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Journal Abstract Search

134 related items for PubMed ID: 30959076

  • 1. Pure hydroxyapatite as a substitute for enamel in erosion experiments.
    Ronay FC, Wegehaupt FJ, Becker K, Wiedemeier DB, Attin T, Lussi A, Steiger-Ronay V.
    J Dent; 2019 May; 84():89-94. PubMed ID: 30959076
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  • 3. Impact of laminar flow velocity of different acids on enamel calcium loss.
    Attin T, Becker K, Wiegand A, Tauböck TT, Wegehaupt FJ.
    Clin Oral Investig; 2013 Mar; 17(2):595-600. PubMed ID: 22526895
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  • 5. The addition of nano-sized hydroxyapatite to a sports drink to inhibit dental erosion: in vitro study using bovine enamel.
    Min JH, Kwon HK, Kim BI.
    J Dent; 2011 Sep; 39(9):629-35. PubMed ID: 21763390
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  • 8. Susceptibility of bovine dental enamel with initial erosion lesion to new erosive challenges.
    Oliveira GC, Tereza GPG, Boteon AP, Ferrairo BM, Gonçalves PSP, Silva TCD, Honório HM, Rios D.
    PLoS One; 2017 Sep; 12(8):e0182347. PubMed ID: 28817591
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  • 9. Effects of pH and acid concentration on erosive dissolution of enamel, dentine, and compressed hydroxyapatite.
    Shellis RP, Barbour ME, Jones SB, Addy M.
    Eur J Oral Sci; 2010 Oct; 118(5):475-82. PubMed ID: 20831581
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  • 10. Temperature-dependent erosivity of drinks in a model simulating oral fluid dynamics.
    Steiger-Ronay V, Steingruber A, Becker K, Aykut-Yetkiner A, Wiedemeier DB, Attin T.
    J Dent; 2018 Mar; 70():118-123. PubMed ID: 29366671
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  • 11. Enamel wear by antagonistic restorative materials under erosive conditions.
    Wiegand A, Credé A, Tschammler C, Attin T, Tauböck TT.
    Clin Oral Investig; 2017 Dec; 21(9):2689-2693. PubMed ID: 28185090
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  • 12. Effects of Calcium and Phosphate on Dissolution of Enamel, Dentin and Hydroxyapatite in Citric Acid.
    Shellis RP, Barbour ME, Parker DM, Addy M, Lussi A.
    Swiss Dent J; 2023 Jul 10; 133(7-8):432-438. PubMed ID: 36861646
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  • 13. Effect of sucralfate against hydrochloric acid-induced dental erosion.
    Turssi CP, Amaral FLB, França FMG, Basting RT, Hara AT.
    Clin Oral Investig; 2019 May 10; 23(5):2365-2370. PubMed ID: 30302612
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  • 14. Artificial Saliva Formulations versus Human Saliva Pretreatment in Dental Erosion Experiments.
    Batista GR, Rocha Gomes Torres C, Sener B, Attin T, Wiegand A.
    Caries Res; 2016 May 10; 50(1):78-86. PubMed ID: 26870948
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  • 15. Human and bovine enamel erosion under 'single-drink' conditions.
    White AJ, Yorath C, ten Hengel V, Leary SD, Huysmans MC, Barbour ME.
    Eur J Oral Sci; 2010 Dec 10; 118(6):604-9. PubMed ID: 21083622
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  • 16. Chelating effect of citric acid is negligible for development of enamel erosions.
    Azadi-Schossig P, Becker K, Attin T.
    Clin Oral Investig; 2016 Sep 10; 20(7):1577-87. PubMed ID: 26572529
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  • 17. The effect of saliva substitutes on enamel erosion in vitro.
    Aykut-Yetkiner A, Wiegand A, Attin T.
    J Dent; 2014 Jun 10; 42(6):720-5. PubMed ID: 24705070
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  • 18. The potential of deciduous and permanent bovine enamel as substitute for deciduous and permanent human enamel: Erosion-abrasion experiments.
    Attin T, Wegehaupt F, Gries D, Wiegand A.
    J Dent; 2007 Oct 10; 35(10):773-7. PubMed ID: 17709163
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  • 19. Surface characteristics of a modified acidulated phosphate fluoride gel with nano-hydroxyapatite coating applied on bovine enamel subjected to an erosive environment.
    Soares LES, da Silva Magalhães J, Marciano FR, Lobo AO.
    Microsc Res Tech; 2018 Dec 10; 81(12):1456-1466. PubMed ID: 30295365
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  • 20. Using bearing area parameters to quantify early erosive tooth surface changes in enamel: a pilot study.
    Field J, German M, Waterhouse P.
    J Dent; 2013 Nov 10; 41(11):1060-7. PubMed ID: 23998946
    [Abstract] [Full Text] [Related]

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