Assessment of marginal adaptation and fracture resistance of endocrown restorations utilizing different machinable blocks subjected to thermomechanical aging

Doaa Taha; Sebastian Spintzyk; Ahmed Sabet; Marwa Wahsh; Tarek Salah

doi:10.1111/jerd.12396

Assessment of marginal adaptation and fracture resistance of endocrown restorations utilizing different machinable blocks subjected to thermomechanical aging

J Esthet Restor Dent. 2018 Jul;30(4):319-328. doi: 10.1111/jerd.12396. Epub 2018 Aug 16.

Authors

Doaa Taha^{1

2}, Sebastian Spintzyk³, Ahmed Sabet², Marwa Wahsh², Tarek Salah²

Affiliations

¹ Section Medical Materials science & technology, University Hospital Tübingen, Tübingen, Germany.
² Department of Fixed Prosthodontics, Faculty of Dentistry, Ain Shams University, Cairo, Egypt.
³ Section Medical Materials Science & Technology, University Hospital Tübingen, Germany.

PMID: 30113129
DOI: 10.1111/jerd.12396

Abstract

Objective: This in vitro study was conducted to assess the marginal adaptation and fracture resistance of computer aided design/computer aided manufacturer (CAD-CAM) fabricated endocrowns restoring endodontically treated molars using different machinable blocks with thermomechanical loading protocols.

Materials and methods: Devitalized mandibular molars were prepared in a standardized way and divided into 4 groups (n = 10) to receive CAD/CAM fabricated endocrowns using four materials (Lithium disilicate ceramics, polymer infiltrated ceramics, zirconia-reinforced lithium silicate ceramics and resin nanoceramics. Marginal gaps (µm) were measured using stereomicroscope before cementation and after cementation. After thermomechanical aging, marginal gap measurements were repeated, and then fracture resistance test was performed. Two-way analysis of variance (ANOVA) and Tukey HSD multiple comparisons were used to assess the effect of material on the marginal gap before, after cementation, and after thermomechanical aging. One Way ANOVA was used to assess the effect of material on the fracture resistance.

Results: The difference between marginal gaps values of the tested materials was statistically insignificant but with significant increase after cementation and after thermomechanical aging. Cerasmart endocrowns showed the highest mean fracture load value (1508.5 ± 421.7N) with statistically significant difference than Vita Enamic endocrowns and Celtra Duo.

Conclusion: The tested materials showed marginal vertical gap readings within the limits of clinically acceptable standards. Resin nanoceramics and lithium disilicate showed the highest values of fracture resistance followed by polymer infiltrated ceramics favoring their use for endocrown restorations.

Clinical significance: The mechanical behavior of ceramic materials varies with the variation of their structure and mechanical properties. Accordingly, further investigation is always needed to explore the biomechanical behavior of recent materials when used as endocrowns before clinical trials.

Keywords: Computer-Aided Design/Computer-Aided Manufacturing; ceramics; endodontically treated teeth.

MeSH terms

Cementation
Ceramics
Computer-Aided Design
Crowns*
Dental Porcelain*
Dental Prosthesis Design
Materials Testing
Molar

Substances

Dental Porcelain