Tetracycline loaded bio-derived bone to repair bone defect
- VernacularTitle:四环素-胶原生物衍生骨缓释材料修复骨缺损
- Author:
Jun LIANG
;
Jingyi XIN
;
Hongbin CAO
- Publication Type:Journal Article
- From:
Chinese Journal of Tissue Engineering Research
2007;0(14):-
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND: Compound materials have strong osteogenic ability, which reinforce the substitute materials used alone. Compound material will be commonly used to repair bone defects in tissue engineering. OBJECTIVE: To explore the osteogenic capacity of tetracycline loaded bio-derived bone in vivo. DESIGN, TIME AND SETTING: The randomized controlled observation was performed at Tissue Engineering Laboratory (State Key Laboratory) of West China Center of Medical Sciences, Sichuan University from September 2004 to January 2005. MATERIALS: Twenty-four New Zealand white rabbits were randomly divided into 2 groups (n=12). Rabbit models of radial middle segment defect (1.5 cm) were established. Tetracycline collagen bio-derived bone was made of fresh human bone. METHODS: The tetracycline collagen bio-derived bone was implanted into radial defects of experimental group, and collagen bio-derived bone was implanted into control group. All rabbits were executed 6 and 12 weeks after operation. MAIN OUTCOME MEASURES: Osteogenic condition in all specimens was examined by X-ray and histological methods. RESULTS: Twenty-four animals were included in final analysis. ①X-ray results showed that osteotylus was seen in the whole defect area of the experimental group in postoperative 6 weeks, while only in the defect ends of the control group. In 12 weeks after surgery, new bone tissue filled all defect area of the experimental group, which was basically consistent with normal bone, even medullary canal was formed. Osteogenic images were found in the control group. ②Histological results suggested that new osteoid formation was observed in internal pore zone in the experimental group in 6 weeks, while no bone tissue was found in the control group. In 12 weeks, much woven bone was seen in the experimental group, and lamellar bone structure had formed and medullary cavity of bones had transfixed. Osteoid formation was observed in the control group. CONCLUSION: Both tetracycline collagen bio-derived bone and collagen bio-derived bone can promote bone formation, but tetracycline loaded bio-derived materials show superior effect in repairing defects.
