User menu

Interfacial behavior of bulk bioactive glass and fiber-reinforced bioactive glass dental root implants.

Bibliographic reference Schepers, E ; Declercq, Michel ; Ducheyne, P. Interfacial behavior of bulk bioactive glass and fiber-reinforced bioactive glass dental root implants.. In: Annals of the New York Academy of Sciences, Vol. 523, p. 178-89 (1988)
Permanent URL
  1. 1. E. Schepers, 1986 . Vezelversterkt bioglas als een potentieel tandheelkundig implantaatmateriaal . Ph.D. diss . Catholic University of Louvain.
  2. Williams D.F., Implants in dental and maxillofacial surgery, 10.1016/0142-9612(81)90039-9
  3. Albrektsson T., Acta Orthop. Scand., 52, 155 (1981)
  4. Albrektsson T., Int. J. Oral Maxillofac. Impl., 1, 11 (1986)
  5. Lavelle Christopher, Wedgwood Dennis, Riess Guido, A new implant philosophy, 10.1016/0022-3913(80)90356-x
  6. Adell R., Int. J. Oral Surg., 10, 387 (1981)
  7. Hench L. L., Paschall H. A., Direct chemical bond of bioactive glass-ceramic materials to bone and muscle, 10.1002/jbm.820070304
  8. Hench L. L., Paschall H. A., Histochemical responses at a biomaterial's interface, 10.1002/jbm.820080307
  9. Gross U. M., Strunz V., The anchoring of glass ceramics of different solubility in the femur of the rat, 10.1002/jbm.820140507
  10. Ducheyne P., Hench L. L., Kagan A., Martens M., Mulier J. C., Short term bonding behaviour of bioglass coatings on metal substrate, 10.1007/bf00618439
  11. Ducheyne Paul, Leray Jean L., Muster Dominique, Pusineri Christian, First World Biomaterials Congress, 10.1016/0142-9612(80)90026-5
  12. Ducheyen P., Hench L. L., The processing and static mechanical properties of metal fibre reinforced bioglass, 10.1007/bf00591494
  13. Ducheyne P., Bioglass coatings and bioglass composites as implant materials, 10.1002/jbm.820190309
  14. Gheysen G., Ducheyne P., Hench L.L., de Meester P., Bioglass composites: a potential material for dental application, 10.1016/0142-9612(83)90044-3
  15. Gross U. M., Strunz V., Surface Staining of Sawed Sections of Undecalcified Bone Containing Alloplastic Implants, 10.3109/10520297709116778
  16. Quirynen M., Steenberghe D., Vuylsteke M., The possibility of measuring plaque growth in vivo within 24 hours, 10.1111/j.1600-0765.1985.tb00441.x
  17. PANTANO C. G., CLARK A. E., HENCH L. L., Multilayer Corrosion Films on Bioglass Surfaces, 10.1111/j.1151-2916.1974.tb11429.x
  18. CLARK A. E., PANTANO C. G., HENCH L. L., Auger Spectroscopic Analysis of Bioglass Corrosion Films, 10.1111/j.1151-2916.1976.tb09382.x
  19. Hench L. L., Fundamental Aspects of Biocompatability, 1, 68 (1982)
  20. Gross U., Strunz V., The interface of various glasses and glass ceramics with a bony implantation bed, 10.1002/jbm.820190308
  21. Wilson June, Pigott G. H., Schoen F. J., Hench L. L., Toxicology and biocompatibility of bioglasses, 10.1002/jbm.820150605
  22. de Lange G., Biomaterials and Biomechanics, 451 (1983)
  23. Ducheyne P., Martens M., Burssens A., Materials, clinical and morphological evaluation of custom-made bioreactive-glass-coated canine hip prostheses, 10.1002/jbm.820180906
  24. Heimke G., Schulte W., Griss P., Jentschura G., Schulz P., Generalization of biomechanical rules for the fixation of bone, joint, and tooth replacements, 10.1002/jbm.820140420
  25. 25. R. A. Eriksson, 1984 . Heat-induced bone tissue injury . PhD. diss. University of Goteborg.
  26. Kirschner H., Tissue Integration in Oral and Maxillo-facial Reconstruction, 101 (1986)