中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2012年
51期
9579-9583
,共5页
丁志勇%林永新%吴波文%孙国栋%焦延鹏%李志忠%周长忍
丁誌勇%林永新%吳波文%孫國棟%焦延鵬%李誌忠%週長忍
정지용%림영신%오파문%손국동%초연붕%리지충%주장인
壳聚糖%磷酸钙%骨形态发生蛋白%碱性成纤维细胞生长因子%骨髓间充质干细胞%脊柱融合
殼聚糖%燐痠鈣%骨形態髮生蛋白%堿性成纖維細胞生長因子%骨髓間充質榦細胞%脊柱融閤
각취당%린산개%골형태발생단백%감성성섬유세포생장인자%골수간충질간세포%척주융합
背景:前期实验已经证明壳聚糖-磷酸钙/骨形态发生蛋白2复合材料能够促进兔脊柱融合.
目的:评价壳聚糖-磷酸钙/骨形态发生蛋白2/碱性成纤维细胞生长因子支架材料在兔椎间融合中的应用效果.
方法:制备壳聚糖-磷酸钙/骨形态发生蛋白2/碱性成纤维细胞生长因子支架材料,并与大鼠骨髓间充质干细胞在体外构成组织工程骨.摘除40只新西兰大白兔椎间盘,随机分为4组:空白对照组未植入任何材料,对照组植入自体髂骨,支架材料组植入壳聚糖-磷酸钙/骨形态发生蛋白2/碱性成纤维细胞生长因子复合材料,实验组植入组织工程骨材料.
结果与结论:术后12周:①X射线片:对照组与实验组椎体融合,两组间融合节段生物力学强度大致相同,生物力学强度高于空白对照组与支架材料组(P <0.05),且支架材料组高于空白对照组(P <0.05).②组织学切片:实验组与对照组有编织骨岛和新生毛细血管生成,支架材料组仅观察到壳聚糖支架网络,空白对照组未发现特殊组织结构.表明壳聚糖-磷酸钙/骨形态发生蛋白2/碱性成纤维细胞生长因子复合鼠骨髓间充质干细胞能够明显促进脊柱融合.
揹景:前期實驗已經證明殼聚糖-燐痠鈣/骨形態髮生蛋白2複閤材料能夠促進兔脊柱融閤.
目的:評價殼聚糖-燐痠鈣/骨形態髮生蛋白2/堿性成纖維細胞生長因子支架材料在兔椎間融閤中的應用效果.
方法:製備殼聚糖-燐痠鈣/骨形態髮生蛋白2/堿性成纖維細胞生長因子支架材料,併與大鼠骨髓間充質榦細胞在體外構成組織工程骨.摘除40隻新西蘭大白兔椎間盤,隨機分為4組:空白對照組未植入任何材料,對照組植入自體髂骨,支架材料組植入殼聚糖-燐痠鈣/骨形態髮生蛋白2/堿性成纖維細胞生長因子複閤材料,實驗組植入組織工程骨材料.
結果與結論:術後12週:①X射線片:對照組與實驗組椎體融閤,兩組間融閤節段生物力學彊度大緻相同,生物力學彊度高于空白對照組與支架材料組(P <0.05),且支架材料組高于空白對照組(P <0.05).②組織學切片:實驗組與對照組有編織骨島和新生毛細血管生成,支架材料組僅觀察到殼聚糖支架網絡,空白對照組未髮現特殊組織結構.錶明殼聚糖-燐痠鈣/骨形態髮生蛋白2/堿性成纖維細胞生長因子複閤鼠骨髓間充質榦細胞能夠明顯促進脊柱融閤.
배경:전기실험이경증명각취당-린산개/골형태발생단백2복합재료능구촉진토척주융합.
목적:평개각취당-린산개/골형태발생단백2/감성성섬유세포생장인자지가재료재토추간융합중적응용효과.
방법:제비각취당-린산개/골형태발생단백2/감성성섬유세포생장인자지가재료,병여대서골수간충질간세포재체외구성조직공정골.적제40지신서란대백토추간반,수궤분위4조:공백대조조미식입임하재료,대조조식입자체가골,지가재료조식입각취당-린산개/골형태발생단백2/감성성섬유세포생장인자복합재료,실험조식입조직공정골재료.
결과여결론:술후12주:①X사선편:대조조여실험조추체융합,량조간융합절단생물역학강도대치상동,생물역학강도고우공백대조조여지가재료조(P <0.05),차지가재료조고우공백대조조(P <0.05).②조직학절편:실험조여대조조유편직골도화신생모세혈관생성,지가재료조부관찰도각취당지가망락,공백대조조미발현특수조직결구.표명각취당-린산개/골형태발생단백2/감성성섬유세포생장인자복합서골수간충질간세포능구명현촉진척주융합.
BACKGROUND:Preliminary experiments have shown that chitosan-calcium phosphate/bone morphogenetic protein-2/basic fibroblast growth factor (CS-CPC/BMP-2/bFGF) scaffolds can promote the rabbit spinal fusion.
@@@@OBJECTIVE:To evaluate the effect of CS-CPC/BMP-2/bFGF scaffolds on spinal fusion in rabbits.
@@@@METHODS:The CS-CPC/BMP-2/bFGF scaffolds was produced and co-cultured with bone marrow mesenchymal stem cel s to form the tissue engineered bone in vitro. The intervertebral discs of 40 New Zealand white rabbits were removed, and then randomly divided into four groups:the control group was implanted with autogenous iliac bone, the scaffold group was implanted with CS-CPC/rhBMP-2/bFGF composites;the experimental group was implanted with tissue engineered bone-materials;the blank control group was not implanted with any material.
@@@@RESULTS AND CONCLUSION:After 12 weeks: ①X-ray examination showed the spinal fusion and the biomechanical strength of the fusion segments in the control group and the experimental group were similar, and the biomechanical strength in the control group and the experimental group was stronger than that in the blank control group and scaffolds group (P<0.05), and the scaffold group was stronger than the blank control group (P<0.05). ②Histological paraffin sections showed that the woven bone and new blood capil aries could be seen in the experimental group and the control group, and in the scaffold group, we only found the stent mesh of the chitosan;and in the blank control group, we did not find the special structure. The results showed that the CS-CPC/BMP-2/bFGF scaffold combined with bone marrow mesenchymal stem cel s could promote the spinal fusion significantly.
