共查询到19条相似文献,搜索用时 203 毫秒
1.
目的 :研究多孔纳米羟基磷灰石/聚酰胺66(nHA/PA66)骨修复材料作为骨组织工程支架复合基因重组人骨形态发生蛋白2(rhBMP2)后的成骨能力的变化,探讨加速nHA/PA66人工骨与受体骨愈合的方法。方法:选用新西兰大白兔双侧桡骨制作骨缺损模型,将nHA/PA66/rhBMP2复合材料植入左侧骨缺损处,右侧骨缺损以nHA/PA66植入作为实验对照,另做不植入任何材料的骨缺损空白对照。在1、2、4、8、12周各时相点分别进行大体观察、X线照片、组织学切片、免疫组化原位杂交进行检测图象分析。结果:nHA/PA66/BMP2与nHA/PA66组骨缺损均完全修复,而空白对照组骨缺损未见修复;2周时nHA/PA66与nHA/PA66/rhBMP2两组间原位杂交阳性细胞表达有统计学意义( P<0.05), 4周时nHA/PA66与nHA/PA66/rhBMP2两组间原位杂交阳性细胞表达无统计学意义( P>0.05),2周及4周实验和实验对照两组分别与空白对照组比较均无统计学意义( P>0.05),nHA/PA66/rhBMP2组较nHA/PA66组可加速人工骨/植入体/受体界面骨愈合。 结论:多孔nHA/PA66作为骨组织工程支架复合具有诱导成骨活性的rhBMP2后,增强了早期成骨能力,加速了其与受体骨的愈合。 相似文献
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目的:评价壳聚糖/碳酸钙三维复合材料(CS/CaCO3)和壳聚糖/羟基磷灰石复合材料(CS/HA)用于骨缺损修复的可行性.方法:家兔24只,随机分为对照、CS/CaCO3、CS/HA三组.左前肢去毛后,2%巴比妥钠(30mg/kg,iv)麻醉,距桡骨远端3cm处截骨1cm,形成骨缺损,分别植入相应材料.术后4w、8w、12w分别处死动物,X线摄片后,取骨缺损标本,进行大体与组织学观察.结果:术后4周植入块颜色变红,周围有较多量的新生骨样组织包裹,骨痂增多,向植入块内移行;术后8周,植入块周围有明显新骨生成,将材料分隔包围,新骨中央区可见材料呈蜂窝状残留.术后12周缺损区大部分编织骨被成熟的板层骨组织替代,并形成髓腔.结论:CS/CaCO3和CS/HA两种仿生复合材料能明显促进兔桡骨骨缺损修复,诱导骨痂生成. 相似文献
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为了确定绵羊羊膜上皮细胞在体内向骨组织的分化能力,实验在分离培养绵羊羊膜上皮细胞并对其进行干细胞特性的鉴定的基础上,制作新西兰大白兔桡骨13mm骨缺损模型,随机分组对其进行注射绵羊羊膜上皮细胞实验。高剂量组:移植细胞5×107个;低剂量组:移植细胞5×106个;对照组:生理盐水。细胞移植后2、4、8周拍摄X光片观察骨缺损部位的缺损修复情况;相应时段取骨缺损部位新生骨进行组织学观察:分析骨小梁生成数量和骨的改建时期。实验结果显示,高剂量实验组在移入细胞第8周,骨缺损完全修复,且同期高剂量组新骨生成的数量和质量明显高于低剂量组,低剂量组优于对照组。由此可见,绵羊羊膜上皮细胞不仅可以在不同种动物间进行移植,而且对骨缺损有良好的修复能力。 相似文献
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目的:通过建立兔股骨缺损的动物实验模型,对采用等温化学气相沉积法和等离子喷涂技术所制备的石墨化炭/炭复合材料+羟基磷灰石涂层(C/C+HA)复合骨植入材料进行骨植入实验的的生物相容性进行评价,探索该复合材料作为植入机体骨组织的可行性依据。方法:采用骨科钻在实验动物股骨髁上钻孔的方法建立骨缺损的动物实验模型,将待研究比较的实验材料分别植入实验动物的股骨髁内,持续观察8周,在术后第2、4、8周时应用X线照片、组织学染色和扫描电镜技术,分别观察所研究材料在机体内对骨缺损愈合及其对机体的影响,进行组间比较和相关性分析。结果:石墨化炭/炭复合材料+羟基磷灰石涂层(C/C+HA)复合骨植入材料的骨植入实验生物相容性良好,材料与骨组织结合牢固,界面中成骨细胞生长明显,且炭颗粒脱落现象少,未见炎症细胞浸润。植入动物体内的材料在植入期未引起机体局部的炎症浸润反应且表面脱落的碳颗粒在机体组织中也未引起局部严重的炎症反应。在实验动物植入材料后的连续8周观察期中,组织学观察显示:表面涂有HA的炭/炭复合材料对骨组织形态改建上表现良好,其与骨组织接界处所形成的纤维结缔组织膜层厚度明显比未涂HA的材料要小,与骨组织结合更为紧密和牢固;碳颗粒出现脱落游离的现象明显减少。结论:在炭/炭复合材料表面涂以HA生物涂层对骨的形态改建和促进骨小梁生长等方面具有良好的作用,是一种具有发展潜力的骨修复材料。 相似文献
