAM restorative materials: part 2. Phenomenological model and the effect of indenter type. Dent Mater 30:e112-23
Quinn, G D; Giuseppetti, A A; Hoffman, K H (2014) Chipping fracture resistance of denture tooth materials. Dent Mater 30:545-53
Quinn, G D; Giuseppetti, A A; Hoffman, K H (2014) Chipping fracture resistance of dental CAD/CAM restorative materials: part I--procedures and results. Dent Mater 30:e99-e111
Quinn, George D; Hoffman, Kathleen; Quinn, Janet B (2012) Strength and fracture origins of a feldspathic porcelain. Dent Mater 28:502-11
Whitbeck, Evan R; Quinn, George D; Quinn, Janet B (2011) Effect of Calcium Hydroxide on the Fracture Resistance of Dentin. J Res Natl Inst Stand Technol 116:743-9
Quinn, G D; Studart, A R; Hebert, C et al. (2010) Fatigue of zirconia and dental bridge geometry: Design implications. Dent Mater 26:1133-6
Quinn, Janet B; Quinn, George D (2010) A practical and systematic review of Weibull statistics for reporting strengths of dental materials. Dent Mater 26:135-47
Quinn, Janet B; Quinn, George D (2010) Material properties and fractography of an indirect dental resin composite. Dent Mater 26:589-99
Quinn, Janet B; Quinn, George D; Sundar, Veeraraghaven (2010) Fracture Toughness of Veneering Ceramics for Fused to Metal (PFM) and Zirconia Dental Restorative Materials. J Res Natl Inst Stand Technol 115:343-352

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