M. Eskitaşçıoğlu, Derya Toprak Gündüz, Zelal Seyfioğlu Polat, Emine Göncü Başaran, Emrah Ayna
{"title":"不同表面处理对CAD-CAM氧化锆桩抗压抗剪强度的影响","authors":"M. Eskitaşçıoğlu, Derya Toprak Gündüz, Zelal Seyfioğlu Polat, Emine Göncü Başaran, Emrah Ayna","doi":"10.5577/intdentres.2022.vol12.no2.a3","DOIUrl":null,"url":null,"abstract":"Aim: Post systems are crucial for the treatment of endodontically treated teeth with excessive crown destruction. Currently, increase in esthetic demands has increased the use of tooth-colored post systems. The aim of this study was to evaluate compression-shear strength after the application of different resin cements and different surface treatments to zirconia post-cores produced by the CAD-CAM milling technique.\nMethodology: One hundred twenty crown parts of maxillary central incisors were cut using a 2-mm enamel–cement joint using a water-cooled diamond bur in an air turbine handpiece at 300,000 rpm. Root canals with the same diameter were prepared using Gates-Glidden drills and Snowpost system drills. According to the enlarged canal, zirconia posts were prepared by the CAD-CAM copy-milling technique, and the zirconia post surfaces were roughened by different techniques (hydrofluoric acid, Al2O3 partial abrasion, CoJet silica coating). The roughened posts were cemented to the tooth canal using three resin cements: 10-Methacryloyloxydecyl dihydrogen phosphate (MDP)-containing cement, Bis-GMA-based resin, and resin-based adhesive. As the control group, the zirconia post surfaces with no application were fixed using three resin cements. The specimens were set down into 25x25x25 mm fabricated blocks with acrylic resin materials. Compression-shear strength tests of the prepared samples were conducted on the Instron Testing Machine by using appropriate equipment.\nResults: In summary, the combination of roughening techniques such as Al2O3 partial etching and CoJet silica coating using cement-containing MDP rendered the highest compression-shear strength.\nConclusion: This in vitro study proposes the cementation of zirconia post-cores etched by Cojet silica coating and Al2O3 particles using MDP-containing resin cement.\n \nHow to cite this article: \nEskitaşçıoğlu M, Toprak Gündüz D, Seyfioğlu Polat Z, Göncü Başaran E, Ayna E. Effects of different surface treatments on the compression-shear strength of CAD-CAM zirconia posts. Int Dent Res 2022;12(2):55-61. https://doi.org/10.5577/intdentres.2022.vol12.no2.a3\n \nLinguistic Revision: The English in this manuscript has been checked by at least two professional editors, both native speakers of English.","PeriodicalId":31322,"journal":{"name":"Journal of International Clinical Dental Research Organization","volume":null,"pages":null},"PeriodicalIF":0.2000,"publicationDate":"2022-08-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Effects of different surface treatments on the compression-shear strength of CAD-CAM zirconia posts\",\"authors\":\"M. Eskitaşçıoğlu, Derya Toprak Gündüz, Zelal Seyfioğlu Polat, Emine Göncü Başaran, Emrah Ayna\",\"doi\":\"10.5577/intdentres.2022.vol12.no2.a3\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Aim: Post systems are crucial for the treatment of endodontically treated teeth with excessive crown destruction. Currently, increase in esthetic demands has increased the use of tooth-colored post systems. The aim of this study was to evaluate compression-shear strength after the application of different resin cements and different surface treatments to zirconia post-cores produced by the CAD-CAM milling technique.\\nMethodology: One hundred twenty crown parts of maxillary central incisors were cut using a 2-mm enamel–cement joint using a water-cooled diamond bur in an air turbine handpiece at 300,000 rpm. Root canals with the same diameter were prepared using Gates-Glidden drills and Snowpost system drills. According to the enlarged canal, zirconia posts were prepared by the CAD-CAM copy-milling technique, and the zirconia post surfaces were roughened by different techniques (hydrofluoric acid, Al2O3 partial abrasion, CoJet silica coating). The roughened posts were cemented to the tooth canal using three resin cements: 10-Methacryloyloxydecyl dihydrogen phosphate (MDP)-containing cement, Bis-GMA-based resin, and resin-based adhesive. As the control group, the zirconia post surfaces with no application were fixed using three resin cements. The specimens were set down into 25x25x25 mm fabricated blocks with acrylic resin materials. Compression-shear strength tests of the prepared samples were conducted on the Instron Testing Machine by using appropriate equipment.