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目的 近年来,眶骨骨折发生率逐年增加,其治疗关键旨在修复缺损的眶骨,聚(γ-谷氨酸)/2-羟乙基甲基丙烯酸酯/聚(乙二醇)(γ-PGA/HEMA/PEG)聚合物晶胶是一种具有互连多孔结构的新型支架材料,研究旨在检验其在眼眶骨折缺损修复中的骨修复效果。方法 采用低温凝胶技术制备了γ-PGA/HEMA/PEG聚合物晶胶。制备了兔的眼眶骨缺损模型,根据植入支架材料的不同分为3组,空白对照组、聚合物晶胶组(Gel组)、矿化聚合物晶胶组(M-gel组)。植入后8周和16周标本取材进行大体观察,通过影像学和组织学检查观察其血管生成和成骨效果。结果 影像学检查结果表明,支架材料能有效促进眶骨缺损的修复,缺损区被骨组织完全替代。组织学结果表明,支架材料可以增加Runt相关转录因子2(Runx-2)、碱性磷酸酶(ALP)、骨桥蛋白(OPN)和血小板内皮细胞黏附分子1(CD31)的表达,这表明支架材料植入后血管生成和成骨能力增强。结论 矿化聚合物晶胶是一种良好的眼眶骨折缺损修复的支架材料。 相似文献
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通过体内实验探讨纳米珍珠粉/壳聚糖-透明质酸(NPP/C-HA)复合支架的促成骨能力。采用双侧兔股骨远端骨缺损模型(直径7 mm,深度10 mm),通过大体标本、影像学检查、分子生物学检查及组织学检查来观察骨缺损的修复效果。发现各组均未出现明显不良组织反应;随观察时间增加实验组骨缺损区范围最小,在第8周和第12周数据的差异存在统计学意义(P<0.05);在第4周、6周、8周时实验组BALP含量与其他组比较P<0.05;实验组缺损区边缘出现更多的新生骨,但在骨质成熟度上未见明显差异。结果表明NPP/C-HA支架具有良好的生物相容性及促成骨作用,为进一步研究NPP/C-HA在骨组织工程中的作用提供了实验和理论基础。 相似文献
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目的:通过建立兔股骨缺损的动物实验模型,对采用等温化学气相沉积法和等离子喷涂技术所制备的石墨化炭/炭复合材料+羟基磷灰石涂层(C/C+HA)复合骨植入材料进行骨植入实验的的生物相容性进行评价,探索该复合材料作为植入机体骨组织的可行性依据.方法:采用骨科钻在实验动物股骨髁上钻孔的方法建立骨缺损的动物实验模型,将待研究比较的实验材料分别植入实验动物的股骨髁内,持续观察8周,在术后第2、4、8周时应用X线照片、组织学染色和扫描电镜技术,分别观察所研究材料在机体内对骨缺损愈合及其对机体的影响,进行组间比较和相关性分析.结果:石墨化炭/炭复合材料+羟基磷灰石涂层(C/C+HA)复合骨植入材料的骨植入实验生物相容性良好,材料与骨组织结合牢固,界面中成骨细胞生长明显,且炭颗粒脱落现象少,未见炎症细胞浸润.植入动物体内的材料在植入期未引起机体局部的炎症浸润反应且表面脱落的碳颗粒在机体组织中也未引起局部严重的炎症反应.在实验动物植入材料后的连续8周观察期中,组织学观察显示:表面涂有HA的炭/炭复合材料对骨组织形态改建上表现良好,其与骨组织接界处所形成的纤维结缔组织膜层厚度明显比未涂HA的材料要小,与骨组织结合更为紧密和牢固;碳颗粒出现脱落游离的现象明显减少.结论:在炭/炭复合材料表面涂以HA生物涂层对骨的形态改建和促进骨小梁生长等方面具有良好的作用,是一种具有发展潜力的骨修复材料. 相似文献
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胶原蛋白/BMP复合材料的制备和成骨性能研究 总被引:6,自引:0,他引:6
