Characterization of Bone Around Titanium Implants and Bioactive Glass Particles: An Experimental Study in Rats

International Journal of Oral and Maxillofacial Implants

Volumn 17, Issue 5, 2002, Pages 644-650

  Gorustovich, Alejandro ^a   Rosenbusch, Mariana ^b   Guglielmotti, Maria B ^a  

^a UNIVERSIDAD DE BUENOS AIRES   (Argentina)

^b DEPARTAMENTO DE FÍSICA   (Argentina)

Author keywords

Bioactive glass; Bone; Dental implants; Energy dispersive x ray analysis; Silicon; Titanium

Indexed keywords

BIOACTIVE GLASS 45S5; BIOMATERIAL; CALCIUM; COLORING AGENT; DIAGNOSTIC AGENT; GLASS; PHOSPHORUS; SILICON; TITANIUM; TOLONIUM CHLORIDE;

ANIMAL; ARTICLE; BONE; BONE DEVELOPMENT; BONE MARROW; BONE PROSTHESIS; BONE REGENERATION; CHEMISTRY; COMPARATIVE STUDY; ELECTRON PROBE MICROANALYSIS; MALE; RAT; SURFACE PROPERTY; TIBIA; TIME; TOOTH IMPLANTATION; ULTRASTRUCTURE; WISTAR RAT;

ANIMALS; BIOCOMPATIBLE MATERIALS; BONE AND BONES; BONE MARROW; BONE SUBSTITUTES; CALCIUM; COLORING AGENTS; DENTAL IMPLANTS; ELECTRON PROBE MICROANALYSIS; GLASS; MALE; MICROCHEMISTRY; OSSEOINTEGRATION; OSTEOGENESIS; PHOSPHORUS; RATS; RATS, WISTAR; SILICON; SURFACE PROPERTIES; TIBIA; TIME FACTORS; TITANIUM; TOLONIUM CHLORIDE;

EID: 0036719041     PISSN: 08822786     EISSN: None     Source Type: Journal    
DOI: None     Document Type: Article

References (57)

