中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2014年
12期
1932-1937
,共6页
杨柳%姜南%徐扬阳%朱梦琳%曹菁
楊柳%薑南%徐颺暘%硃夢琳%曹菁
양류%강남%서양양%주몽림%조정
生物材料%材料相容性%聚四氟乙烯%人脂肪干细胞%支架%组织工程%生物相容性
生物材料%材料相容性%聚四氟乙烯%人脂肪榦細胞%支架%組織工程%生物相容性
생물재료%재료상용성%취사불을희%인지방간세포%지가%조직공정%생물상용성
biocompatible materials%polytetrafluoroethylene%stem cells%materials testing
背景:膨体聚四氟乙烯多孔高分子聚合材料是临床常用的植入假体,具有良好的生物相容性,不易变形、变质,不产生炎症吸收反应,可允许细胞游走和组织向内生长。<br> 目的:观察人脂肪干细胞与膨体聚四氟乙烯材料的生物相容性。<br> 方法:将第4代人脂肪干细胞与膨体聚四氟乙烯体外复合培养,采用倒置相差显微镜观察细胞在支架上黏附、生长及增殖情况,计算细胞黏附率,MTT比色法检测细胞增殖率。<br> 结果与结论:刚接种的细胞呈圆形透亮,在支架材料表面分布均匀,细胞活性佳,3 h后大量细胞贴壁,24 h后可见少量呈短梭形的脂肪干细胞贴壁,3d首次换液,细胞清晰可见,低密度生长时呈短梭形或多角形,分布均匀,种植7 d后细胞数量明显增加,极少细胞从支架上掉落,细胞黏附率平均达95.7%,并且细胞仍保持正常的分裂增殖速度。说明膨体聚四氟乙烯材料具有良好的细胞相容性,可作为脂肪组织工程的种子。
揹景:膨體聚四氟乙烯多孔高分子聚閤材料是臨床常用的植入假體,具有良好的生物相容性,不易變形、變質,不產生炎癥吸收反應,可允許細胞遊走和組織嚮內生長。<br> 目的:觀察人脂肪榦細胞與膨體聚四氟乙烯材料的生物相容性。<br> 方法:將第4代人脂肪榦細胞與膨體聚四氟乙烯體外複閤培養,採用倒置相差顯微鏡觀察細胞在支架上黏附、生長及增殖情況,計算細胞黏附率,MTT比色法檢測細胞增殖率。<br> 結果與結論:剛接種的細胞呈圓形透亮,在支架材料錶麵分佈均勻,細胞活性佳,3 h後大量細胞貼壁,24 h後可見少量呈短梭形的脂肪榦細胞貼壁,3d首次換液,細胞清晰可見,低密度生長時呈短梭形或多角形,分佈均勻,種植7 d後細胞數量明顯增加,極少細胞從支架上掉落,細胞黏附率平均達95.7%,併且細胞仍保持正常的分裂增殖速度。說明膨體聚四氟乙烯材料具有良好的細胞相容性,可作為脂肪組織工程的種子。
배경:팽체취사불을희다공고분자취합재료시림상상용적식입가체,구유량호적생물상용성,불역변형、변질,불산생염증흡수반응,가윤허세포유주화조직향내생장。<br> 목적:관찰인지방간세포여팽체취사불을희재료적생물상용성。<br> 방법:장제4대인지방간세포여팽체취사불을희체외복합배양,채용도치상차현미경관찰세포재지가상점부、생장급증식정황,계산세포점부솔,MTT비색법검측세포증식솔。<br> 결과여결론:강접충적세포정원형투량,재지가재료표면분포균균,세포활성가,3 h후대량세포첩벽,24 h후가견소량정단사형적지방간세포첩벽,3d수차환액,세포청석가견,저밀도생장시정단사형혹다각형,분포균균,충식7 d후세포수량명현증가,겁소세포종지가상도락,세포점부솔평균체95.7%,병차세포잉보지정상적분렬증식속도。설명팽체취사불을희재료구유량호적세포상용성,가작위지방조직공정적충자。
BACKGROUND:Expanded polytetrafluoroethylene is a kind of porous polymer materials which is commonly used as clinical implants, and it has good biocompatibility, and is not easy to deformation or metamorphism. There is no existence of inflammation absorption reaction, and it al ows the cel migration and tissue ingrowth. <br> OBJECTIVE:To study the biocompatibility of expanded polytetrafluoroethylene scaffold and human adipose-derived stem cel s. <br> METHODS:The passage 4 human adipose-derived stem cel s were co-cultured with expanded polytetrafluoroethylene scaffold in vitro. The morphology and function of cel s adhered to the scaffold were observed by inverted phase contrast microscope, and cel adhesive rates and proliferation rates were also calculated by MTT assay. <br> RESULTS AND CONCLUSION:The inoculated cel s were round and bright, distributed on the surface of scaffolds uniformly, with good cel viability. After 3 hours a large number of adherent cel s were observed from the micrograph;after 24 hours there were a smal amount of short-spindle adipose-derived stem cel s. After cultured for 3 days, the short fusiform or polygon cel s could be seen clearly. After cultured for 7 days, the number of cel s increased significantly, few cel s fel off from the scaffold, and cel adhesion rate was up to an average of 95.7%. Meanwhile, the cel s revealed normal splitting proliferation rate. These findings indicate that human adipose-derived stem cel s are able to attach, grow and proliferate wel on the scaffold. Expanded polytetrafluoroethylene reveals excel ent cel ular compatibility and can be used as a vehicle for adipose tissue engineering.
