中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2015年
3期
378-383
,共6页
薛震%牛丽媛%安刚%郭亚山%吕松岑
薛震%牛麗媛%安剛%郭亞山%呂鬆岑
설진%우려원%안강%곽아산%려송잠
生物材料%骨生物材料%纳米羟基磷灰石%壳聚糖%半水硫酸钙%骨髓间充质干细胞%骨缺损
生物材料%骨生物材料%納米羥基燐灰石%殼聚糖%半水硫痠鈣%骨髓間充質榦細胞%骨缺損
생물재료%골생물재료%납미간기린회석%각취당%반수류산개%골수간충질간세포%골결손
Subject headings:Tissue Engineering%Hydroxyapatites%Chitosan
背景:前期实验构建的可注射性纳米羟基磷灰石/壳聚糖/半水硫酸钙三维复合支架材料具有良好的理化性质。
<br> 目的:评估可注射性纳米羟基磷灰石/壳聚糖/半水硫酸钙复合骨髓间充质干细胞修复兔桡骨骨缺损的效果。
<br> 方法:在18只新西兰白兔双侧桡骨中段建立长10 mm的节段性缺损,将注射性纳米羟基磷灰石/壳聚糖/半水硫酸钙/骨髓间充质干细胞复合材料植入一侧骨缺损,作为实验组;另一侧植入单纯羟基磷灰石材料,作为对照组,于植入第4,8,12周末分别行大体、X射线检查与组织学观察。
<br> 结果与结论:植入第12周末,实验组骨缺损完全修复,桡骨形状基本恢复到术前形态,可见由两断端向中间有少许的骨髓腔再通,缺损区影像与正常骨组织已无区别,可见大量新生板层骨组织,哈佛氏系统形成,原缺损区被新生板层骨组织填充,骨组织相互连续,骨髓腔相通;对照组骨缺损未完全愈合,有部分骨皮质缺损,骨密度影略低于正常骨组织,部分骨髓腔再通,可见少量板层样骨组织形成,纤维组织填充。结果表明可注射式纳米羟基磷灰石/壳聚糖/半水硫酸钙人工骨复合骨髓间充质干细胞可促进骨缺损的修复。
揹景:前期實驗構建的可註射性納米羥基燐灰石/殼聚糖/半水硫痠鈣三維複閤支架材料具有良好的理化性質。
<br> 目的:評估可註射性納米羥基燐灰石/殼聚糖/半水硫痠鈣複閤骨髓間充質榦細胞脩複兔橈骨骨缺損的效果。
<br> 方法:在18隻新西蘭白兔雙側橈骨中段建立長10 mm的節段性缺損,將註射性納米羥基燐灰石/殼聚糖/半水硫痠鈣/骨髓間充質榦細胞複閤材料植入一側骨缺損,作為實驗組;另一側植入單純羥基燐灰石材料,作為對照組,于植入第4,8,12週末分彆行大體、X射線檢查與組織學觀察。
<br> 結果與結論:植入第12週末,實驗組骨缺損完全脩複,橈骨形狀基本恢複到術前形態,可見由兩斷耑嚮中間有少許的骨髓腔再通,缺損區影像與正常骨組織已無區彆,可見大量新生闆層骨組織,哈彿氏繫統形成,原缺損區被新生闆層骨組織填充,骨組織相互連續,骨髓腔相通;對照組骨缺損未完全愈閤,有部分骨皮質缺損,骨密度影略低于正常骨組織,部分骨髓腔再通,可見少量闆層樣骨組織形成,纖維組織填充。結果錶明可註射式納米羥基燐灰石/殼聚糖/半水硫痠鈣人工骨複閤骨髓間充質榦細胞可促進骨缺損的脩複。
배경:전기실험구건적가주사성납미간기린회석/각취당/반수류산개삼유복합지가재료구유량호적이화성질。
<br> 목적:평고가주사성납미간기린회석/각취당/반수류산개복합골수간충질간세포수복토뇨골골결손적효과。
<br> 방법:재18지신서란백토쌍측뇨골중단건립장10 mm적절단성결손,장주사성납미간기린회석/각취당/반수류산개/골수간충질간세포복합재료식입일측골결손,작위실험조;령일측식입단순간기린회석재료,작위대조조,우식입제4,8,12주말분별행대체、X사선검사여조직학관찰。
<br> 결과여결론:식입제12주말,실험조골결손완전수복,뇨골형상기본회복도술전형태,가견유량단단향중간유소허적골수강재통,결손구영상여정상골조직이무구별,가견대량신생판층골조직,합불씨계통형성,원결손구피신생판층골조직전충,골조직상호련속,골수강상통;대조조골결손미완전유합,유부분골피질결손,골밀도영략저우정상골조직,부분골수강재통,가견소량판층양골조직형성,섬유조직전충。결과표명가주사식납미간기린회석/각취당/반수류산개인공골복합골수간충질간세포가촉진골결손적수복。
BACKGROUND:Nano-hydroxyapatite/chitosan/calcium sulphate hemihydrate (nHA/CS/CSH) composite scaffold constructed in preliminary experiments has good physical and chemical properties.
<br> OBJECTIVE:To explore the effects of injectable nHA/CS/CSH scaffold co-cultured with bone marrow mesenchymal stem cels (nHA/CS/CSH/BMSCs) for repairing rabbit’s radial bone defects.
<br> METHODS:Bone defects with the length of 10 mm were created on the middle of the bilateral radial bones of 18 New Zealand white rabbits. The defects were filed with the nHA/CS/CSH/BMSCs composite as treatment group, while the others were filed with HA as controls. The ability of repairing bone defects was evaluated by gross, X-ray and histopathological observation at 4, 8, 12 weeks after implantation.
<br> RESULTS AND CONCLUSION:At the end of 12 weeks after implantation, in the treatment group, bone defects were completely repaired, the radial bone showed normal morphology, the bone marrow cavity was recanalized a ittle from both ends toward the middle, images in the defect area had no difference from normal bone tissues, a large amount of new lamelar bone tissues were visible, the Harvard’s system formed, the original defects were filed with newborn lamelar bone tissues, bone tissues were interconnected, and the bone marrow cavities was interlinked; in the control group, bone defect was repaired partly, the bone mineral density was lower than that of the normal bone tissue, the bone marrow cavities were recanalized partialy, and a few of new lamelar bone tissues, accompanied with connective tissues growing into the defects. The nHA/CS/CSH/BMSCs is effective for the repair of bone defects.
