Journal of International Society of Preventive and Community Dentistry

ORIGINAL ARTICLE
Year
: 2018  |  Volume : 8  |  Issue : 1  |  Page : 34--40

Fracture resistance of ceramic crowns supported with indirect chair-side composite cores


Khalid M Abdelaziz1, Cinderella K Keshk2, Abdulkhaliq Alshadidi3, Salman Mafraq4, David F Murchison5 
1 Department of Restorative Dental Sciences, College of Dentistry, King Khalid University, Abha, KSA
2 BDS Program, Faculty of Oral and Dental Medicine, Al-Ahram Canadian University, 6th October City, Giza, Egypt
3 Department of Dental Technology, College of Allied Health Sciences, King Khalid University, Abha, KSA
4 Aseer Dental Sector, Ministry of Health, Abha, KSA
5 Department of Diagnostic Sciences, Texas A and M University College of Dentistry, Dallas, Texas, USA

Correspondence Address:
Dr. Khalid M Abdelaziz
Department of Restorative Dental Sciences, College of Dentistry, King Khalid University, P. O. Box: 3263, Abha 61471
KSA

Aims and Objectives: To evaluate the influence of indirect chair-side polymerization of resin composite cores on the fracture resistance of overlaying IPS e.max Press crowns. Materials and Methods: Root canals of 60 extracted premolars were prepared to receive #2 fiber posts after the crowns were sectioned 2 mm above the cervical line. In Groups 1–3 (n = 10 each), posts were luted to the prepared dowel spaces using self-adhesive resin cement. Resin composite cores were then bonded and incrementally built-up using Filtek Z250 XT, Filtek P60, and Filtek P90 resin composites. In Groups 4–6 (n = 10 each), the fabricated post-core systems were subjected to post-curing heat and pressure treatment before cementation to their respective teeth using self-adhesive resin cement. Another 10 sound premolars served as control. All teeth in the test and control groups were then subjected to standardized preparation to receive IPS e.max Press crowns before testing their fracture resistance and the mode of restorations' failure. The collected results were statistically analyzed using ANOVA, Kruskal–Wallis, and Tukey's tests on the past software used at α = 0.05 to stand on the significance of the detected differences. Results: Significant differences were detected between the fracture resistance of teeth in different groups (ANOVA, P = 2.857E-35). Crowns in Groups 4–6 provided higher fracture resistance than those in Groups 1–3 (Tukey's test, P < 0.05). Crowns in Groups 4 and 6 provided higher fracture resistance than the control, while those in Groups 2 and 3 provided lower fracture resistance than the control (Tukey's test, P < 0.05). Conclusion: Indirect composite cores improved the fracture resistance of IPS e.max Press crowns when compared to directly fabricated post and cores. The directly and indirectly polymerized nanohybrid, methacrylate-based composite (Filtek Z250 XT) cores yielded the highest fracture resistance for the utilized all-ceramic crowns.


How to cite this article:
Abdelaziz KM, Keshk CK, Alshadidi A, Mafraq S, Murchison DF. Fracture resistance of ceramic crowns supported with indirect chair-side composite cores.J Int Soc Prevent Communit Dent 2018;8:34-40


How to cite this URL:
Abdelaziz KM, Keshk CK, Alshadidi A, Mafraq S, Murchison DF. Fracture resistance of ceramic crowns supported with indirect chair-side composite cores. J Int Soc Prevent Communit Dent [serial online] 2018 [cited 2020 Jan 25 ];8:34-40
Available from: http://www.jispcd.org/article.asp?issn=2231-0762;year=2018;volume=8;issue=1;spage=34;epage=40;aulast=Abdelaziz;type=0