以胶原膜(含87.5 mg I型胶原蛋白)为载体, 复合3.5 mg rhBMP-2(人基因重组骨形成蛋白-2), 制备胶原蛋白/BMP复合材料。复合材料首先在兔背阔肌中埋置, 预构新生骨组织, 并采用ALP染色、Von Kossa染色和HE染色等观察复合材料的成骨过程和组织形态。然后将形成的新骨组织游离移植修复自体下颌骨体部洞穿性缺损; 并设以胶原为载体的rhBMP-2复合骨修复材料直接修复为对照组, 骨缺损不修复组为空白组。采用X线、抗压强度、硬组织切片、四环素荧光染色、骨形态计量检查, 观察复合材料修复骨缺损的质量和效果。结果表明, 胶原蛋白/BMP复合材料在兔背阔肌中4~6周成骨, 胶原材料于3~5周降解; 成骨过程为是以软骨成骨为主的方式, 新骨形态为编织骨, 可见明显的微血管分布; 游离移植修复自体下颌骨缺损, 6周缺损区为骨性愈合, 与对照组在抗压强度(P = 0.041)、新骨量(P = 0.034)均有显著性差异。胶原蛋白/BMP复合材料在骨骼肌中形成的新生骨组织可作为供骨修复一定范围的骨缺损。 相似文献
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以胶原膜(含87.5 mg I型胶原蛋白)为载体, 复合3.5 mg rhBMP-2(人基因重组骨形成蛋白-2), 制备胶原蛋白/BMP复合材料。复合材料首先在兔背阔肌中埋置, 预构新生骨组织, 并采用ALP染色、Von Kossa染色和HE染色等观察复合材料的成骨过程和组织形态。然后将形成的新骨组织游离移植修复自体下颌骨体部洞穿性缺损; 并设以胶原为载体的rhBMP-2复合骨修复材料直接修复为对照组, 骨缺损不修复组为空白组。采用X线、抗压强度、硬组织切片、四环素荧光染色、骨形态计量检查, 观察复合材料修复骨缺损的质量和效果。结果表明, 胶原蛋白/BMP复合材料在兔背阔肌中4~6周成骨, 胶原材料于3~5周降解; 成骨过程为是以软骨成骨为主的方式, 新骨形态为编织骨, 可见明显的微血管分布; 游离移植修复自体下颌骨缺损, 6周缺损区为骨性愈合, 与对照组在抗压强度(P = 0.041)、新骨量(P = 0.034)均有显著性差异。胶原蛋白/BMP复合材料在骨骼肌中形成的新生骨组织可作为供骨修复一定范围的骨缺损。 相似文献
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摘要 目的:研究国产多孔钽材料能否在兔胫骨缺损模型中顺利实现骨长入,用于修复胫骨缺损。方法:在36只新西兰大白兔双侧胫骨骨干处建立骨缺损模型,每只动物左右侧缺损随机分组,分别进入实验组(植入多孔坦材料)和对照组(不植入多孔坦材料)。植入后4周、8周和12周取材,通过X线检测以及硬组织切片苏木精伊红染色,检测多孔钽材料与骨界面的骨整合情况。采用推出实验检测多孔钽材料与骨界面的结合强度。结果:将术后不同时间点取得的胫骨标本作X射线拍片分析,4周时,骨缺损端与材料结合部位有骨质生成,在8周时材料表面有骨形成现象,逐渐完全覆盖材料表面,在12周时骨量继续增加,形成覆盖材料并桥接骨缺损断端的骨痂。样本行硬组织切片并行HE染色后检测,植入4周后实验组材料两端被新生骨所覆盖,材料深部的孔隙中也可见少量骨组织长入;植入8周后发现实验组材料与骨组织生长良好,多孔钽材料表面和两端材料孔隙内均有骨组织长入,材料孔隙与组织紧密连接,有骨小梁长入;植入12周时两端骨组织长入深度没有明显变化,但材料表面骨组织继续长入,并完全嵌入圆柱体材料内。材料植入后4周与8周比较差异无统计学意义(P>0.05),材料植入后8周与12周比较差异有统计学意义(P<0.05)。将植入4周、8周和12周后含材料样本置于动态疲劳试验机上进行推出实验,随时间延长所需推出力明显增加,植入后4周和8周相比,虽然后者所需推力较大,但两者比较差异无统计学意义(P>0.05),而8周和12周比较则差异有统计学意义(P<0.05)。结论:国产多孔坦材料能在胫骨缺损中实现与骨整合,能用于皮质骨缺损修复。 相似文献
