Differences in the Natural Enamel Surface and Acquired Enamel Pellicle following Exposure to Citric or Hydrochloric Acid
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[1] A. Lussi,et al. Proteomics of acquired pellicle in gastroesophageal reflux disease patients with or without erosive tooth wear. , 2019, Journal of dentistry.
[2] D. W. Bartlett,et al. In vitro evaluation of the early erosive lesion in polished and natural human enamel. , 2018, Dental materials : official publication of the Academy of Dental Materials.
[3] M. Buzalaf,et al. Changes in the Proteomic Profile of Acquired Enamel Pellicles as a Function of Their Time of Formation and Hydrochloric Acid Exposure , 2018, Caries Research.
[4] D. Bartlett,et al. An in-situ pilot study to investigate the native clinical resistance of enamel to erosion. , 2018, Journal of dentistry.
[5] D. Bartlett,et al. Precision of 655nm Confocal Laser Profilometry for 3D surface texture characterisation of natural human enamel undergoing dietary acid mediated erosive wear. , 2018, Dental materials : official publication of the Academy of Dental Materials.
[6] D. Bartlett,et al. The presence of acquired enamel pellicle changes acid-induced erosion from dissolution to a softening process , 2017, Scientific Reports.
[7] D. Bartlett,et al. Reduced statherin in acquired enamel pellicle on eroded teeth compared to healthy teeth in the same subjects: An in-vivo study , 2017, PloS one.
[8] Amy C. Valenciano,et al. Sample Collection and Handling , 2017 .
[9] A. Lussi,et al. Erosive Tooth Wear: From Diagnosis to Therapy , 2014 .
[10] D. Bartlett,et al. Composition of Enamel Pellicle from Dental Erosion Patients , 2014, Caries Research.
[11] A. Lussi,et al. Understanding the chemistry of dental erosion. , 2014, Monographs in oral science.
[12] D. Bartlett,et al. Comparison of the Possible Protective Effect of the Salivary Pellicle of Individuals with and without Erosion , 2013, Caries Research.
[13] Christoph Meier,et al. Effects of enamel abrasion, salivary pellicle, and measurement angle on the optical assessment of dental erosion , 2012, Journal of biomedical optics.
[14] Yizhi Xiao,et al. Quantitative Proteomic Analysis of the Effect of Fluoride on the Acquired Enamel Pellicle , 2012, PloS one.
[15] J. Koopmeiners,et al. Sample collection and handling considerations for peptidomic studies in whole saliva; implications for biomarker discovery. , 2011, Clinica chimica acta; international journal of clinical chemistry.
[16] Lene Nielsen,et al. Salivary changes and dental erosion in bulimia nervosa. , 2008, Oral surgery, oral medicine, oral pathology, oral radiology, and endodontics.
[17] T. Arnebrant,et al. Validation of mechanically-assisted sodium dodecyl-sulphate elution as a technique to remove pellicle protein components from human enamel , 2008, Biofouling.
[18] T. Attin,et al. Impact of the in situ formed salivary pellicle on enamel and dentine erosion induced by different acids , 2008, Acta odontologica Scandinavica.
[19] D. Weening,et al. Sample Stability and Protein Composition of Saliva: Implications for Its Use as a Diagnostic Fluid , 2008, Biomarker insights.
[20] T. Attin,et al. Protective effect of the in situ pellicle on dentin erosion - an ex vivo pilot study. , 2007, Archives of oral biology.
[21] D. Zero,et al. Protective Effect of the Dental Pellicle against Erosive Challenges in situ , 2006, Journal of dental research.
[22] D. Bartlett,et al. The Effect of Chewing Sugar-free Gum on Gastro-esophageal Reflux , 2005, Journal of dental research.
[23] G. Carpenter,et al. A statherin and calcium enriched layer at the air interface of human parotid saliva. , 2005, The Biochemical journal.
[24] Peter Lingström,et al. Influence of drinking method on tooth-surface pH in relation to dental erosion. , 2004, European journal of oral sciences.
[25] Matthias Hannig,et al. Protective effect of the in situ formed short-term salivary pellicle. , 2004, Archives of oral biology.
[26] D. Bartlett,et al. Dental erosion, gastro-oesophageal reflux disease and saliva: how are they related? , 2004, Journal of dentistry.
[27] C. Dugmore,et al. Asthma and tooth erosion. Is there an association , 2003 .
[28] M. Hannig,et al. Influence of salivary pellicle formation time on enamel demineralization – an in situ pilot study , 2003, Clinical Oral Investigations.
[29] C. Ganss,et al. A comparative profilometric in vitro study of the susceptibility of polished and natural human enamel and dentine surfaces to erosive demineralization. , 2000, Archives of oral biology.
[30] D. Bartlett,et al. Oral pH and drinking habit during ingestion of a carbonated drink in a group of adolescents with dental erosion. , 2000, Journal of dentistry.
[31] B. Amaechi,et al. Thickness of Acquired Salivary Pellicle as a Determinant of the Sites of Dental Erosion , 1999, Journal of dental research.
[32] M. Hannig,et al. Influence of in vivo Formed Salivary Pellicle on Enamel Erosion , 1999, Caries Research.
[33] J. Olsson,et al. Composition of Pellicles Formed in vivo on Tooth Surfaces in Different Parts of the Dentition, and in vitro on Hydroxyapatite , 1998, Caries Research.