Influence of cement selection and isolation environment on the shear bond strength between cement and core materials
We did an in vivo study of how the multifunctional vacuum tip and self-adhesive cement affected the bond strength between cement and core materials. A factorial design experiment was performed based on the design of experiments (DOE). As control factors, environmental conditions and types of cement...
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| Published in | Journal of Osaka Dental University Vol. 45; no. 1; pp. 103 - 109 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Osaka Odontological Society
2011
大阪歯科学会 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0475-2058 2189-6488 |
| DOI | 10.18905/jodu.45.1_103 |
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| Abstract | We did an in vivo study of how the multifunctional vacuum tip and self-adhesive cement affected the bond strength between cement and core materials. A factorial design experiment was performed based on the design of experiments (DOE). As control factors, environmental conditions and types of cement were assigned to the inside cross table for full factorial design. As noise factors, insertion area 1, insertion area 2, subjects, clinical experience of the operators, and adherends were assigned to the outside cross table of the L9 orthogonal array. The bonding was done by two dentists on four teeth in two subjects under three operating environments using three different cements. The relative humidity in the mouth was measured at two locations under each operating environment. To compare humidity at different intraoral temperatures, the intraoral relative humidity was converted into the intraoral absolute humidity. Shear bond strength was analyzed using the signal-to-noise ratio. We found that the combination of a multifunctional vacuum tip and self-adhesive cement produced the best results. The multifunctional vacuum tip resulted in the lowest relative humidity. We concluded that the multifunctional vacuum tip and self-adhesive cement were useful in the bonding operation. |
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| AbstractList | We did an in vivo study of how the multifunctional vacuum tip and self-adhesive cement affected the bond strength between cement and core materials. A factorial design experiment was performed based on the design of experiments (DOE). As control factors, environmental conditions and types of cement were assigned to the inside cross table for full factorial design. As noise factors, insertion area 1, insertion area 2, subjects, clinical experience of the operators, and adherends were assigned to the outside cross table of the L9 orthogonal array. The bonding was done by two dentists on four teeth in two subjects under three operating environments using three different cements. The relative humidity in the mouth was measured at two locations under each operating environment. To compare humidity at different intraoral temperatures, the intraoral relative humidity was converted into the intraoral absolute humidity. Shear bond strength was analyzed using the signal-to-noise ratio. We found that the combination of a multifunctional vacuum tip and self-adhesive cement produced the best results. The multifunctional vacuum tip resulted in the lowest relative humidity. We concluded that the multifunctional vacuum tip and self-adhesive cement were useful in the bonding operation. |
| Author | Okawa, Takahisa Tanaka, Masahiro Kawazoe, Takayoshi |
| Author_xml | – sequence: 1 fullname: Tanaka, Masahiro organization: Department Fixed Prosthodontics and Occlusion, Osaka Dental University – sequence: 1 fullname: Kawazoe, Takayoshi organization: Department Fixed Prosthodontics and Occlusion, Osaka Dental University – sequence: 1 fullname: Okawa, Takahisa organization: Graduate School of Dentistry (Department of Fixed Prosthodontics and Occlusion), Osaka Dental University |
| BackLink | https://cir.nii.ac.jp/crid/1390282679937423616$$DView record in CiNii |
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| References | 10) TAGUCHI G. Quality engineering series. Japanese Standards Association. (2005) vol.3, p.48-54. 13) YAO Kazuhiko. el al. Effect of Water Isolation and Early Finishing on Hardness of Glass Ionomer Cements. Journal of Osaka Dental University. Osaka Odontological Society. (1990) vol.24, no.2, p.141-147. http://search.jamas.or.jp/link/ui/1993065755 17) NAKAMURA T. Mechanical properties of new self-adhesive resin-based cement. J Prosthodont Res. (2010) vol.54, p.59-64. http://search.jamas.or.jp/link/ui/2010325390 6) OKAWA T. Evaluation of adhesive performance of self-adhesive cements to silver-palladium-gold alloy after cementation in the oral cavity. Adhes Dent. (2010) vol.28, p.53-60. 7) PLASMANS PLMM. The influence of absolute humidity on shear bond adhesion. J Dent. (1996) vol.24, p.425-428. 3) YATANI H. Information on adhesion and cohesion. Test data and clinical practice. Pract Prosthodont Supple. (1995) p.47-54. 