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目的:柞蚕丝素(tussah silk fibroin,TSF)和羟基磷灰石(hydroxyapatite,HA)均具有良好的生物活性和生物相容性,是组织工程研究的热点i,但结构单一及微米级的材料所表现出的性能简单,不能满足人们对生物材料支架性能的要求,本课题将两者按不同比例进行复合,探讨不同皮芯比例羟基磷灰石/柞蚕丝素(HA/TSF)的骨仿生纳米纤维的生物学性能。方法:首先利用同轴静电纺丝技术,以TSF水溶液为皮,HA水溶液为芯,制备不同皮芯比例的HA/TSF骨仿生纳米纤维,然后将人成骨肉瘤细胞(MG-63)种植在不同皮芯比例的HA/TSF纳米纤维上。在不同的时间点分别通过倒置显微镜、扫描电镜观察细胞形态学变化;通过四甲基偶氮噻唑蓝比色(Four methyl azo thiazole blue colorimetric, MTT)法、碱性磷酸酶(alkaline phosphatase,ALP)活性检测法观察细胞在材料表面的增殖和分化,从多角度来评价材料的生物学性能。结果:通过形态学观察,SEM观察以及MTT检测,发现除空白对照组外,各组样品均显示良好的生物相容性,均能促进细胞的黏附、增殖,尤以HA/TSF为2:1时最明显;通过MG-63细胞的ALP活性检测,发现当HA/TSF比例为2:1时,最能促进细胞ALP活性的表达,有利于诱导成骨细胞的分化。结论:皮芯结构的HA/TSF骨仿生纳米纤维具有良好的生物学性能,且二者在自然界来源丰富,价格便宜,为临床骨组织缺损修复的应用奠定了一定的实验基础 相似文献
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For tissue engineering and regeneration, a porous scaffold with interconnected networks is needed to guide cell attachment
and growth/ingrowth in three-dimensional (3D) structure. Using a rapid prototyping (RP) technique, we designed and fabricated
3D plotting system and three types of scaffolds: those from polycaprolactone (PCL), those from PCL and hydroxyapatite (HA),
and those from PCL/HA and with a shifted pattern structure (PCL/HA/SP scaffold). Shifted pattern structure was fabricated
to increase the cell attachment/adhesion. The PCL/HA/SP scaffold had a lower compressive modulus than PCL and PCL/HA scaffold.
However, it has a better cell attachment than the scaffolds without a shifted pattern. MTT assay and alkaline phosphatase
activity results for the PCL/HA/SP scaffolds were significantly enhanced compared to the results for the PCL and PCL/HA scaffolds.
According to their degree of cell proliferation/differentiation, the scaffolds were in the following order: PCL/HA/SP > PCL/HA > PCL.
These 3D scaffolds will be applicable for tissue engineering based on unique plotting system. 相似文献
15.
