In vitro assessment of artificial saliva formulations on initial enamel erosion remineralization.

[1]  D. Rios,et al.  In situ effect of chewing gum containing CPP-ACP on the mineral precipitation of eroded bovine enamel-a surface hardness analysis. , 2013, Journal of dentistry.

[2]  Ailish Hannigan,et al.  Statistical methodology in oral and dental research: pitfalls and recommendations. , 2013, Journal of dentistry.

[3]  A Lussi,et al.  A new optical detection method to assess the erosion inhibition by in vitro salivary pellicle layer. , 2013, Journal of dentistry.

[4]  T. Attin,et al.  Effect of Acidic Solution Viscosity on Enamel Erosion , 2013, Journal of dental research.

[5]  M. Buzalaf,et al.  Saliva and dental erosion , 2012, Journal of applied oral science : revista FOB.

[6]  T. Attin,et al.  Long-term protective effect of surface sealants against erosive wear by intrinsic and extrinsic acids. , 2012, Journal of dentistry.

[7]  M. Buzalaf,et al.  Effect of NaF and TiF4 varnish and solution on bovine dentin erosion plus abrasion in vitro , 2012, Acta odontologica Scandinavica.

[8]  D. Zero,et al.  In vitro evaluation of the erosive potential of orange juice modified by food additives in enamel and dentine. , 2011, Journal of dentistry.

[9]  A. Kielbassa,et al.  Remineralization of bovine enamel subsurface lesions: effects of different calcium-phosphate saturations in buffered aqueous solutions. , 2011, Quintessence international.

[10]  D T Zero,et al.  Methodology and Models in Erosion Research: Discussion and Conclusions , 2011, Caries Research.

[11]  A. Lussi,et al.  Dental Erosion – An Overview with Emphasis on Chemical and Histopathological Aspects , 2011, Caries Research.

[12]  H. P. Chew,et al.  Clinical Studies of Dental Erosion and Erosive Wear , 2011, Caries Research.

[13]  C. Turssi,et al.  Sodium bicarbonate solution as an anti-erosive agent against simulated endogenous erosion. , 2010, European journal of oral sciences.

[14]  A. Lussi,et al.  Thickness of softened human enamel removed by toothbrush abrasion: an in vitro study , 2010, Clinical Oral Investigations.

[15]  J. Creeth,et al.  The effect of human saliva substitutes in an erosion-abrasion cycling model. , 2008, European journal of oral sciences.

[16]  M. Vingerhoeds,et al.  Saliva as research material: biochemical, physicochemical and practical aspects. , 2007, Archives of oral biology.

[17]  S. Gygi,et al.  Identification of protein components in in vivo human acquired enamel pellicle using LC-ESI-MS/MS. , 2007, Journal of proteome research.

[18]  T. Jaeggi,et al.  Prevalence, incidence and distribution of erosion. , 2014, Monographs in oral science.

[19]  C. Turssi,et al.  Rehardening of caries-like lesions in root surfaces by saliva substitutes. , 2006, Gerodontology.

[20]  A. Lussi,et al.  Extrinsic causes of erosion. Biological factors , 2006 .

[21]  C. Ganss Definition of erosion and links to tooth wear. , 2006, Monographs in oral science.

[22]  M. Hannig,et al.  The structure, function and properties of the acquired pellicle. , 2006, Monographs in oral science.

[23]  H. Meyer-Lueckel,et al.  Effect of Mucin Alone and in Combination with Various Dentifrices on in vitro Remineralization , 2004, Caries Research.

[24]  B. Amaechi,et al.  In vitro remineralisation of eroded enamel lesions by saliva. , 2001, Journal of dentistry.

[25]  M. Eisenburger,et al.  Effect of Time on the Remineralisation of Enamel by Synthetic Saliva after Citric Acid Erosion , 2001, Caries Research.

[26]  W. Seow,et al.  Dental erosion in children: a literature review. , 2001, Pediatric dentistry.

[27]  M. Hannig,et al.  Influence of in vivo Formed Salivary Pellicle on Enamel Erosion , 1999, Caries Research.

[28]  D. Millett,et al.  The effect of saliva on enamel and dentine erosion. , 1999, Journal of dentistry.

[29]  B. Amaechi,et al.  Techniques for the production of dental eroded lesions in vitro. , 1999, Journal of oral rehabilitation.

[30]  B. Darvell,et al.  Artificial salivas for in vitro studies of dental materials. , 1997, Journal of dentistry.

[31]  T. Imfeld,et al.  Prevention of progression of dental erosion by professional and individual prophylactic measures. , 1996, European journal of oral sciences.

[32]  J. M. ten Cate,et al.  Dental erosion, summary. , 1996, European journal of oral sciences.

[33]  R. P. Shellis,et al.  A microcomputer program to evaluate the saturation of complex solutions with respect to biominerals , 1988, Comput. Appl. Biosci..

[34]  I D Mandel,et al.  The Functions of Saliva , 1987, Journal of dental research.

[35]  Wöltgens Jh,et al.  Enamel erosion and saliva. , 1985 .

[36]  A. Vissink,et al.  Rehardening properties of mucin- or CMC-containing saliva substitutes on softened human enamel. Effects of sorbitol, xylitol and increasing viscosity. , 1985, Caries research.

[37]  A. Vissink,et al.  Remineralization of softened human enamel in mucin- or CMC-containing artificial salivas. , 1983, Journal of oral pathology.

[38]  E. Hellwig,et al.  [Effect of plaque on fluoride stability in the enamel after amine fluoride application in the artificial mouth]. , 1982, Deutsche zahnarztliche Zeitschrift.

[39]  G. H. Nancollas,et al.  Growth of calcium phosphate on hydroxyapatite crystals. Effect of supersaturation and ionic medium , 1974 .

[40]  B. Hurley,et al.  The relationship between caries activity, flow rate, total nitrogen and the mucin content of saliva. , 1966, Journal of oral medicine.