中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2013年
40期
7047-7053
,共7页
干细胞%脂肪干细胞%成骨细胞%支架材料%可吸收明胶海绵%生物相容性%生物材料%扫描电镜%生物载体%组织工程%干细胞图片文章
榦細胞%脂肪榦細胞%成骨細胞%支架材料%可吸收明膠海綿%生物相容性%生物材料%掃描電鏡%生物載體%組織工程%榦細胞圖片文章
간세포%지방간세포%성골세포%지가재료%가흡수명효해면%생물상용성%생물재료%소묘전경%생물재체%조직공정%간세포도편문장
背景:在骨组织工程中寻找优良的种子细胞和支架材料非常重要。目前尚未见脂肪干细胞与可吸收明胶海绵在体外进行复合培养的相关报道。<br> 目的:诱导脂肪干细胞成骨细胞后,观察其在可吸收明胶海绵上的黏附、增殖情况以及两者的生物相容性,以期为可吸收明胶海绵作为脂肪干细胞的有效载体进行体内移植提供实验基础。<br> 方法:体外培养脂肪干细胞,通过免疫组织化学及流式细胞术对其进行鉴定。取第3代脂肪干细胞对其成骨诱导分化,将其接种于多聚赖氨酸处理后的可吸收明胶海绵,进行扫描电镜观察,观察其在明胶海绵上的黏附、生长情况。<br> 结果与结论:兔脂肪干细胞48 h内呈圆形、椭圆形贴壁生长,以后逐渐呈长梭形贴壁生长,阳性表达CD29、CD44,阴性表达CD33、CD34。在加入成骨诱导液培养3 d后,脂肪干细胞可诱导为成骨细胞,将诱导后的成骨细胞与可吸收明胶海绵复合培养,24 h可见85%以上已黏附生长,48 h见成骨细胞伸出伪足,7 d见成骨细胞已呈片状黏附生长并分泌大量细胞基质,10 d可见可吸收明胶海绵已开始吸收、降解。提示脂肪干细胞与可吸收明胶海绵具有良好的组织相容性,可吸收明胶海绵可以作为脂肪干细胞的生物载体。
揹景:在骨組織工程中尋找優良的種子細胞和支架材料非常重要。目前尚未見脂肪榦細胞與可吸收明膠海綿在體外進行複閤培養的相關報道。<br> 目的:誘導脂肪榦細胞成骨細胞後,觀察其在可吸收明膠海綿上的黏附、增殖情況以及兩者的生物相容性,以期為可吸收明膠海綿作為脂肪榦細胞的有效載體進行體內移植提供實驗基礎。<br> 方法:體外培養脂肪榦細胞,通過免疫組織化學及流式細胞術對其進行鑒定。取第3代脂肪榦細胞對其成骨誘導分化,將其接種于多聚賴氨痠處理後的可吸收明膠海綿,進行掃描電鏡觀察,觀察其在明膠海綿上的黏附、生長情況。<br> 結果與結論:兔脂肪榦細胞48 h內呈圓形、橢圓形貼壁生長,以後逐漸呈長梭形貼壁生長,暘性錶達CD29、CD44,陰性錶達CD33、CD34。在加入成骨誘導液培養3 d後,脂肪榦細胞可誘導為成骨細胞,將誘導後的成骨細胞與可吸收明膠海綿複閤培養,24 h可見85%以上已黏附生長,48 h見成骨細胞伸齣偽足,7 d見成骨細胞已呈片狀黏附生長併分泌大量細胞基質,10 d可見可吸收明膠海綿已開始吸收、降解。提示脂肪榦細胞與可吸收明膠海綿具有良好的組織相容性,可吸收明膠海綿可以作為脂肪榦細胞的生物載體。
배경:재골조직공정중심조우량적충자세포화지가재료비상중요。목전상미견지방간세포여가흡수명효해면재체외진행복합배양적상관보도。<br> 목적:유도지방간세포성골세포후,관찰기재가흡수명효해면상적점부、증식정황이급량자적생물상용성,이기위가흡수명효해면작위지방간세포적유효재체진행체내이식제공실험기출。<br> 방법:체외배양지방간세포,통과면역조직화학급류식세포술대기진행감정。취제3대지방간세포대기성골유도분화,장기접충우다취뢰안산처리후적가흡수명효해면,진행소묘전경관찰,관찰기재명효해면상적점부、생장정황。<br> 결과여결론:토지방간세포48 h내정원형、타원형첩벽생장,이후축점정장사형첩벽생장,양성표체CD29、CD44,음성표체CD33、CD34。재가입성골유도액배양3 d후,지방간세포가유도위성골세포,장유도후적성골세포여가흡수명효해면복합배양,24 h가견85%이상이점부생장,48 h견성골세포신출위족,7 d견성골세포이정편상점부생장병분비대량세포기질,10 d가견가흡수명효해면이개시흡수、강해。제시지방간세포여가흡수명효해면구유량호적조직상용성,가흡수명효해면가이작위지방간세포적생물재체。
BACKGROUND:It is particularly important to search favorable scaffolds and seed cells in bone tissue engineering. However, no existing studies have reported the co-culture of adipose-derived stem cells and absorbable gelatin sponge. <br> OBJECTIVE:To induce rabbit adipose-derived stem cells to osteoblasts, observe the adhesion, proliferation and biological characteristics of adipose-derived stem cells on absorbable gelatin sponge, and to provide experimental base for absorbable gelatin sponge as an effective carrier of fat stem cells transplantation in vivo. <br> METHODS:Adipose-derived stem cells were cultured in vitro and identified with immunohistochemistry and flow cytometry. The passage 3 adipose-derived stem cells were induced to differentiate into osteoblasts and then seeded onto absorbable gelatin sponge after treatment with polylysine. The adhesion and proliferation of adipose-derived stem cells on scaffolds were observed under scanning electron microscope. <br> RESULTS AND CONCLUSION:The rabbit adipose-derived stem cells were mainly round and oval shaped at 48 hours, and became long spindle shaped after 48 hours. Adipose-derived stem cells were positive for CD29 and CD44, and negative for CD33 and CD34. Adipose-derived stem cells can be induced to differentiate into osteoblasts after culture in the osteogenesis induced fluid for 72 hours. The induced osteoblasts that were co-cultured with absorbable gelatin sponge had an 85%adherence rate at 24 hours. The cells began to extend pseudopodium at 48 hours, and osteoblasts adhered in clumps and secreted a large amount of cellmatrix at 7 days. Absorbable gelatin sponge began to absorb and degrade. Experimental findings indicate that, adipose-derived stem cells have good histocompatibility with absorbable gelatin sponge, and absorbable gelatin sponge can be used as a biological carrier of adipose-derived stem cells.
