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Early bone formation adjacent to rough and turned endosseous implant surfaces. An experimental study in the dog

Artikel i vetenskaplig tidskrift
Författare Ingemar Abrahamsson
Tord Berglundh
Elena Linder
Niklaus P. Lang
Jan Lindhe
Publicerad i Clinical Oral Implants Research
Volym 15
Nummer/häfte 4
Sidor 381-92
Publiceringsår 2004
Publicerad vid Odontologiska institutionen
Odontologiska institutionen, Avdelningen för parodontologi
Sidor 381-92
Språk en
Länkar dx.doi.org/10.1111/j.1600-0501.2004...
Ämnesord Animals, Bone and Bones/anatomy & histology, Dental Etching, Dental Implants, Dental Polishing, Dogs, Models, Animal, Osseointegration, Osteogenesis, Research Support, Non-U.S. Gov't, Surface Properties
Ämneskategorier Parodontologi


OBJECTIVE: To validate a proposed model (Berglundh et al. 2003) and to evaluate the rate and degree of osseointegration at turned (T) and sand blasted and acid etched (SLA) implant surfaces during early phases of healing. MATERIAL AND METHODS: The devices used for the study of early healing had a geometry that corresponded to that of a solid screw implant with either a SLA or a T surface configuration. A circumferential trough had been prepared within the thread region (intra-osseous portion) that established a geometrically well-defined wound chamber. Twenty Labrador dogs received totally 160 experimental devices to allow the evaluation of healing between 2 h and 12 weeks. Both ground and decalcified sections were prepared from mesial/distal and buccal/lingual device sites. Histometric and morphometric analyses of the ground sections and morphometric analysis of the tissue components in decalcified sections were performed. RESULTS: The ground sections provided an overview of the various phases of tissue formation, while the decalcified, thin sections enabled a more detailed study of events involved in bone tissue modeling and remodeling for both SLA and T surfaces. The initially empty wound chamber became occupied with a coagulum and a granulation tissue that was replaced by a provisional matrix. The process of bone formation started already during the first week. The newly formed bone present at the lateral border of the cut bony bed appeared to be continuous with the parent bone, but on the SLA surface woven bone was also found at a distance from the parent bone. Parallel-fibered and/or lamellar bone as well as bone marrow replaced this primary bone after 4 weeks. In the SLA chambers, more bone-to-device contact, more initial woven bone and earlier lamellar bone formation was found than in the T chambers. CONCLUSION: Osseointegration represents a dynamic process both during its establishment and its maintenance. While healing showed similar characteristics with resorptive and appositional events for both SLA and T surfaces, the rate and degree of osseointegration were superior for the SLA compared with the T chambers.

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