中华创伤骨科杂志
中華創傷骨科雜誌
중화창상골과잡지
CHINESE JOURNAL OF ORTHOPAEDIC TRAUMA
2009年
2期
166-169
,共4页
杨成林%杨宝峰%毕郑钢%付春江%韩昕光
楊成林%楊寶峰%畢鄭鋼%付春江%韓昕光
양성림%양보봉%필정강%부춘강%한흔광
组织工程%骨缺损%组织学
組織工程%骨缺損%組織學
조직공정%골결손%조직학
Tissue engineering%Bone defect%Histology
目的 应用影像学和组织学方法联合追踪观察组织工程骨成骨及修复骨缺损的过程,并加以分析评价. 方法抽取兔自体骨髓基质干细胞于体外培养增殖,并与煅烧骨复合培养1周后,将其植入12 mm长桡骨缺损区,于术后4、8、12周采用放射线、CT断层扫描、三维重建进行形态学观察,之后取材行组织学检查. 结果组织工程骨植入术后随时间延长逐渐成骨并修复骨缺损,术后12周时,放射线和CT见骨折线完全消失,组织工程骨密度与正常桡骨相近,外形平整、曲线光滑,与正常桡骨完全融为一体;组织学上见成熟骨小梁规则排列,骨结构成熟,板层状皮质骨形成,支架组织松散,呈部分降解状. 结论联合应用放射线、CT断层扫描、三维重建以及组织学检查是全程、系统、细致地观察组织工程骨成骨及其修复骨缺损过程科学、可靠的方法.
目的 應用影像學和組織學方法聯閤追蹤觀察組織工程骨成骨及脩複骨缺損的過程,併加以分析評價. 方法抽取兔自體骨髓基質榦細胞于體外培養增殖,併與煅燒骨複閤培養1週後,將其植入12 mm長橈骨缺損區,于術後4、8、12週採用放射線、CT斷層掃描、三維重建進行形態學觀察,之後取材行組織學檢查. 結果組織工程骨植入術後隨時間延長逐漸成骨併脩複骨缺損,術後12週時,放射線和CT見骨摺線完全消失,組織工程骨密度與正常橈骨相近,外形平整、麯線光滑,與正常橈骨完全融為一體;組織學上見成熟骨小樑規則排列,骨結構成熟,闆層狀皮質骨形成,支架組織鬆散,呈部分降解狀. 結論聯閤應用放射線、CT斷層掃描、三維重建以及組織學檢查是全程、繫統、細緻地觀察組織工程骨成骨及其脩複骨缺損過程科學、可靠的方法.
목적 응용영상학화조직학방법연합추종관찰조직공정골성골급수복골결손적과정,병가이분석평개. 방법추취토자체골수기질간세포우체외배양증식,병여단소골복합배양1주후,장기식입12 mm장뇨골결손구,우술후4、8、12주채용방사선、CT단층소묘、삼유중건진행형태학관찰,지후취재행조직학검사. 결과조직공정골식입술후수시간연장축점성골병수복골결손,술후12주시,방사선화CT견골절선완전소실,조직공정골밀도여정상뇨골상근,외형평정、곡선광활,여정상뇨골완전융위일체;조직학상견성숙골소량규칙배렬,골결구성숙,판층상피질골형성,지가조직송산,정부분강해상. 결론연합응용방사선、CT단층소묘、삼유중건이급조직학검사시전정、계통、세치지관찰조직공정골성골급기수복골결손과정과학、가고적방법.
Objective To evaluate the effects of imageology and histology in characterizing tissue engineering repair of bone defects in rabbits. Methods The autologous bone marrow stroma cells (BMSCs) were obtained from the rabbits and cultured in vitro. After proliferation, the cells were incubated together with true bone ceramic (TBC) for 1 week, which were then imbedded into the 12 mm defects to repair the radius. X-ray and computer tomography (CT) exams and three-dimensional reconstruction were performed at 4, 8 and 12 weeks postoperatively for morphological observation before histological examination of the cells. Results After engineering repair, bone formation completed gradually and the defects of the bone were repaired. At 12 weeks postoperatively, X-ray and CT showed that the fracture lines disappeared completely, and the density of the engineering bone was similar to that of the normal radius. The smooth repaired bone grew into the normal radius. Histological examination showed regular arrangement of the mature bone trabecula and architecture, formation of the lamellar cortical bone. and partial degradation of the framework. Conclusion Combined application of radiography, CT, three-dimensional reconstruction and histology is a scientific and reliable method for characterization of tissue engineering repair of bone defects.