\\nResults: In summary, the combination of roughening techniques such as Al2O3 partial etching and CoJet silica coating using cement-containing MDP rendered the highest compression-shear strength.\\nConclusion: This in vitro study proposes the cementation of zirconia post-cores etched by Cojet silica coating and Al2O3 particles using MDP-containing resin cement.\\n \\nHow to cite this article: \\nEskitaşçıoğlu M, Toprak Gündüz D, Seyfioğlu Polat Z, Göncü Başaran E, Ayna E. Effects of different surface treatments on the compression-shear strength of CAD-CAM zirconia posts. 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引用次数: 0
摘要
目的:桩系统是至关重要的治疗牙根管治疗过度破坏冠。目前,审美需求的增加增加了牙色柱系统的使用。本研究的目的是评估不同树脂胶结剂和不同表面处理方法对CAD-CAM铣削技术生产的氧化锆桩芯的压剪强度。方法:采用水冷式金刚石刀在空气涡轮机头中以300,000 rpm的转速切割120个上颌中切牙冠部分,采用2mm的牙釉质-水泥连接。采用Gates-Glidden钻和Snowpost系统钻制备直径相同的根管。根据扩大的管道,采用CAD-CAM仿铣削技术制备氧化锆桩,并采用氢氟酸、Al2O3局部磨蚀、CoJet二氧化硅涂层等不同工艺对氧化锆桩表面进行粗化处理。将粗化后的桩用三种树脂胶结剂(含10-甲基丙烯酰氧癸基磷酸二氢(MDP))胶结剂、bis - gma基树脂和树脂基胶粘剂)粘接在牙管上。作为对照组,使用三种树脂胶结剂固定未经应用的氧化锆桩表面。用丙烯酸树脂材料将试件放入25x25x25 mm的预制块中。采用合适的设备,在Instron试验机上对制备的试样进行压剪强度试验。结果:综上所述,Al2O3部分蚀刻和CoJet二氧化硅涂层等粗化技术结合使用含水泥的MDP可以获得最高的压剪强度。结论:采用含mdp的树脂水泥对Cojet二氧化硅涂层和Al2O3颗粒刻蚀的氧化锆桩核进行了体外胶结。本文来源:Eskitaşçıoğlu M, Toprak g nd Z D, Seyfioğlu Polat Z, Göncü ba aran E, Ayna E.不同表面处理对CAD-CAM氧化锆桩抗压抗剪强度的影响。国际医学杂志,2016;12(2):55-61。https://doi.org/10.5577/intdentres.2022.vol12.no2.a3语言修改:本手稿中的英语已由至少两名专业编辑检查,他们都是英语母语者。
Effects of different surface treatments on the compression-shear strength of CAD-CAM zirconia posts
Aim: Post systems are crucial for the treatment of endodontically treated teeth with excessive crown destruction. Currently, increase in esthetic demands has increased the use of tooth-colored post systems. The aim of this study was to evaluate compression-shear strength after the application of different resin cements and different surface treatments to zirconia post-cores produced by the CAD-CAM milling technique.
Methodology: One hundred twenty crown parts of maxillary central incisors were cut using a 2-mm enamel–cement joint using a water-cooled diamond bur in an air turbine handpiece at 300,000 rpm. Root canals with the same diameter were prepared using Gates-Glidden drills and Snowpost system drills. According to the enlarged canal, zirconia posts were prepared by the CAD-CAM copy-milling technique, and the zirconia post surfaces were roughened by different techniques (hydrofluoric acid, Al2O3 partial abrasion, CoJet silica coating). The roughened posts were cemented to the tooth canal using three resin cements: 10-Methacryloyloxydecyl dihydrogen phosphate (MDP)-containing cement, Bis-GMA-based resin, and resin-based adhesive. As the control group, the zirconia post surfaces with no application were fixed using three resin cements. The specimens were set down into 25x25x25 mm fabricated blocks with acrylic resin materials. Compression-shear strength tests of the prepared samples were conducted on the Instron Testing Machine by using appropriate equipment.
Results: In summary, the combination of roughening techniques such as Al2O3 partial etching and CoJet silica coating using cement-containing MDP rendered the highest compression-shear strength.
Conclusion: This in vitro study proposes the cementation of zirconia post-cores etched by Cojet silica coating and Al2O3 particles using MDP-containing resin cement.
How to cite this article:
Eskitaşçıoğlu M, Toprak Gündüz D, Seyfioğlu Polat Z, Göncü Başaran E, Ayna E. Effects of different surface treatments on the compression-shear strength of CAD-CAM zirconia posts. Int Dent Res 2022;12(2):55-61. https://doi.org/10.5577/intdentres.2022.vol12.no2.a3
Linguistic Revision: The English in this manuscript has been checked by at least two professional editors, both native speakers of English.