J Korean Acad Periodontol.  1998 Sep;28(3):431-451. 10.5051/jkape.1998.28.3.431.

Guided Bone Regeneration with a PDGF-BB-loaded Resorbable Membrane in the Dehisced Implant of the Beagle Dog

Affiliations
  • 1Department of Periodontology, College of Dentistry, Kyunghee University, Korea.
  • 2Department of Periodontology, College of Dentistry, Seoul National University, Korea.
  • 3College of Pharmacy, Ewha Women's University, Korea.

Abstract

4 beagle dogs aged over one and half years and weighed 15 to 16 Kg were utilized in this study. Experimental dehiscent defects were made in the mandibular edentulous area after removal of lower premolar. e-PTFE membrane resorbable membrane, and PDGF-BB-loaded resorbable membrane were covered at the dehiscent defects around the dental implants respectively. Animal was sacrificed at 1, 2, 3 months respectively. Non-decalicifed specimens were made and mutiple-stained for light microscopic study. The results were as follows: 1. Dehiscent defects around the implant installed in the beagle dog were an excellent defect model for studying guided bone regeneration. 2. Fibroblasts penetrated into expanded-PTFE membrane was observed and inflammatory cell infiltration was also observed around the membrane. 3. Resorbable membrane was degradaded and resorbed at 1 month after application to the dehiscent defect. Though multinucleated giant cells were observed adjacent to the membrane, that had no reverse effect on the bone regeneration. 4. PDGF-BB-loaded resorbable membrane was same capability as the resorbable membrane and e-PTFE membrane in the guided bone regeneration. 5. PDGF-BB-loaded resorbable membrane-applied site was better than resorbable membrane-applied site in the speed and maturity of bone formation. Within the above results, it was suggested that PDGF-BB-loaded resorbable membrane might have same bone regeneration capacity as nonresorbable membrane in the dehisced implant of the beagle dog and potentiality to use in human subjects.


MeSH Terms

Animals
Bicuspid
Bone Regeneration*
Dental Implants
Dogs*
Fibroblasts
Giant Cells
Humans
Membranes*
Osteogenesis
Dental Implants
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