Raghad Tariq AlJarboua, Reem Ahmad Alshihry, Haya Othman Alkhaldi, Fadak Hussain Al Marar, Mohammed A Aljaffary, Mohammed L Almana, Abdulrahman A Balhaddad, Othman Alkhateeb
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The samples were visually inspected to analyze the fracture mode.</p><p><strong>Results: </strong>The highest fracture resistance was observed in intact teeth (1299.98 ± 284.66 MPa). Placing Ribbond fibers in the pulpal floor (1155.86 ± 244.21 MPa) or the proximal walls (1077.56 ± 260.60 MPa) significantly improved fracture resistance (<i>p</i>= <0.05), compared to cavities restored with only resin composite (804.58 ± 93.34 MPa). However, placing Ribbond fibers in both the pulpal and proximal walls did not enhance fracture resistance. In the MOD-RCT groups, fracture resistance was improved only when Ribbond fibers were placed in the pulpal floor and the proximal walls. Fracture mode analysis revealed a combined fracture in most of the groups.</p><p><strong>Conclusion: </strong>This study concluded that using FRCs significantly improved the fracture resistance of MOD cavities in premolars and revealed that the placement site could be a determinant factor.</p>","PeriodicalId":10445,"journal":{"name":"Clinical, Cosmetic and Investigational Dentistry","volume":"16 ","pages":"255-266"},"PeriodicalIF":1.5000,"publicationDate":"2024-07-08","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11244617/pdf/","citationCount":"0","resultStr":"{\"title\":\"Effect of Fiber-Reinforced Composite Placement Site on Fracture Resistance of Premolar Teeth: An in vitro Study.\",\"authors\":\"Raghad Tariq AlJarboua, Reem Ahmad Alshihry, Haya Othman Alkhaldi, Fadak Hussain Al Marar, Mohammed A Aljaffary, Mohammed L Almana, Abdulrahman A Balhaddad, Othman Alkhateeb\",\"doi\":\"10.2147/CCIDE.S461134\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>This study aimed to investigate the fracture behavior of upper premolars with deep MOD cavities that were restored with Ribbond resin-reinforced fibers (FRCs) placed in different orientations.</p><p><strong>Methods: </strong>A total of 54 extracted maxillary premolars were randomly divided into nine groups. The experimental groups underwent MOD cavity preparation with or without root canal treatment, followed by FRCs placed in the pulpal floor, proximal walls, or both. Fracture resistance was tested using an Instron Machine. The samples were visually inspected to analyze the fracture mode.</p><p><strong>Results: </strong>The highest fracture resistance was observed in intact teeth (1299.98 ± 284.66 MPa). Placing Ribbond fibers in the pulpal floor (1155.86 ± 244.21 MPa) or the proximal walls (1077.56 ± 260.60 MPa) significantly improved fracture resistance (<i>p</i>= <0.05), compared to cavities restored with only resin composite (804.58 ± 93.34 MPa). However, placing Ribbond fibers in both the pulpal and proximal walls did not enhance fracture resistance. In the MOD-RCT groups, fracture resistance was improved only when Ribbond fibers were placed in the pulpal floor and the proximal walls. 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引用次数: 0
摘要
背景:本研究旨在探讨用不同方向的 Ribbond 树脂增强纤维(FRCs)修复深 MOD 龋洞的上前牙的断裂行为:本研究旨在调查用不同方向放置的 Ribbond 树脂增强纤维(FRC)修复的深 MOD 腔上前磨牙的断裂行为:方法:将 54 颗拔出的上颌前磨牙随机分为 9 组。实验组进行 MOD 牙洞预备,同时进行或不进行根管治疗,然后在牙髓底层、近侧壁或两者都放置 FRC。使用 Instron 机测试抗折性。对样品进行目视检查,分析断裂模式:结果:完整牙齿的抗断裂强度最高(1299.98 ± 284.66 兆帕)。在牙髓底层(1155.86 ± 244.21 MPa)或近侧壁(1077.56 ± 260.60 MPa)放置 Ribbond 纤维可显著提高抗折性(p= 结论:在牙髓底层和近侧壁放置 Ribbond 纤维可提高抗折性:本研究得出结论,使用 FRCs 能明显改善前臼齿 MOD 腔的抗折性,并揭示了放置部位可能是一个决定性因素。
Effect of Fiber-Reinforced Composite Placement Site on Fracture Resistance of Premolar Teeth: An in vitro Study.
Background: This study aimed to investigate the fracture behavior of upper premolars with deep MOD cavities that were restored with Ribbond resin-reinforced fibers (FRCs) placed in different orientations.
Methods: A total of 54 extracted maxillary premolars were randomly divided into nine groups. The experimental groups underwent MOD cavity preparation with or without root canal treatment, followed by FRCs placed in the pulpal floor, proximal walls, or both. Fracture resistance was tested using an Instron Machine. The samples were visually inspected to analyze the fracture mode.
Results: The highest fracture resistance was observed in intact teeth (1299.98 ± 284.66 MPa). Placing Ribbond fibers in the pulpal floor (1155.86 ± 244.21 MPa) or the proximal walls (1077.56 ± 260.60 MPa) significantly improved fracture resistance (p= <0.05), compared to cavities restored with only resin composite (804.58 ± 93.34 MPa). However, placing Ribbond fibers in both the pulpal and proximal walls did not enhance fracture resistance. In the MOD-RCT groups, fracture resistance was improved only when Ribbond fibers were placed in the pulpal floor and the proximal walls. Fracture mode analysis revealed a combined fracture in most of the groups.
Conclusion: This study concluded that using FRCs significantly improved the fracture resistance of MOD cavities in premolars and revealed that the placement site could be a determinant factor.
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