Regeneration of Artificial Bone Defects by Allograft of Demineralized Bone and Bone Particles in Rabbits.
- Author:
Sunhun KIM
1
;
Hyunjin KIM
;
Minseok KIM
;
Kohoon CHUNG
;
Jeong Tae KOH
;
Kiheon LEE
;
Won Jae KIM
;
Eunjoo LEE
;
Baikyoon KIM
Author Information
1. College of Dentistry and Dental Science Research Institute, Korea.
- Publication Type:Original Article
- Keywords:
Bone matrix;
Bone regeneration
- MeSH:
Adult;
Allografts*;
Bone Matrix;
Bone Regeneration;
Fibrin;
Humans;
Microscopy;
Osteoblasts;
Osteogenesis;
Rabbits*;
Regeneration*;
Tibia;
Transplants
- From:Korean Journal of Anatomy
2001;34(2):193-206
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
Since bone matrix is known to contain osteoinductive substance, many studies have been carried out for its clinical applications. But there are still controversies about its regeneration effects and bone induction. This study was performed to compare the bone induction and regeneration between bone matrix particles (BMP) and demineralized bone matrix particles (DMP). About 700 mm BMP and DMP were made from long bone of adult rabbit. They were allografted into the artificial defect formed at medial surface of tibia and observed using LM and fluorescent microscopy. More fibrin networks and osteoblasts were formed in the graft groups than in control group after 3 days of graft. At one week after graft active endochondral and intramembranous ossification were taking place by osteoinduction around the DMP, whereas osteoinduction is rarely seen around the BMP. Most of regenerated trabecular bone was replaced by immature lamellar bone in DMP group, while some amount of fibrous and trabecular structures still remained in the defect in BMP group at 4 weeks after graft. More rapid bone regeneration and maturity were seen in DMP grafted group than in BMP grafted and control groups in fluorescent microscopy at each week after graft. These results suggest that demineralized bone matrix graft is more effective than that of mineralized bone matrix in regeneration of bone defect and endochondral bone formation is not necessary in osteoinduction.
