Zirconia versus cobalt chromium meshwork reinforcement of implant-assisted mandibular overdenture
Alkhodary, M. (2022). Zirconia versus cobalt chromium meshwork reinforcement of implant-assisted mandibular overdenture. EKB Journal Management System, 68(1), 787-794. doi: 10.21608/edj.2021.101402.1829
Mohamed Ahmed Alkhodary. "Zirconia versus cobalt chromium meshwork reinforcement of implant-assisted mandibular overdenture". EKB Journal Management System, 68, 1, 2022, 787-794. doi: 10.21608/edj.2021.101402.1829
Alkhodary, M. (2022). 'Zirconia versus cobalt chromium meshwork reinforcement of implant-assisted mandibular overdenture', EKB Journal Management System, 68(1), pp. 787-794. doi: 10.21608/edj.2021.101402.1829
Alkhodary, M. Zirconia versus cobalt chromium meshwork reinforcement of implant-assisted mandibular overdenture. EKB Journal Management System, 2022; 68(1): 787-794. doi: 10.21608/edj.2021.101402.1829

Zirconia versus cobalt chromium meshwork reinforcement of implant-assisted mandibular overdenture

Egyptian Dental Journal
Article 20, Volume 68, Issue 1 - Serial Number 4, January 2022, Page 787-794  XML PDF (1.02 MB)
Document Type: Original Article
DOI: 10.21608/edj.2021.101402.1829
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Author
Mohamed Ahmed Alkhodary email orcid
Associate professor, department of prosthodontics, faculty of dentistry, Alexandria university, Egypt.
Abstract
Introduction
This work aimed at testing the mechanical behavior of non-metallic enforcement of an implant-assisted mandibular overdenture denture base with a zirconium meshwork and compared its behavior to that of cobalt chromium meshwork under fatigue cyclic loading and fracture resistance.
Materials and Methods
Thirty completely edentulous models in which 2 laboratory implant analogues were secured in the position of the teeth 33 and 43 with ball abutments were used, 10 overdentures of group I had cobalt-chromium meshwork reinforcement of 1mm thickness, group II had 10 overdentures reinforced with 0.5 mm zirconia framework, and group III had 10 dentures with 1 mm zirconia reinforcing framework, the 3 groups were subjected to fatigue cyclic loading and fracture testing.
Results
Group I did not show complete fracture, only cracks in the denture base. group II showed complete fracture of its samples, and only 6 samples of group III showed complete fracture with cracks in the remaining 4. There were significant differences between groups I and II, groups I and III, and groups II and III where the fracture load was significantly greatest for group I, followed by group III, and finally group II.
Conclusion
The Co-Cr meshworks provided the strongest reinforcement of the overdenture bases as compared to zirconia frameworks. The 1 mm thickness zirconia meshwork was more resistant to fracture than the 0.5 mm zirconia framework, but weaker than the Co-Cr framework, however, its recorded resistance to fatigue cyclic loading and fracture was thought to provide an acceptable clinical service lifetime.
Keywords
Denture base fracture; cobalt-chromium meshwork reinforcement; zirconia
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