Comparison of Knoop and Vickers surface microhardness and transverse microradiography for the study of early caries lesion formation in human and bovine enamel

Bergman, 1954, Studies on mineralized dental tissues. II. Microradiography as a method for studying dental tissues and its application to the study of caries, Acta Odontol Scand, 12, 99, 10.3109/00016355409026080 Sweeney, 1942, The Knoop indentation hardness instrument as a tool in dental research, J Dent Res, 21, 303 Gustafson, 1948, Microhardness measurements in the human dental enamel, Odontol Tidskrift, 36, 24 Davidson, 1974, Microhardness of sound, decalcified and etched tooth enamel related to the calcium content, Caries Res, 8, 135, 10.1159/000260101 Carlström, 1964, Polarization microscopy of dental enamel with reference to incipient carious lesions, 255, 10.1016/B978-1-4832-3117-4.50015-2 Jones, 1987, Scanning microscopic observations on dental caries, Scanning Microsc, 1, 1991 Bjelkhagen, 1982, Early detection of enamel caries by the luminescence excited by visible laser light, Swedish Dent J, 6, 1 Huysmans, 2004, The challenges of validating diagnostic methods and selecting appropriate gold standards, J Dent Res, 83, C48, 10.1177/154405910408301s10 Arends, 1980, Lesion depth and microhardness indentations on artificial white spot lesions, Caries Res, 14, 190, 10.1159/000260453 Abdullah, 2006, The effect of copper on demineralization of dental enamel, J Dent Res, 85, 1011, 10.1177/154405910608501107 Churchley, 2011, Terahertz pulsed imaging study to assess remineralization of artificial caries lesions, J Biomed Opt, 16, 026001, 10.1117/1.3540277 Magalhães, 2009, Comparison of cross-sectional hardness and transverse microradiography of artificial carious enamel lesions induced by different demineralising solutions and gels, Caries Res, 43, 474, 10.1159/000264685 Comar, 2012, In situ effect of sodium fluoride or titanium tetrafluoride varnish and solution on carious demineralization of enamel, Eur J Oral Sci, 120, 342 Arends, 1975, HPO2-4 content in enamel and artificial carious lesions, Calcified Tissue Res, 18, 65, 10.1007/BF02546227 Featherstone, 1981, Relative rates of progress of artificial carious lesions in bovine, ovine and human enamel, Caries Res, 15, 109, 10.1159/000260508 Lippert, 2012, Fluoride dose-response of human and bovine enamel caries lesions under remineralizing conditions, Am J Dent, 25, 205 Lippert, 2013, Characteristics of methylcellulose acid gel lesions created in human and bovine enamel, Caries Res, 47, 50, 10.1159/000343164 Zero, 2004, The remineralizing effect of an essential oil fluoride mouthrinse in an intraoral caries test, J Am Dent Assoc, 135, 231, 10.14219/jada.archive.2004.0157 White, 1987, Reactivity of fluoride dentifrices with artificial caries. 1. Effects on early lesions - F-uptake, surface hardening and remineralization, Caries Res, 21, 126, 10.1159/000261013 Edmunds, 1988, Suitability of human, bovine, equine, and ovine tooth enamel for studies of artificial bacterial carious lesions, Caries Res, 22, 327, 10.1159/000261132 Angmar, 1963, Studies on the ultrastructure of dental enamel. IV. The mineralization of normal tooth enamel, J Ultrastructure Res, 8, 12, 10.1016/S0022-5320(63)80017-9 de Josselin de Jong, 1987, Optimised microcomputer-guided quantitative microradiography on dental mineralised tissue slices, Phys Med Biol, 32, 887, 10.1088/0031-9155/32/7/008 Nakano, 2006, Change in mechanical properties of ion-irradiated ceramics studied by nanoindentation, Mater Trans, 47, 112, 10.2320/matertrans.47.112 Boyde, 1965, The structure of developing mammalian dental enamel, 163 Bertassoni, 2009, Biomechanical perspective on the remineralization of dentin, Caries Res, 43, 70, 10.1159/000201593 Lynch, 2012, Remineralization agents – new and effective or just marketing hype?, Adv Dent Res, 24, 63, 10.1177/0022034512454295 Featherstone, 1983, Comparison of artificial caries-like lesions by quantitative microradiography and microhardness profiles, Caries Res, 17, 385, 10.1159/000260692 Kielbassa, 1999, Correlation of transversal microradiography and microhardness on in situ-induced demineralization in irradiated and nonirradiated human dental enamel, Archiv Oral Biol, 44, 243, 10.1016/S0003-9969(98)00123-X Buchalla, 2008, Relationship between nanohardness and mineral content of artificial carious enamel lesions, Caries Res, 42, 157, 10.1159/000128559 Gantt, 1984, Structural comparison of sound and demineralized human and bovine enamel, J Dent Res, 63, 273 Mellberg, 1974, Comparison of in vitro fluoride uptake by human and bovine enamel from acidulated phosphate-fluoride solutions, J Dent Res, 53, 64, 10.1177/00220345740530013101