8) ABO H. The practical applications of new isolation system "Multi-Purpose Vacuum Instrument ZOO" to the prosthodontics. J Jpn Gnathol. (2004) vol.24, p.42-49. 14) 波部 剛. ほか. 口腔内の温・湿度分布とエア・ブロー,サクション,ラバーダム防湿の影響. 日本歯科保存学雑誌. 特定非営利活動法人日本歯科保存学会. (2008) vol.51, no.3, p.256-265. http://search.jamas.or.jp/link/ui/2008299309 16) 徳永 慶彦. ほか. セメント合着時の咬合力がクラウンの浮き上がりに及ぼす影響 : 1. 咬合力の経時的変化. 九州齒科學會雜誌 : Kyushu-Shika-Gakkai-zasshi. 九州歯科学会. (1987) vol.41, no.6, p.1273-1277. http://search.jamas.or.jp/link/ui/1989207987 9) ABO H. Usefulness of various isolation equipment : Evaluating the conditions and effects of intra-oral installation. Adhes Dent. (2009) vol.27, p.111-117. 11) 永木 孝典. ほか. 環境湿度, 温度および被着歯面乾燥方法の違いが歯科接着性レジン, パナビアEXの接着強さに及ぼす影響について. 日本補綴歯科學會雜誌. Japan Prosthodontic Society. (1987) vol.31, no.2, p.316-328. https://jlc.jst.go.jp/DN/JALC/00171894255?from=CiNii, doi:10.2186/jjps.31.316 2) NYSTROM GP. Temperature and humidity effects on bond strength of a dentinal adhesive. Oper Dent. (1998) vol.23, p.138-143. 12) YESILYURT Cemal. el al. Bond strengths of two conventional glass-ionomer cements to irradiated and non-irradiated dentin. Dental materials journal. The Japanese Society for Dental Materials and Devices. (2008) vol.27, no.5, p.695-701. http://search.jamas.or.jp/link/ui/2009132224, doi:10.4012/dmj.27.695 1) CHIBA Y. Effect of surface moisture on dentin bond strength of resin cements. Adhes Dent. (2005) vol.23, p.105-109. 5) BLACK SM. Survival of crowns and bridges related to luting cements. Restorative Dent. (1990) vol.6, p.26-30. 4) OILO G. Clinical study of two luting cements used on student-treated patients. J Prosthet Dent. (1984) vol.52, p.518-521. 15) 塩沢 育己. セメント合着による全部鋳造冠の三次元的変位に関する研究. 日本補綴歯科學會雜誌. Japan Prosthodontic Society. (1979) vol.23, no.1, p.86-102. https://jlc.jst.go.jp/DN/JALC/00370984313?from=CiNii, doi:10.2186/jjps.23.86 |
| References_xml | – reference: 7) PLASMANS PLMM. The influence of absolute humidity on shear bond adhesion. J Dent. (1996) vol.24, p.425-428. – reference: 12) YESILYURT Cemal. el al. Bond strengths of two conventional glass-ionomer cements to irradiated and non-irradiated dentin. Dental materials journal. The Japanese Society for Dental Materials and Devices. (2008) vol.27, no.5, p.695-701. http://search.jamas.or.jp/link/ui/2009132224, doi:10.4012/dmj.27.695 – reference: 17) NAKAMURA T. Mechanical properties of new self-adhesive resin-based cement. J Prosthodont Res. (2010) vol.54, p.59-64. http://search.jamas.or.jp/link/ui/2010325390 – reference: 5) BLACK SM. Survival of crowns and bridges related to luting cements. Restorative Dent. (1990) vol.6, p.26-30. – reference: 8) ABO H. The practical applications of new isolation system "Multi-Purpose Vacuum Instrument ZOO" to the prosthodontics. J Jpn Gnathol. (2004) vol.24, p.42-49. – reference: 10) TAGUCHI G. Quality engineering series. Japanese Standards Association. (2005) vol.3, p.48-54. – reference: 16) 徳永 慶彦. ほか. セメント合着時の咬合力がクラウンの浮き上がりに及ぼす影響 : 1. 咬合力の経時的変化. 九州齒科學會雜誌 : Kyushu-Shika-Gakkai-zasshi. 九州歯科学会. (1987) vol.41, no.6, p.1273-1277. http://search.jamas.or.jp/link/ui/1989207987 – reference: 13) YAO Kazuhiko. el al. Effect of Water Isolation and Early Finishing on Hardness of Glass Ionomer Cements. Journal of Osaka Dental University. Osaka Odontological Society. (1990) vol.24, no.2, p.141-147. http://search.jamas.or.jp/link/ui/1993065755 – reference: 6) OKAWA T. Evaluation of adhesive performance of self-adhesive cements to silver-palladium-gold alloy after cementation in the oral cavity. Adhes Dent. (2010) vol.28, p.53-60. – reference: 11) 永木 孝典. ほか. 環境湿度, 温度および被着歯面乾燥方法の違いが歯科接着性レジン, パナビアEXの接着強さに及ぼす影響について. 日本補綴歯科學會雜誌. Japan Prosthodontic Society. (1987) vol.31, no.2, p.316-328. https://jlc.jst.go.jp/DN/JALC/00171894255?from=CiNii, doi:10.2186/jjps.31.316 – reference: 14) 波部 剛. ほか. 口腔内の温・湿度分布とエア・ブロー,サクション,ラバーダム防湿の影響. 日本歯科保存学雑誌. 特定非営利活動法人日本歯科保存学会. (2008) vol.51, no.3, p.256-265. http://search.jamas.or.jp/link/ui/2008299309 – reference: 1) CHIBA Y. Effect of surface moisture on dentin bond strength of resin cements. Adhes Dent. (2005) vol.23, p.105-109. – reference: 2) NYSTROM GP. Temperature and humidity effects on bond strength of a dentinal adhesive. Oper Dent. (1998) vol.23, p.138-143. – reference: 9) ABO H. Usefulness of various isolation equipment : Evaluating the conditions and effects of intra-oral installation. Adhes Dent. (2009) vol.27, p.111-117. – reference: 4) OILO G. Clinical study of two luting cements used on student-treated patients. J Prosthet Dent. (1984) vol.52, p.518-521. – reference: 15) 塩沢 育己. セメント合着による全部鋳造冠の三次元的変位に関する研究. 日本補綴歯科學會雜誌. Japan Prosthodontic Society. (1979) vol.23, no.1, p.86-102. https://jlc.jst.go.jp/DN/JALC/00370984313?from=CiNii, doi:10.2186/jjps.23.86 – reference: 3) YATANI H. Information on adhesion and cohesion. Test data and clinical practice. Pract Prosthodont Supple. (1995) p.47-54. |
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| Title | Influence of cement selection and isolation environment on the shear bond strength between cement and core materials |
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