Journal of Dentistry
Volume 34, Issue 10 , Pages 751-756 , November 2006

Linseed based saliva substitutes and their effect on mineral dissolution of predemineralized bovine dentin in vitro

  • Hendrik Meyer-Lueckel
    • ,
  • Peter Tschoppe

      Affiliations

    • Corresponding Author InformationCorresponding author at: Poliklinik für Zahnerhaltungskunde und Parodontologie, Universitätsklinik für Zahn-, Mund- und Kieferheilkunde, Campus Benjamin Franklin, Charité, Universitätsmedizin Berlin, Assmannshauser Strasse 4–6, 14197 Berlin, Germany. Tel.: +49 30 8445 6207/6303; fax: +49 30 8445 6204.
    • ,
  • Andrej M. Kielbassa

Received 17 January 2006 ,Accepted 24 January 2006.

References 

  1. Ben-Aryeh H, Gutman D, Szargel R, Laufer D. Effects of irradiation on saliva in cancer patients. International Journal of Oral & Maxillofacial Surgery. 1975;4(5):205–210
  2. Spielman A, Ben-Aryeh H, Gutman D, Szargel R, Deutsch E. Xerostomia-diagnosis and treatment. Oral Surgery, Oral Medicine and Oral Pathology. 1981;51(2):144–147
  3. Waterman HA, Blom C. Rheological properties of human saliva. Archives of Oral Biology. 1988;33(8):589–596
  4. Piotrowski J, Czajkowski A, Slomiany A, Shovlin FE, Murty VL, Slomiany BL. Expression of salivary mucin bacterial aggregating activity: difference with caries. Biochemistry International. 1992;28(6):1021–1028
  5. Willich N, Gundacker K, Zwingers T, Rohloff R. The development of radiation caries after high doses of irradiation. Strahlentherapie Onkologie. 1988;164(8):466–473
  6. Levine MJ. Development of artificial salivas. Critical Reviews in Oral Biology and Medicine. 1993;4(3–4):279–286
  7. Meyer-Lueckel H, Schulte-Monting J, Kielbassa AM. The effect of commercially available saliva substitutes on predemineralized bovine dentin in vitro. Oral Diseases. 2002;8(4):192–198
  8. Meyer-Lueckel H, Umland N, Hopfenmuller W, Kielbassa AM. Effect of mucin alone and in combination with various dentifrices on in vitro remineralization. Caries Research. 2004;38(5):478–483
  9. Olsson H, Axell T. Objective and subjective efficacy of saliva substitutes containing mucin and carboxymethylcellulose. Scandinavian Journal of Dental Research. 1991;99(4):316–319
  10. Mukai Y, ten Cate JM. Remineralization of advanced root dentin lesions in vitro. Caries Research. 2002;36(4):275–280
  11. Visch LL, s-Gravenmade EJ, Schaub RM, Van Putten WL, Vissink A. A double-blind crossover trial of CMC- and mucin-containing saliva substitutes. International Journal of Oral and Maxillofacial Surgery. 1986;15(4):395–401
  12. Kielbassa AM, Shohadai SP, Schulte-Monting J. Effect of saliva substitutes on mineral content of demineralized and sound dental enamel. Support in Care in Cancer. 2001;9(1):40–47
  13. Andersson G, Johansson G, Attstrom R, Edwardsson S, Glantz PO, Larsson K. Comparison of the effect of the linseed extract Salinum and a methyl cellulose preparation on the symptoms of dry mouth. Gerodontology. 1995;12(1):12–17
  14. Johansson G, Andersson G, Attstrom R, Glantz PO, Larsson K. The effect of Salinum on the symptoms of dry mouth: a pilot study. Gerodontology. 1994;11(1):46–49
  15. Selig W. The use of ion-selective electrodes in microanalysis: comments on the determination of fluoride and sulfate or phosphate without separation. Microchimica Acta. 1974;62(3):515–526
  16. Shellis RP. A microcomputer program to evaluate the saturation of complex solutions with respect to biominerals. Computer Applications in the Biosciences. 1988;4(3):373–379
  17. Mellberg JR. Hard-tissue substrates for evaluation of cariogenic and anti-cariogenic activity in situ. Journal of Dental Research. 1992;71:913–919
  18. Esser M, Tinschert J, Marx R. Material characteristics of the hard tissues of bovine versus human teeth. Deutsche zahnärztliche Zeitschrift. 1998;53(10):713–717
  19. Herkstroter FM, Witjes M, Arends J. Demineralization of human dentine compared with enamel in a pH-cycling apparatus with a constant composition during de- and remineralization periods. Caries Research. 1991;25(5):317–322
  20. Dreizen S, Brown LR, Handler S, Levy BM. Radiation-induced xerostomia in cancer patients. Effect on salivary and serum electrolytes. Cancer. 1976;38(1):273–278
  21. Chow LC. Solubility of calcium phosphates. Monographs in Oral Science. 2001;18:94–111
  22. Larsen MJ, Pearce EI. Saturation of human saliva with respect to calcium salts. Archives of Oral Biology. 2003;48(4):317–322
  23. Nancollas GH, Tomazic B. Growth of calcium phosphate on hydroxyapatite crystals. Effect of supersaturation and ionic medium. Journal of Physical Chemistry. 1974;78(22):2218–2225
  24. Ban S, Matsuura M, Arimoto N, Hayashizaki J, Itoh Y, Hasegawa J. Factors affecting the transformation of octacalcium phosphate to apatite in vitro. Dental Materials Journal. 1993;12(2):106–117
  25. Meyer-Lueckel H, Tschoppe P, Stenzel WR, Hopfenmüller W, Kielbassa AM. The effect of polymers used in saliva substitutes on demineralized bovine enamel in vitro. American Journal of Dentistry (in press).
  26. Gelhard TB, Fidler V, s-Gravenmade EJ, Vissink A. Remineralization of softened human enamel in mucin-or CMC-containing artificial salivas. Journal of Oral Pathology. 1983;12(5):336–341
  27. Vissink A, s’Gravenmade EJ, Gelhard TB, Panders AK, Franken MH. Rehardening properties of mucin-or CMC-containing saliva substitutes on softened human enamel. Effects of sorbitol, xylitol and increasing viscosity. Caries Research. 1985;19(3):212–218
  28. Featherstone JD. Diffusion phenomena and enamel caries development. In:  Guggenheim B editors. Cariology today. Basel: Karger; 1984;p. 259–268
  29. Joyston-Bechal S, Kidd EA. The effect of three commercially available saliva substitutes on enamel in vitro. British Dental Journal. 1987;163(6):187–190
  30. Exterkate RA, Damen JJ, ten Cate JM. A single-section model for enamel de- and remineralization studies. 1. The effects of different Ca/P ratios in remineralization solutions. Journal of Dental Research. 1993;72(12):1599–1603
  31. Tanaka M, Kadoma Y. Comparative reduction of enamel demineralization by calcium and phosphate in vitro. Caries Research. 2000;34(3):241–245
  32. ten Cate JM. Review on fluoride, with special emphasis on calcium fluoride mechanisms in caries prevention. European Journal of Oral Sciences. 1997;105(5):461–465
  33. Aoba T. Solubility properties of human tooth mineral and pathogenesis of dental caries. Oral Diseases. 2004;10(5):249–257

PII: S0300-5712(06)00025-X

doi: 10.1016/j.jdent.2006.01.006

Journal of Dentistry
Volume 34, Issue 10 , Pages 751-756 , November 2006

Article Tools

* Image Usage & Resolution