Resin Infiltration of Artificial Enamel Caries Lesions with Experimental Light Curing Resins
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概要
- 論文の詳細を見る
To prevent enamel lesions from further demineralization, a complete and homogeneous penetration of low-viscosity resins ('infiltrants') should be accomplished. With commercially available adhesives, this goal might not be achieved because of their penetration capabilities. On this note, the Penetration Coefficient (PC) describes the penetrativity of liquids and might be employed to develop optimal infiltrants. Thus, the aim of this study was to compare the penetration abilities of 12 experimental infiltrants (BisGMA/TEGDMA comonomers showing varying PCs) with a commercially available adhesive (Excite, Vivadent). In each of the 156 bovine enamel specimens, four subsurface lesions were created. Three of the four lesions were infiltrated with either the adhesive or one of 12 experimental resins for either 10, 22, or 40 seconds, and subsequently light-cured. Specimens were studied using confocal microscopy and penetration depths were determined. A good correlation between PC and penetration depth was thereby observed (Pearson's correlation coefficient, r = 0.820).
- 日本歯科理工学会の論文
著者
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Paris Sebastian
Department Of Operative Dentistry And Periodontology University School Of Dental Medicine Campus Ben
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Meyer-lueckel Hendrik
Department Of Operative Dentistry And Periodontology University School Of Dental Medicine Campus Ben
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Kielbassa Andrej
Department Of Operative Dentistry And Periodontology University School Of Dental Medicine Campus Ben
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Kielbassa Andrej
Department Of Operative Dentistry And Periodontology University School Of Dental Medicine
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COLFEN Helmut
Department of Colloid Chemistry, Max Planck Institute of Colloids and Interfaces
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Coelfen Helmut
Max-planck-institute Of Colloids And Interfaces Dep. Of Colloid Chemistry Res. Campus Golm
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- Resin Infiltration of Artificial Enamel Caries Lesions with Experimental Light Curing Resins
- Comparable Effects of Polyhexanide and Chlorhexidine on Cell Viability of Primary Human Chondrocytes
- Surface substance loss of subsurface bovine enamel lesions after different steps of the resinous infiltration technique : a 3D topography analysis