Advanced search
Publication Cover
Microbial Ecology in Health and Disease Volume 3, 1990 - Issue 2
Journal homepage
92
Views
5
CrossRef citations to date
0
Altmetric
Original Article

Detection of Microecological Phenomena in Filled Teeth I. Phenomena in Gap Between Restoration and Cavity Wall

G. Buchmann Department of Cariology and Endodontology, Section of Dentistry, Medical Academy “Carl Gustav Carus”, Fetscherstr. 74, Dresden, 8019, German Democratic Republic
,
W. Klimm Department of Cariology and Endodontology, Section of Dentistry, Medical Academy “Carl Gustav Carus”, Fetscherstr. 74, Dresden, 8019, German Democratic Republic
,
A. Gabert Institute of Biotechnology, Academy of Sciences, Leipzig, GDR
&
J. Edelmann Central Institute of Solid State Physics and Materials Research, Academy of Sciences, Dresden, GDR
Pages 51-57 | Received 22 Jul 1989, Accepted 14 Oct 1989, Published online: 11 Jul 2009

References

  • Adriaens P A., de Boever J A. Struktur des Dentins im Rasterelektronenmikroskop: Konsequenzen für die Klinik. Stomatologie DDR 1981; 31: 736–753
  • Adriaens P A. Ultrastructurele Aspecten Van Het Dentine. Gent 1982, En Zijn Bacteriele Invasie (Ultrastructural aspects of dentine and its bacterial invasion). Proefschrift Tot Het Verkrijgen Van De Grad Van Doctor In De Tandheelkunde
  • Adriaens P A., Claeys G W., de Boever J A. Scanning electron-microscopic observations on the in vitro colonization of human dentine by Capnocytophaga gingivalis. Caries Research 1982; 16: 367–374
  • Baird I L., Winborn W B., Bockmann D E. A technique of decalcification suited to electron microscopy of tissues closely associated with bone. Anatomical Record 1967; 159: 281–290
  • Bergenholtz G, Cox C F., Loesche W J., Syed S A. Bacterial leakage around dental restorations: Its effect on the dental pulp. Journal of Oral Pathology 1982; 11: 439–150
  • Binus W, Pilz M EW, Stiefel A. Initialkaries. Präventiv-therapeutische Alternativen eines pathobiologischen Phänomens. Leipzig 1987
  • Brännström M, Nyborg H. The presence of bacteria in cavities filled with silicate cement and composite resin material. Svensk Tandläkare Tidskrift 1971; 64: 149–155
  • Brännström M, Nyborg H. Cavity treatment with a microbicidal fluoride solution: Growth of bacteria and effect on the pulp. Journal of Prosthetic Dentistry 1973; 30: 303–310
  • Brännström M, Nyborg H. Bacterial growth and pulpal changes under inlays cemented with zinc phosphate cement and Epoxylite CBA 9080. Journal of Prosthetic Dentistry 1974; 31: 556–565
  • Brännström M, Nordenvall K J. Bacterial penetration, pulpal reaction and the inner surface of concise enamel bond. Composite fillings in etched and unetched cavities. Journal of Dental Research 1978; 57: 3–10
  • Brown J H., Brenn L. Method for the differential staining of Gram-positive and Gram-negative bacteria in tissue sections. Bulletin of Johns Hopkins Hospital 1931; 48: 69–73
  • Going R E. Microleakage around dental restorations: A summarizing review. Journal of American Dental Association 1972; 84: 1349–1357
  • Hilker E. Untersuchungen über Veränderungen an der Zahnhartsubstanz unter Füllungen anhand von Zahnschliffen. Medizinische Dissertation, Münster 1959
  • Jahn K-R, Binus W. Die Sekundärkaries. Stomatologie DDR 1980; 30: 280–296
  • Jørgensen K D. The mechanism of marginal fracture of amalgam fillings. Acta Odontologica Scandinavica 1965; 23: 347–389
  • Karnowsky M J. A formaldehyde-glutaraldehyde fixative of high osmolality for use in electron microscopy. Journal of Cell Biology 1965; 27: 137A–138A
  • Kidd E AM. Microleakage in relation to amalgam and composite restorations. British Dental Journal 1976; 141: 305–310
  • Klimm W, Buchmann G, Reißig D, Schneider H. Vergleichende lichtmikroskopische sowie transmissions-und rasterelektronenmikroskopische Untersuchungen zur Verifikation von Mikroorganismen im Dentin gefüllter Zähne. Stomatologie DDR 1988; 38: 702–707
  • Mejàre B, Mejáre I, Edwardsson S. Bacteria beneath composite restorations—a culturing and histobacteriological study. Acta Odontologica Scandinavica 1979; 37: 267–275
  • Mouton C, Reynolds H, Genco R J. Combined micromanipulation, culture and immunofluorescent techniques for isolation of the coccal organisms comprising the ‘corn-cob’ configuration of human dental plaque. Journal de Biologie Buccale 1977; 5: 321–332
  • Qvist J, Qvist V, Lambjerg-Hansen H. Bacteria in cavities beneath intermediary base materials. Scandinavian Journal of Dental Research 1977; 85: 313–319
  • Qvist V. Correlation between marginal adaptation of composite resin restorations and bacterial growth in cavities. Scandinavian Journal of Dental Research 1980; 88: 296–300
  • Qvist V. The effect of mastication on marginal adaptation of composite restorations in vivo. Journal of Dental Research 1983; 62: 904–906
  • Reynolds E S. The use of lead citrate at high pH as an electron opaque stain in electronmicroscopy. Journal of Cell Biology 1963; 17: 208–212
  • Rusche D. Einwirkung der Quellung auf die Randschrumpfung bei den schnellhärtenden Kunststoffen. Deutsche Zahnärztliche Zeitschrift 1953; 8: 1244–1247
  • To L, Sasaki S, Socransky S S. ‘Piggyback’ hypothesis of subgingival colonisation of nonmotile microorganisms. I. Migration through liquids. Journal of Dental Research 1978; 57: A316
  • Torstenson B, Nordenvall K-J, Brännström M. Pulpal reaction and microorganisms under Clearfil Composite resin in deep cavities with acid etched dentin. Swedish Dental Journal 1982; 6: 167–176
  • Watts A. Bacterial contamination and the toxicity of silicate and zinc phosphate cements. British Dental Journal 1979; 146: 7–13

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.