Influence of external fixation by small splint versus Internal fixation by steel plate on osteogenetlc activity of fracture bones☆
- VernacularTitle:小夹板外固定与钢板内固定材料置入对骨折断端成骨活性的影响
- Author:
Ying LI
;
Ji ZOU
;
Yong XIONG
- Publication Type:Journal Article
- From:
Chinese Journal of Tissue Engineering Research
2008;12(13):2576-2578
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND: Fixation of bone fracture is one of the fundamental methods for bone fracture healing. The technique of AO has a lot of defects, such as negative effect induced by "stress dodging". Recently, the technique of CO is praised highly by national and international scholars. OBJECTIVE: To observe the influence of external fixation of small splint on healing of long bone fracture of rabbit, and compare to the internal fixation of steel plate.DESIGN: Randomized and controlled animal trial. SETTING: Research Institute of Orthopedics, Hubei College of Traditional Chinese Medicine.MATERIALS: The experiment was performed at the Laboratory of Orthopedics, Hubei College of Traditional Chinese Medicine from April 2006 to April 2007. Thirty rabbits were randomly divided into small splint fixation group and steel plate fixation group with 15 rabbits in each group. Small splint was self-made of fir-barks with good elasticity, and composed of exterior, interior, front and back splints. The upper part of the splint was wide and the lower part was narrow. We sting an eyelet in the small splint that is used in front and behind part. A hole was drilled in the front and back splints close to the tubercle of tibia. Steel plate was provided by Jiangsu Golden Deer Group (Type HA2.0). METHODS: The standard models of transverse fracture of 3 mm in the meta-infer 1/3 of left tibia were established. In small splint fixation group (SSF group), the fracture was fixed by plaster stone, and 5 days later, replaced by external fixation of small splint. The steel fixation group (SF group) was fixed by steel plate with 4 holes. Animals were executed 14, 24, and 34 days after surgery, respectively. The growth condition of bony callus in fracture sites was observed, and the histomorphology of bony callus and bone cell production during fracture healing was observed. MAIN OUTCOME MEASURES: Macroscopic observation of rabbit tibial bony callus, and histomorphology of bony callus and bone cell formation. RESULTS: In SSF group, the bony callus formed early, and there were plentiful and active osteoblast. Thirty-four days after surgery, bony union was observed in fracture sites. In SF group, there was little fibrous bony callus in the fracture ends 14 days after surgery, accompanied by granulation tissue. Twenty-four days after surgery, sparing cartilage synostosis was observed. On day 34 days, bony callus span the fracture ends, but fracture ends did not connect completely yet. Compared with the SF group, the quantity of bony callus and the speed of fracture healing were superior in SSF group. CONCLUSION: The external fixation of small splint can promote osteoblastic differentiation and proliferation, absorption of hematoma, calcification of the bony callus, and the growth and rebuilding of bone trabecula.
