Çakmak, GülceDönmez, Mustafa BorgaMolinero-Mourelle, PedroKahveci, ÇiğdemAbou Ayash, SamirPeutzfeldt, AnneYılmaz, Burak2025-04-182025-04-182024Çakmak, G., Donmez, M. B., Molinero-Mourelle, P., Kahveci, Ç., Abou-Ayash, S., Peutzfeldt, A., & Yilmaz, B. (2024). Fracture resistance of additively or subtractively manufactured resin-based definitive crowns: Effect of restorative material, resin cement, and cyclic loading. Dental Materials, 40(7), 1072-1077.01095641http://dx.doi.org/10.1016/j.dental.2024.05.020https://hdl.handle.net/20.500.12713/7119Objective: To evaluate how restorative material, resin cement, and cyclic loading affect the fracture resistance of resin-based crowns fabricated by using additive or subtractive manufacturing. Methods: A right first molar crown standard tessellation language (STL) file was used to fabricate 120 crowns from one subtractively manufactured polymer-infiltrated ceramic network (SM) and two additively manufactured resin composites (AM-B and AM-S) (N = 40). These crowns were randomly divided into 4 groups within each material according to the dual-polymerizing resin cement to be used (RX and PN) and the aging condition (n = 10). After cementation, the crowns without cyclic loading were subjected to fracture testing, while the others were first cyclically loaded (1.7 Hz, 1.2 million cycles, and 49-N load) and then subjected to fracture testing. Data were analyzed with generalized linear model analysis (α = .05). Results: Fracture resistance of the crowns was affected by material, resin cement, and cyclic loading (P ≤ .030). However, none of the interactions significantly affected fracture resistance of tested crowns (P ≥ .140). Among tested materials, SM had the highest fracture resistance, whereas AM-B had the lowest (P ≤ .025). RX led to higher fracture resistance, and cyclic loading decreased the fracture resistance (P ≤ .026). Significance: Tested materials can be considered reliable in terms of fracture resistance in short- or mid-term (5 years of intraoral simulation) when used for single molar crowns with 2 mm occlusal thickness. In the long term, polymer-infiltrated ceramic network crowns cemented with RelyX Universal may provide promising results and be less prone to complications considering higher fracture resistance values obtained. © 2024 The Authorseninfo:eu-repo/semantics/openAccessCeramicsComposite ResinsCrownsDental MaterialsDental Prosthesis DesignDental Restoration FailureDental Stress AnalysisMaterials TestingMolarResin CementsArticle40710721077WOS:0012578180000012-s2.0-85193687570Q110.1016/j.dental.2024.05.020Q1