1. Brunski JB, Puleo DA, Nanci A. Biomaterials and biomechanics of oral and maxillofacial implants: Current status and future developments. Int J Oral Maxillofac Implants 2000;15:15-46.
2. Laney WR, Tolman DE (eds). Tissue Integration in Oral, Orthopedic, and Maxillofacial Reconstruction. Chicago: Quintessence, 1992.
3. Albrektsson T, Brånemark P-l, Hansson H-A, Lindstrom J. Osseointegrated titanium implants. Requirements for ensuring a long-lasting, direct bone-to-implant anchorage in man. Acta Orthop Scand 1981;52:155-170.
4. Sennerby L, Thomsen P, Ericsson LE. A morphometric and biomechanical comparison of titanium implants inserted in rabbit cortical and cancellous bone. Int J Oral Maxillofac Implants 1992;7:62-71.
5. Larsson C, Thomsen P, Lausmaa J, Rodahl M, Kasemo B, Ericsson LE. Bone response to surface modified titanium implants: Studies on electropolished implants with different oxide thicknesses and morphology. Biomaterials 1994;15: 1062-1074.
6. Albrektsson TO, Johansson CB, Sennerby L. Biological aspects of implant dentistry: Osseointegration. Periodontol 2000 1994;4:58-73.
7. Clokie CML, Warshawsky H. Morphologic and radioautographic studies of bone formation in relation to titanium implants using the rat tibia as a model. Int J Oral Maxillofac Implants 1995;10:155-165.
8. Johansson CB, Roser K, Bolind P, Donath K, Albrektsson T. Bone-tissue formation and integration of titanium implants: An evaluation with newly developed enzyme and immunohistochemical techniques. Clin Implant Dent Relat Res 1999;1:33-40.
9. Goffredsen K, Berglundh T, Lindhe J. Bone reactions adjacent to titanium implants subjected to static load of different duration. A study in the dog (III). Clin Oral Implants Res 2001;12:552-558.
10. Sul Y-T, Johansson CB, Roser K, Albrektsson T. Qualitative and quantitative observations of bone tissue reactions to anodised implants. Biomaterials 2002;23:1809-1817.
11. Cabrini RL, Guglielmotti MB, Almagro JC. Histomorphometry of initial bone healing around zirconium implants in rats. Implant Dent 1993;2:264-267.
12. Werner SB, Tessler J, Guglielmotti MB, Cabrini RL. Effect of dexamethasone on osseointegration: A preliminary experimental study. J Oral Implantol 1996;22:216-219.
13. Guglielmotti MB, Guerrero C, Cabrini RL. Chronodynamic evaluation of the stages of osseointegration in zirconium laminar implants. Acta Odontol Latinoamer 1997;10:11-23.
14. Duffo G, Barreiro M, Olmedo D, Crosa M, Guglielmotti MB, Cabrini RL. An experimental model to study implant corrosion. Acta Odontol Latinoamer 1999;12:3-10.
15. Guglielmotti MB, Renou S, Cabrini RL. Evaluation of bone tissue on metallic implants by energy-dispersive x-ray analysis: An experimental study. Implant Dent 1999;8:303-309.
16. Guglielmotti MB, Renou S, Cabrini RL. A histomorphometric study of tissue interface by laminar implant test in rats. Im J Oral Maxillofac Implants 1999;14:565-570.
17. Giglio MJ, Giannunzio G, Olmedo D, Guglielmotti MB. Histomorphometric study of bone healing around laminar implants in experimental diabetes. Implant Dent 2000;9: 143-149.
18. Renou SJ, Guglielmotti MB, de la Torre A, Cabrini RL. Effect of total body irradiation on peri-implant tissue reaction: An experimental study. Clin Oral Implants Res 2001; 12:468-472.
19. Giglio MJ, Gorustovich A, Guglielmotti MB. Bone healing under experimental anemia in rats. Acta Odontol Latinoamer 2000;13:63-72.
20. Triplett RG, Schow SR, Laskin DM. Oral and maxillofacial surgery advances in implant dentistry. Int J Oral Maxillofac Implants 2000;15:47-55.
21. Hämmerle CHF. Membranes and bone substitutes in guided bone regeneration. In: Lang NP, Karring T, Lindhe J (eds). Proceedings of the Third European Workshop on Periodontology: Implant Dentistry. Berlin: Quintessence, 1999: 468-499.
22. Klokkevold PR, Jovanovic SA. Advanced implant surgery and bone grafting techniques. In: Newman MG, Takei HH, Carranza FA (eds). Carranza's Clinical Periodontology, ed 9. Philadelphia: Saunders, 2002:905-921.
23. Hench LL, Wilson J (eds). Advanced Series in Ceramics. Vol 1: An introduction to bioceramics. Singapore: World Scientific, 1993.
24. Hench LL. Bioactive materials: The potential for tissue regeneration. J Biomed Mater Res 1998;41:511-518.
25. Hench LL, Polak JM. Third-generation biomedical materials. Science 2002;295:1014-1017.
26. Schepers E, Ducheyne P. Bioactive glass particles of narrow size range for the treatment of oral bone defects: A 1-24 month experiment with several materials and particle sizes and size ranges. J Oral Rehabil 1997;24:171-181.
27. Virolainen P, Heikkila J, Yli-Urpo A, Vuorio E, Aro HT. Histomorphometric and molecular biologic comparison of bioactive glass granules and autogenous bone grafts in augmentation of bone defect healing. J Biomed Mater Res 1997; 35:9-17.
28. Furusawa T, Mizunuma K, Yamashita S, Takahasi T. Investigation of early bone formation using resorbable bioactive glass in the rat mandible. Int J Oral Maxillofac Implants 1998;13:67-676.
29. Tadjoedin ES, de Lange GL, Holzmann PJ, Kuiper L, Burger EH. Histological observations on biopsies harvested following sinus floor elevation using a bioactive glass material of narrow size range. Clin Oral Implants Res 2000;11: 334-344.
