Advanced search
Publication Cover
Acta Odontologica Scandinavica Volume 28, 1970 - Issue 5
Journal homepage
16
Views
13
CrossRef citations to date
0
Altmetric
Original Article

Some Observations on the Fine Structure of Fluorosed Dental Enamel

John Silness The Department of Crown and Bridge Prosthodontics, School of Dentistry, University of Bergen, Norway
&
Finn Gustavsen The Department of Crown and Bridge Prosthodontics, School of Dentistry, University of Bergen, Norway
Pages 701-720 | Received 01 Dec 1969, Published online: 02 Jul 2009

References

  • Black G. V., McKay F. S. Mottled enamel. An endemic developmental imperfection of the teeth, heretofore unknown in the literature of dentistry. Dent. Cosmos 1916; 58: 129–156
  • Brown W. E. A mechanism for growth of apatitic crystals. Tooth enamel, M. V. Stack, R. W. Fearnhead. John Wright and Sons Ltd., Bristol 1965; 11–14
  • Darling A. I., Brooks A. W. Some observations on the mottled enamel of fluorosis. J. dent. Res 1959; 38: 1226–1227
  • Dean H. T. Chronic endemic dental fluorosis (mottled enamel). Dental Science and Dental Art, S. M. Gordon. Henry Kempton, London 1938; 387–414
  • Frank R. I., Sognnaes R. F., Kern R. Calcification of dental tissues with special reference to enamel ultrastructure. Calcification in biological systems, R. F. Sognnaes. American Association for the Advancement of Science, Washington 1960; 163–202, Publ. No. 64
  • Glas J-E., Nylen M. U. A correlated electron microscopic and microradiographic study of human enamel. Arch. oral. Biol 1965; 10: 893–908
  • Gustafson A-G. The histology of fluorosed teeth. Arch. oral. Biol 1961; 4: 67–69
  • Gustavsen F., Silness J. Crystal shape in the prism sheath region of sound human enamel. Acta odont. Scand 1969; 6: 617–629
  • Hall D. M. Study of the submicroscopic structure of human dental enamel by electron microscopy. J. dent. Res 1958; 37: 243–253
  • Höhling H. J. Elektronenmikroskopische Untersuchungen am gesunden und kariösen Zahnschmelz unter besonderer Berücksichtigung der Ultramikrotomschnitt-Teknik an nicht entmineralisierter Substanz. Dtsch. zahnäztl. Z 1961; 16: 694–705
  • Johansen E. Comparison of the ultrastructure and chemical composition of sound and carious enamel from human teeth. Tooth enamel, M. W. Stack, R. W. Fearnhead. John Wright and Sons Ltd., Bristol 1965; 177–181
  • Johnson N. W. Some aspects of the ultrastructure of early enamel caries seen with the electron microscope. Arch. oral. Biol 1967; 12: 1505–1521
  • Little K. Electron microscope studies of teeth. J. dent. Res 1955; 34: 778
  • Menczel J., Posner A. S., Schraer H., Pakis G., Likins R. C. Comparative fixation of Sr46 and Ca89 by calcified tissues as related to fluoride induced changes in crystallinity. Proc. Soc. exp. Biol 1967; 110: 609–613
  • Millard A., Pautard F. G.E. Electron microscope observations on apatite crystallites in human dentine and enamel. Intern. Conf. Electron Microscopy 4th Conf.. 1958; 357–360
  • Newbrun E., Brudevold F. Studies on the physical properties of fluorosed enamel. I. Microradiographic studies. Arch. oral. Biol 1960; 2: 15–20
  • Nylen M. U., Eanes E. D., Omnell K-A. Crystal growth in rat enamel. J. Cell. Biol 1963; 18: 109–123
  • Posner A. S., Eanes E. D., Harper R. A., Zipkin I. X-ray diffraction analysis of the effect of fluoride on human bone apatite. Arch. oral. Biol 1963; 8: 549–570
  • Robinson R. A. An electron microscopic study of the crystalline inorganic component of bone and its relationship to the organic matrix. J. Bone Jt Surg 1952; 34A: 389–435
  • Rönnholm E. The amelogenesis of human teeth as revealed by electron microscopy. II. The development of the enamel crystallites. J. Ultrastruct. Res 1962 b; 6: 249–303
  • Rönnholm E. The structure of the organic stroma of human enamel during amelogenesis. J. Ultrastruct. Res 1962 c; 6: 368–389
  • Schraer H., Posner A. S., Schraer R., Zipkin I. Effect of fluoride on bonecrystallinity) in the growing rat. Biochim. Biophys. Acta 1962; 64: 565–567
  • Scott D. B., Nylen M. U., Pugh M. Some technical aspects of microradiography. Norelco Reporter 1962; 9: 103–109
  • Scott D. B., Nylen M. U. Organic-inorganic interrelationships in enamel and dentine – a possible key to the mechanism of caries. Int. dent. J 1962; 12: 417–432
  • Silness J. Elements of the organic framework of dental enamel of the hedgehog (Erinaceus europaeus L.). Thesis, Universitetsforlaget, Oslo 1967
  • Silness J., Gustavsen F. Structure of the organic matrix of dental enamel of the hedgehog (Erinaceus europaeus L.). Odont. Revy 1969; 20, Suppl. 19
  • Silness J. Some variations in the microradiographic appearance of human deciduous enamel. Odont. Revy 1969; 20: 93–110
  • Sundström B. A new technique for decalcifying ground specimens of adult human enamel. Arch. oral. Biol 1966; 11: 1221–1231
  • Sundström B., Zelander T. Routine decalcification of thin sawed sections of adult human enamel by means of a basic chromium (III) sulphate solution of stable pH. Odont. Revy 1968 a; 3: 233–247
  • Sundström B., Zelander T. On the morphological organisation of the organic matrix of adult human enamel after decalcification by means of a basic chromium (III) sulphate solution. Odont. Revy 1968 b; 3: 249–263
  • Syrrist A. En orientering i elektronmikroskopien med noen resultater fra histologiske undersøkelser av emalje og dentin. (An introduction in electron microscopy with some results from histological investigations of enamel and dentine. Odont. T 1949; 57: 79–105
  • Travis D. F., Glimcher M. J. The structure and organization of and the relationship between the organic matrix and the inorganic crystals of embryonic bovine enamel. J. Cell. Biol 1964; 23: 447–497
  • Vennes J. W., Kwako J. E., Swenson D. D., Petterson J. K. Fluoride content of municipal water supplies in North Dakota. J. – Lancet 1862; 82: 388–391
  • Watson M. L., Avery J. K. The development of the hamster lower incisor as observed by electron microscopy. Am. J. Anat 1954; 95: 109–161
  • Williams J. L. Mottled enamel and other studies of normal and pathological conditions of this tissue. J. dent. Res 1923; 5: 117–195
  • Zipkin I., Posner A. S., Eanes E. D. The effect of fluoride on the X-ray diffraction pattern of the apatite of human bone. Biochim. Biophys. Acta 1967; 59: 255–258

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.