Bone response to alteration of surface topography and surface composition of sandblasted and acid etched (SLA) implants

Clinical Oral Implants Research

Volumn 13, Issue 5, 2002, Pages 465-469

  Perrin, Daniel ^a   Szmukler Moncler, Serge ^b,c   Echikou, Casimir ^a   Pointaire, Philippe ^a   Bernard, Jean Pierre ^c  

^a DIJON UNIVERSITY HOSPITAL   (France)

^b SORBONNE UNIVERSITÉ   (France)

^c UNIVERSITY OF GENEVA   (Switzerland)

Author keywords

Etched implants; Hydrogen; Pig model; SLA; Surface alteration; Titanium hydride

Indexed keywords

BIOMATERIAL; COLORING AGENT; DIAGNOSTIC AGENT; HYDROCHLORIC ACID; SULFURIC ACID; TITANIUM;

ANIMAL; ANIMAL MODEL; ARTICLE; BONE REGENERATION; CHEMISTRY; DENTAL ACID ETCHING; FEMALE; HEAT; IMAGE PROCESSING; MANDIBLE; PATHOLOGY; PATHOPHYSIOLOGY; STATISTICS; SURFACE PROPERTY; SWINE; TOOTH IMPLANTATION; TOOTH PROSTHESIS; WOUND HEALING; X RAY DIFFRACTION;

ACID ETCHING, DENTAL; ANIMALS; COATED MATERIALS, BIOCOMPATIBLE; COLORING AGENTS; DENTAL IMPLANTS; DENTAL PROSTHESIS DESIGN; FEMALE; HEAT; HYDROCHLORIC ACID; IMAGE PROCESSING, COMPUTER-ASSISTED; MANDIBLE; MODELS, ANIMAL; OSSEOINTEGRATION; STATISTICS; SULFURIC ACIDS; SURFACE PROPERTIES; SWINE; TITANIUM; WOUND HEALING; X-RAY DIFFRACTION;

EID: 0036782259     PISSN: 09057161     EISSN: None     Source Type: Journal    
DOI: 10.1034/j.1600-0501.2002.130504.x     Document Type: Article

References (17)

1. Anonymous (1987) Corrosion of titanium. In: ASM Handbook of metals. Vol. 13, Corrosion. Metal Park, OH: A.S.M.
2. Buser, D., Nydegger, T., Hirt, H.P., Cochran, D.L. & Nolle, L.P. (1998) Removal torque values of titanium implants in the maxilla of miniature pigs. International Journal of Oral and Maxillo-Facial Implants 13: 611-619.
3. Buser, D., Nydegger, T., Oxland, T., Cochran, D.L., Schenk, R.K., Hirt, H.P., Snétivy, D. & Nolte, L.P. (1999) The interface shear-strength of titanium implants with a sandblasting and acid-etched surface. A biomechanical study in the maxilla of miniature pigs. Journal of Biomedical Material Research 45: 75-83.
4. Buser, D., Schenk, R.K., Steinemann, S.G., Fiorellini, J.P., Fox, C.H. & Stich, H. (1991) Influence of surface characteristics on bone integration of titanium implants: a histomorphometric study in miniature pigs. Journal of Biomedical Material Research 25: 889-902.
5. Cochran, D.L., Buser, D., ten Brukkengate, T.M., Weingart, D., Taylor, T.M., Bernard, J.P., Peters, F. & Simpson, J.P. (1002) The use of shortened healing times on m implants with a sandblasted and acid-etched (SLA) surface: Early results from clinical trials. Clinical Oral Implants Research 13: 144-153.
6. Cochran, D.L., Schenk, R.K., Lussi, A., Higginbotom, F.L. & Buser, D. (1998) Bone response to unloaded and loaded titanium implants with a sandblasted and acid-etched surface. A histomorphometric study in the canine mandible Journal of Biomedical Material Research 40: 1-11.
7. Cochran, D.L., Simpson, J.P., Weber, H.P. & Buser, D. (1994) Attachment and growth of periodontal cells on smooth and rough titanium. International Journal of Oral and Maxillo-Facial Implants 9: 289-297.
8. Gross, U., Muller-Mai, C., Fritz, T., Voigt, C., Knarse, W. & Schmitz, H.J. (1990) Implant surface roughness and bone load transmission. Influence of peri-implant bone structure. In: Heimke, G., Soltész, U. & Lee, A.C.J., eds. Clinical Implant Materials, Vol 9: Advances in Biomaterials, 303-308. Amsterdam: Elsevier Science Publisher.
9. Lausmaa, J., Kasemo, B. & Mattsson, H. (1990) Surface spectroscopic characterization of titanium implant materials. Applied Surface Science 44: 133-146.
10. Martin, J.Y., Schwarz, Z., Hemmert, T.W., Schraub, D.M., Simpson, J., Lankford, J., Dean, D.D., Cochran, D.L. & Boyan, B.D. (1995) Effect of titanium surface roughness on proliferation, differentiation, and protein synthesis of human osteoblasts-like cells. Journal of Biomedical Material Research 29: 389-401.
11. Steinemann, S.G. (1991) The properties of titanium. In: Schroeder, A., Sutter, F. & Krekeler, G., eds. Oral Implantology, 37-58. Stuttgart: Thieme.
12. Szmukler-Moncler, S., Perrin, D., Ahossi, V. & Pointaire, P. (2001) Evaluation of BONIT, a fully resorbable CaP coating obtained by electrochemical deposition, after 6 weeks of healing: A pilot study in the pig maxilla. Key Engineering Materials, Volumes 192-195.
13. Szmukler-Moncler, S., Perrin, D., Bernard, J.P. & Pointaire, P. (1999) Biological properties of titanium acid etched surfaces: Effect of surface composition and surface alteration. Influence of sandblasting on bony anchorage. Clinical Oral Implants Research 10: 173.
14. Szmukler-Moncler, S. & Simpson, J.P. (1996) Physicochemical characterization of a titanium textured surface prepared by sandblasting and acid etching. Transactions of the 5th World Biomaterials Congress, May 29-June 2, 837. Toronto.
15. Taborelli, M., Jobin, P., François, P., Vaudaux, M., Tonetti, M., Szmukler-Moncler, S., Simpson, J.P. & Descouts, P. (1997) Influence of surface treatments developed for oral implants on the physical and biological properties of titanium. I. Surface characterization. Clinical Oral Implants Research 8: 208-216.
16. Wilke, H.J., Claes, L. & Steinemann, S.G. (1990) The influence of various titanium surfaces on the interface shear strenght between implants and bone. In: Heimke, G., Soltész, U. & Lee, A.J.C., eds. Clinical Implant Materials, Vol. 9: Advance in Biomaterials, 309-314. Amsterdam: Elsevier Science Publishers.
17. Wong, M., Eulenberger, J., Schenk, R. & Hunziker, E. (1995) Effect of surface topology on the osseointegration of implant materials in trabecular bone. Journal of Biomedical Material Research 29: 1567-1575.