S Bouillaguet1, J Gamba, J Forchelet, I Krejci, J C Wataha. 1. Division of Cariology and Endodontology, School of Dental Medicine, University of Geneva, 19 rue Barthelemy Menn, 1205 Geneva, Switzerland. serge.bouillaguet@medecine.unige.ch <serge.bouillaguet@medecine.unige.ch>
Abstract
OBJECTIVES: In the current study, we used electronic speckle pattern interferometry (ESPI) to measure tooth deformation in response to polymerization of five resin composites with a range of polymerization shrinkage. Our hypothesis was that composites with higher polymerization shrinkage should cause more cuspal strain as measured by ESPI. METHODS: Standardized MOD cavities were prepared and placed into the ESPI apparatus before the cavities were filled with composites (n=10). The ESPI apparatus was constructed to measure the out-of-plane displacement of the lingual cusps of the teeth during the polymerization of the restorative material. A thermocouple was attached to the specimen to monitor thermal changes throughout the polymerization process. RESULTS: Experiments with empty preparations demonstrated that the ESPI technique was temporally responsive and sensitive to dimensional changes. However, the correlation between polymerization shrinkage of composite resins and ESPI-measured tooth deformation was not straightforward. In particular, a flowable material did not deform the tooth significantly more that a conventional hybrid. Further, an experimental silorane material (with the lowest axial shrinkage) induced the least tooth deformation. SIGNIFICANCE: We concluded that ESPI is a viable method for assessing cuspal strain induced by shrinkage of bonded composite restorations, but that polymerization shrinkage data may overestimate shrinkage-induced tooth deformation. The rate of polymerization shrinkage appeared to mediate the development of cuspal strain.
OBJECTIVES: In the current study, we used electronic speckle pattern interferometry (ESPI) to measure tooth deformation in response to polymerization of five resin composites with a range of polymerization shrinkage. Our hypothesis was that composites with higher polymerization shrinkage should cause more cuspal strain as measured by ESPI. METHODS: Standardized MOD cavities were prepared and placed into the ESPI apparatus before the cavities were filled with composites (n=10). The ESPI apparatus was constructed to measure the out-of-plane displacement of the lingual cusps of the teeth during the polymerization of the restorative material. A thermocouple was attached to the specimen to monitor thermal changes throughout the polymerization process. RESULTS: Experiments with empty preparations demonstrated that the ESPI technique was temporally responsive and sensitive to dimensional changes. However, the correlation between polymerization shrinkage of composite resins and ESPI-measured tooth deformation was not straightforward. In particular, a flowable material did not deform the tooth significantly more that a conventional hybrid. Further, an experimental silorane material (with the lowest axial shrinkage) induced the least tooth deformation. SIGNIFICANCE: We concluded that ESPI is a viable method for assessing cuspal strain induced by shrinkage of bonded composite restorations, but that polymerization shrinkage data may overestimate shrinkage-induced tooth deformation. The rate of polymerization shrinkage appeared to mediate the development of cuspal strain.
Authors: Batu Can Yaman; Begum Efes Guray; Can Dorter; Yavuz Gomeç; Oktay Yazıcıoglu; Dina Erdilek Journal: Lasers Med Sci Date: 2011-08-16 Impact factor: 3.161
Authors: Ebtehal G Albeshir; Rashed Alsahafi; Reem Albluwi; Abdulrahman A Balhaddad; Heba Mitwalli; Thomas W Oates; Gary D Hack; Jirun Sun; Michael D Weir; Hockin H K Xu Journal: Materials (Basel) Date: 2022-04-18 Impact factor: 3.748
Authors: Batu Can Yaman; Begüm Güray Efes; Can Dörter; Yavuz Gömeç; Dina Erdilek; Oktay Yazıcıoğlu Journal: Lasers Med Sci Date: 2010-02-17 Impact factor: 3.161