30. Wheeler DL, Stokes KE, Park HM, Hollinger JO. Evaluation of particulate Bioglass in a rabbit radius ostectomy model. J Biomed Mater Res 1997;35:249-254.
31. Oonishi H, Hench LL, Wilson J, et al. Quantitative comparison of bone growth behavior in granules of Bioglass, A-W glass ceramic, and hydroxyapatite. J Biomed Mater Res 2000;51:37-46.
32. Vogel M, Voigt C, Gross UM, Muller-Mai CM. In vivo comparison of bioactive glass particles in rabbits. Biomaterials 2001;22:357-362.
33. Ducheyne P, Qiu Q. Bioactive ceramics: The effect of surface reactivity on bone formation and bone cell function. Biomaterials 1999;20:2287-2303.
34. Radin S, Ducheyne P, Falaize S, Hammond A. In vitro transformation of bioactive glass granules into Ca-P shells. J Biomed Mater Res 2000;49:264-272.
35. Hench LL. Bioactive ceramics: Theory and clinical applications. In: Andersson O, Happonen R-P, Yli-Urpo A (eds). Bioceramics 7. New York: Butterworth-Heinemann, 1994: 1-14.
36. Donath K, Breuner GA. A method for the study of undecalcified bones and teeth with attached soft tissues: The Sage-Schliff (sawing and grinding) technique. J Oral Pathol 1982; 11:318-326.
37. Johnson MW, Sullivan SM, Rohrer M, Collier M. Regeneration of peri-implant infrabony defects using PerioGlas: A pilot study in rabbits. Int J Oral Maxillofac Implants 1997; 12:835-839.
38. Turunen T, Peltola J, Helenius H, Yli-Urpo A, Happonen R-P. Bioactive glass and calcium carbonate granules as filler material around titanium and bioactive glass implants in the medullary space of the rabbit tibia. Clin Oral Implants Res 1997;8:96-102.
39. Turunen T, Peltola J, Makkonen T, Helenius H, Yli-Urpo A, Happonen R-P. Bioactive glass granules and polytetrafluoroethylene membrane in the repair of bone defects adjacent to titanium and bioactive glass implants. J Mater Sci Mater Med 1998;9:403-407.
40. Jones JR, Sepulveda P, Hench LL. Dose-dependent behavior of bioactive glass dissolution. J Biomed Mater Res (Appl Biomater) 2001;58:720-726.
41. Zhong J, Greenspan DC. Processing and properties of solgel bioactive glasses. J Biomed Mater Res (Appl Biomater) 2000;53:694-701.
42. Schepers E, Huygh A, Barbier L, Ducheyne P. Microchemical analysis of bioactive glass particles of narrow size range. In: LeGeros R, LeGeros J (eds). Bioceramics 11. New York: World Scientific, 1998:559-562.
43. Xynos ID, Hukkanen MVJ, Batten JJ, Buttery LD, Hench LL, Polak JM. Bioglass 45S5 stimulates osteoblast turnover and enhances bone formation in vitro: Implication- and applications for bone tissue engineering. Calcif Tissue Int 2000;67:321-329.
44. Xynos ID, Edgar AJ, Buttery LD, Hench LL, Polak JM. Ionic products of bioactive glass dissolution increase proliferation of human osteoblasts and induce insulin-like growth factor 11 mRNA expression and protein synthesis. Biochem Biophys Res Commun 2000,276:461-465.
45. Silver IA, Deas J, Erecinska M. Interactions of bioactive glasses with osteoblasts in vitro: Effects of 45S5 Bioglass, and 58S and 77S bioactive glasses on metabolism, intracellular ion concentrations and cell viability. Biomaterials 2001; 22:175-185.
46. Gao T, Aro HT, Ylanen H, Vuorio E. Silica-based bioactive glasses modulate expression of bone morphogenetic protein-2 mRNA in Saos-2 osteoblasts in vitro. Biomaterials 2001;22: 1475-1483.
47. Chou L, Al-Bazie S, Cottrell D, Giodano R, Nathanson D. Atomic and molecular mechanisms underlying the osteogenic effects of Bioglass materials. In: LeGeros R, LeGeros J (eds). Bioceramics 11. New York: World Scientific, 1998:265-268.
48. Lai W, Garino J, Ducheyne P. Silicon excretion from bioactive glass implanted in rabbit bone. Biomaterials 2002;23: 213-217.
49. Perry CC, Keeling-Tucker T. Biosilicification: The role of the organic matrix in structure control. J Biol Inorg Chem 2000;5:537-550.
50. Perry CC, Keeling-Tucker T. Aspects of the bioinorganic chemistry of silicon in conjunction with the biometals calcium, iron and aluminium. J Inorg Biochem 1998;69:181-191.
51. Morse DE. Silicon biotechnology: Harnessing biological silica production to construct new materials. Trends Biotechnol 1999;17:230-232.
52. Bronner F. Metals in bone: Aluminium, boron, cadmiun, chromium, lead, silicon, and strontium. In: Bilezikian JP, Raisz LG, Rodan GA (eds). Principles of Bone Biology, Vol 1, ed 2. San Diego: Academic Press, 2002:359-370.
53. Carlisle EM. Silicon: A possible factor in bone calcification. Science 1970;167:279-280.
54. Carlisle EM. Silicon as an essential trace element in animal nutrition. In: Evered D, O'Connor M (eds). Silicon Biochemistry. Chichester: John Wiley & Sons, 1986:123-139.
55. Landis WJ, Lee DD, Brenna JT, Chandra S, Morrison GH. Detection and localization of silicon and associated elements in vertebrate bone tissue by imaging ion microscopy. Calcif Tissue Int 1986;38:52-59.
56. Franks K, Abrahams I, Knowles JC. Development of soluble glasses for biomedical use. Part 1: In vitro solubility measurement. J Mater Sci Mater Med 2000;11:609-614.
57. Lugowski SJ, Smith DC, Bonek H, Lugowski J, Peters W, Semple J. Analysis of silicon in human tissues with special reference to silicone breast implants. J Trace Elements Med Biol 2000;14:31-42.