Phipps MC Clem WC Catledge SA Xu Y Hennessy KM Thomas V Jablonsky MJ Chowdhury S Stanishevsky AV Vohra YK Bellis SL 《PloS one》2011,6(2):e16813
The performance of biomaterials designed for bone repair depends, in part, on the ability of the material to support the adhesion and survival of mesenchymal stem cells (MSCs). In this study, a nanofibrous bone-mimicking scaffold was electrospun from a mixture of polycaprolactone (PCL), collagen I, and hydroxyapatite (HA) nanoparticles with a dry weight ratio of 50/30/20 respectively (PCL/col/HA). The cytocompatibility of this tri-component scaffold was compared with three other scaffold formulations: 100% PCL (PCL), 100% collagen I (col), and a bi-component scaffold containing 80% PCL/20% HA (PCL/HA). Scanning electron microscopy, fluorescent live cell imaging, and MTS assays showed that MSCs adhered to the PCL, PCL/HA and PCL/col/HA scaffolds, however more rapid cell spreading and significantly greater cell proliferation was observed for MSCs on the tri-component bone-mimetic scaffolds. In contrast, the col scaffolds did not support cell spreading or survival, possibly due to the low tensile modulus of this material. PCL/col/HA scaffolds adsorbed a substantially greater quantity of the adhesive proteins, fibronectin and vitronectin, than PCL or PCL/HA following in vitro exposure to serum, or placement into rat tibiae, which may have contributed to the favorable cell responses to the tri-component substrates. In addition, cells seeded onto PCL/col/HA scaffolds showed markedly increased levels of phosphorylated FAK, a marker of integrin activation and a signaling molecule known to be important for directing cell survival and osteoblastic differentiation. Collectively these results suggest that electrospun bone-mimetic matrices serve as promising degradable substrates for bone regenerative applications. 相似文献
16.
目的:在骨组织工程中,如何制备出理想的支架材料一直是研究重点;目前主要的有天然生物支架材料、人工合成有机材料和无机材料等;生物衍生骨即天然生物支架材料的一种,由于其与天然骨在形态结构上较为相似,是近年来研究较多的支架材料之一;既往形态学研究局限于在二维层面,对于其三维结构参数分析较少。故本实验主要运用Micro-CT对生物衍生松质骨的三维结构参数进行分析,量化评价其作为骨组织工程支架材料的结构参数。方法:截取新鲜猪松质骨,经脱脂脱蛋白部分脱钙及去抗原处理后,制作成生物衍生骨支架;应用Micro.CT扫描,重建三维图并量化分析其结构参数,统计软件SPSS分析各参数间的相关性。结果:经Micro.CT扫描,得到二维CT图和三维重建图。各三维结构参数的值分别为:BV/TV(20.48±5.14)%;BS/BV(41.66±5.39)1/ram;Porosity(79.52±5.14)%;Tb.Th(0.10±0.01)mm;Tb.N(1.99±0.47)l/mm;Tb.Sp(0.32±0.05)mm;Tb.Pf(2.03±4.70)1/mm;SMI(1.28±0.35);DA(1.60±0.23);Corm.Dn(158.53±106.09)I/mm3。各参数间相关系数具有统计学意义的为:(1)Porosity与BS/BV、Tb.Th;(2)BV/TV与BS/BV、Tb.Th;(3)BS/BV与Coma.Dn、Porosity、BV/TV、;(4)Tb.Th与Porosity、BV厂IV、Conn.Dn;(5)DA与Corm.Dn;(6)Conn.Dn与Bs/BV、Tb.Th、DA。结论:Micro-CT扫描、量化分析是评价支架材料结构参数的理想方法;也证明生物衍生骨支架符合骨组织工程对支架材料的三维结构要求,尤其在孔径大小、孔隙率、表面积体积比等三维结构参数,此外,也可为其他支架材料的制备在三维结构上的要求提供参考依据。 相似文献
17.
