THE EFFECT OF THERMOCYCLING ON THE MARGINAL INTEGRITY OF 3D PRINTED AND MACHINED HYBRID RESIN-CERAMIC CROWNS: AN IN‐VITRO STUDY
Sayed, A., Odeh, E. (2025). THE EFFECT OF THERMOCYCLING ON THE MARGINAL INTEGRITY OF 3D PRINTED AND MACHINED HYBRID RESIN-CERAMIC CROWNS: AN IN‐VITRO STUDY. EKB Journal Management System, 71(3), 2355-2361. doi: 10.21608/edj.2025.375929.3446
Ahmed Magdy Sayed; Esra'a Odeh. "THE EFFECT OF THERMOCYCLING ON THE MARGINAL INTEGRITY OF 3D PRINTED AND MACHINED HYBRID RESIN-CERAMIC CROWNS: AN IN‐VITRO STUDY". EKB Journal Management System, 71, 3, 2025, 2355-2361. doi: 10.21608/edj.2025.375929.3446
Sayed, A., Odeh, E. (2025). 'THE EFFECT OF THERMOCYCLING ON THE MARGINAL INTEGRITY OF 3D PRINTED AND MACHINED HYBRID RESIN-CERAMIC CROWNS: AN IN‐VITRO STUDY', EKB Journal Management System, 71(3), pp. 2355-2361. doi: 10.21608/edj.2025.375929.3446
Sayed, A., Odeh, E. THE EFFECT OF THERMOCYCLING ON THE MARGINAL INTEGRITY OF 3D PRINTED AND MACHINED HYBRID RESIN-CERAMIC CROWNS: AN IN‐VITRO STUDY. EKB Journal Management System, 2025; 71(3): 2355-2361. doi: 10.21608/edj.2025.375929.3446

THE EFFECT OF THERMOCYCLING ON THE MARGINAL INTEGRITY OF 3D PRINTED AND MACHINED HYBRID RESIN-CERAMIC CROWNS: AN IN‐VITRO STUDY

Egyptian Dental Journal
Volume 71, Issue 3 - Serial Number 4, July 2025, Page 2355-2361  XML PDF (723.08 K)
Document Type: Original Article
DOI: 10.21608/edj.2025.375929.3446
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Authors
Ahmed Magdy Sayed email orcid 1; Esra'a Odehorcid 2
1Associate Professor, Dental Biomaterials Department, Faculty of Oral and Dental Medicine, Modern University for Technology and Information, Cairo, Egypt.
2Assistant Professor of Fixed Prosthodontics, Faculty of Dentistry, Modern University for Technology and Information, Egypt
Abstract
Objective: To compare the marginal integrity of 3D printed hybrid resin-ceramic crowns to that of milled lithium disilicate and milled hybrid resin ceramic crowns.
Materials and methods: A typodont prepared lower first permanent molar tooth was optically scanned for manufacturing 12 crowns divided into three groups (n=4). Group 1 were milled from lithium disilicate ceramics (IPS e.max CAD), group 2 were milled from hybrid resin-ceramic (Nanoksa G-plus ®, Ionx) while group 3 were 3D printed from hybrid resin-ceramic (Nanoksa Bioguard ®, Ionx). Using a digital stereomicroscope (Leica L2, Germany), the marginal gap was assessed before and after 5000 cycles of thermocycling. The collected data were analyzed using Wilcoxon signed ranks test and Kruskal-Wallis test followed by Mann-Whitney test (P ≤ 0.05).
Results: The values of the marginal gaps of the three groups before thermocycling reported no statistically significant difference (p-value = 0.090). In addition, the values of the marginal gaps of the three groups after thermocycling reported no statistically significant difference (p-value = 0.387). Regarding the effect of thermocycling, group 1 showed a non-statistically significant difference in the marginal gap values (p-value = 0.343). However, group 2 and 3 exhibited a statistically significant increase in the marginal gap values after thermocycling (p-value = 0.011 and 0.025 respectively)
Conclusion: The marginal gap values of 3D printed hybrid resin-ceramic crowns was similar to milled lithium disilicate and hybrid resin-ceramic crowns. Although, the thermocycling negatively affected the marginal gap, this effect remains within the accepted clinical range.
Keywords
marginal integrity; 3D printed resins; Lithium disilicate; hybrid resin-ceramic
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