People suffering from pain due to osteoarthritic or rheumatoidal changes in the joints are still waiting for a better treatment. Although some studies have achieved success in repairing small cartilage defects, there is no widely accepted method for complete repair of osteochondral defects. Also joint replacements have not yet succeeded in replacing of natural cartilage without complications. Therefore, there is room for a new medical approach, which outperforms currently used methods. The aim of this study is to show potential of using a tissue engineering approach for regeneration of osteochondral defects. The critical review of currently used methods for treatment of osteochondral defects is also provided. In this study, two kinds of hybrid scaffolds developed in Hutmacher's group have been analysed. The first biphasic scaffold consists of fibrin and PCL. The fibrin serves as a cartilage phase while the porous PCL scaffold acts as the subchondral phase. The second system comprises of PCL and PCL-TCP. The scaffolds were fabricated via fused deposition modeling which is a rapid prototyping system. Bone marrow-derived mesenchymal cells were isolated from New Zealand White rabbits, cultured in vitro and seeded into the scaffolds. Bone regenerations of the subchondral phases were quantified via micro CT analysis and the results demonstrated the potential of the porous PCL and PCL-TCP scaffolds in promoting bone healing. Fibrin was found to be lacking in this aspect as it degrades rapidly. On the other hand, the porous PCL scaffold degrades slowly hence it provides an effective mechanical support. This study shows that in the field of cartilage repair or replacement, tissue engineering may have big impact in the future. In vivo bone and cartilage engineering via combining a novel composite, biphasic scaffold technology with a MSC has been shown a high potential in the knee defect regeneration in the animal models. However, the clinical application of tissue engineering requires the future research work due to several problems, such as scaffold design, cellular delivery and implantation strategies. 相似文献
18.
New development of biomaterial scaffolds remains a prominent issue for the regeneration of lost or fractured bone. Of these scaffolds, a number of bioactive polymers have been synthesized and fabricated for diverse biological roles. Although recent evidence has demonstrated that composite scaffolds such as HA/PLLA have improved properties when compared to either HA or PLLA alone, recent investigations have demonstrated that the phase compatibility between HA and PLLA layers is weak preventing optimal enhancement of the mechanical properties and making the composites prone to breakdown. In the present study, poly (γ-benzyl-L-glutamate) modified hydroxyapatite/(poly (L-lactic acid)) (PBLG-g-HA/PLLA) composite scaffolds were fabricated with improved phase compatibility and tested for their osteogenic properties in 18 Wistar female rats by analyzing new bone formation in 3 mm bilateral femur defects in vivo. At time points, 2, 4 and 8 weeks post surgery, bone formation was evaluated by µ-CT and histological analysis by comparing 4 treatment groups; 1) blank defect, 2) PLLA, 3) HA/PLLA and 4) PBLG-g-HA/PLLA scaffolds. The in vivo analysis demonstrated that new bone formation was much more prominent in HA/PLLA and PBLG-g-HA/PLLA groups as depicted by µ-CT, H&E staining and immunohistochemistry for collagen I. TRAP staining was also utilized to determine the influence of osteoclast cell number and staining intensity to the various scaffolds. No significant differences in either staining intensity or osteoclast numbers between all treatment modalities was observed, however blank defects did contain a higher number of osteoclast-like cells. The results from the present study illustrate the potential of PBLG-g-HA/PLLA scaffolds for bone tissue engineering applications by demonstrating favorable osteogenic properties. 相似文献
19.
Ji Liu Huarong Nie Zhengliang Xu Xin Niu Shangchun Guo Junhui Yin Fei Guo Gang Li Yang Wang Changqing Zhang 《PloS one》2014,9(11)
The discovery of induced pluripotent stem cells (iPSCs) rendered the reprogramming of terminally differentiated cells to primary stem cells with pluripotency possible and provided potential for the regeneration and restoration of cartilage defect. Chondrogenic differentiation of iPSCs is crucial for their application in cartilage tissue engineering. In this study we investigated the effect of 3D nanofibrous scaffolds on the chondrogenesis of iPSCs and articular cartilage defect restoration. Super-hydrophilic and durable mechanic polycaprolactone (PCL)/gelatin scaffolds were fabricated using two separate electrospinning processes. The morphological structure and mechanical properties of the scaffolds were characterized. The chondrogenesis of the iPSCs in vitro and the restoration of the cartilage defect was investigated using scanning electron microscopy (SEM), the Cell Counting Kit-8 (CCK-8), histological observation, RT-qPCR, and western blot analysis. iPSCs on the scaffolds expressed higher levels of chondrogenic markers than the control group. In an animal model, cartilage defects implanted with the scaffold-cell complex exhibited an enhanced gross appearance and histological improvements, higher cartilage-specific gene expression and protein levels, as well as subchondral bone regeneration. Therefore, we showed scaffolds with a 3D nanofibrous structure enhanced the chondrogenesis of iPSCs and that iPSC-containing scaffolds improved the restoration of cartilage defects to a greater degree than did scaffolds alone in vivo. 相似文献