软骨组织工程用材料进展

对近年来软骨组织工程用材料及其制备技术作了较系统的综述,指出了当前软骨组织工程所面临的问题,并针对此问题对未来软骨组织工程用材料的研究作出了展望。     

软骨组织工程进展

本文就软骨组织工程的三维生物材料载体、细胞培养体系及工程化软骨的生物学和临床应用证件最主该领域研究取得的最新成果，进行较系统的综述，并指出当前组织工程研究面临解决的问题和对未来组织工程研究的展望，为国内组织工程研究提供可利用或借鉴的参考资料。     

壳聚糖及其衍生物在软骨组织工程中的应用

背景：作为生物型支架,壳聚糖因其独特的多孔三维结构、易于改性的特征及良好的生物相容性成为了软骨组织工程支架材料的研究热点。 目的：就壳聚糖及其衍生物的设计、改性及在软骨组织工程中的应用作一综述。 方法：应用计算机检索PubMed数据库和CNKI数据库,中文关键词为“壳聚糖,壳聚糖衍生物,支架材料,组织工程,软骨组织”,英文检索词为“chitosan;chitosan derivatives;scaffold;tissue engineering;cartilage”,检索文献时间范围为1990年1月至2015年1月。 结果与结论：壳聚糖是一种天然的生物多糖,通过化学改性、共混改性等方法可以改变壳聚糖的溶解度、机械强度、生物活性甚至生物降解性等自身特性,从而制成更为合适的生物支架材料。进一步研究表明,将壳聚糖与种子细胞进行共同体外培养可以获得正常形态的软骨细胞并能合成特异性的细胞外基质成分,在动物体内,壳聚糖支架与种子细胞所构建的组织工程软骨能够修复软骨损伤,形成与周围正常软骨相似的组织。壳聚糖及其衍生物支架材料在软骨组织工程中有较为广阔的研究前景。  中国组织工程研究杂志出版内容重点：生物材料;骨生物材料; 口腔生物材料; 纳米材料; 缓释材料; 材料相容性;组织工程     

软骨组织工程进展

本文就软骨组织工程的三维生物材料载体、细胞培养体系及工程化软骨的生物学和临床应用评价的最新进展及该领域研究取得的最新成果，进行较系统的综述，并指出当前组织工程研究面临解决的问题和对未来组织工程研究的展望，为国内组织工程研究提供可利用或借鉴的参考资料     

脱细胞基质软骨支架的制备

背景：脱细胞基质材料去除了天然材料中的细胞成分,保留了基质成分,有效降低了天然材料的免疫原性,同时能够保持材料的机械强度。 目的：拟利用洗脱方法去除兔肋软骨中的细胞基质,制备天然生物支架材料。 方法：取新西兰大白兔肋软骨,清除周围组织后随机分组处理,以未经处理的肋软骨作为正常对照组;48 h处理组以去污剂-酶化学消化48 h;96 h处理组以去污剂-酶化学消化96 h,3组均通过苏木精-伊红染色及电镜观察脱细胞效果。同时收集诱导第7天的兔骨髓间充质干细胞3×109 L-1,与同种异体肋软骨脱细胞基质体外复合培养,于第3,7天取复合物行电镜观察细胞在脱细胞基质表面的黏附生长情况。 结果与结论：新鲜肋软骨标本每个软骨陷窝内均有排列紧密的二三个软骨细胞,去污剂-酶化学消化后软骨陷窝内的细胞逐渐脱失,至消化处理96 h后,软骨陷窝内的细胞完全脱失。共培养第3天时,脱细胞基质表面有大量骨髓间充质干细胞分布,细胞为多角形,有伪足伸出,锚定在基质表面,部分区域可见细胞在基质表面增殖分裂;第7天时,脱细胞基质表面大部分均为细胞覆盖,细胞呈扁平状,有多个足突充分伸展,细胞之间互相连接,分泌大量细胞外基质沉积在基质表面,呈冰霜样改变,表明制备的脱细胞基质具有良好的细胞相容性。中国组织工程研究杂志出版内容重点：生物材料;骨生物材料; 口腔生物材料; 纳米材料; 缓释材料; 材料相容性;组织工程全文链接：     

Cultispher微载体构建组织工程软骨修复关节软骨缺损北大核心

背景:纤维蛋白胶和微载体均可作为软骨组织工程的良好载体,但因力学性能差和可塑性差等缺点限制其广泛应用。目的:以负载软骨细胞的Cultispher微载体为基础,复合纤维蛋白胶,构建Cultispher微载体/纤维蛋白胶复合支架,观察其用于修复兔膝关节软骨缺损的效果。方法:将兔软骨细胞与Cultispher微载体置于搅拌式生物反应器中三维悬浮共培养,待细胞帖附至微载体表面并大量扩增后,将负载有软骨细胞的Cultispher微载体与纤维蛋白胶复合,构建Cultispher微载体/纤维蛋白胶复合支架,并用于修复兔膝关节股骨滑车软骨缺损。实验按不同的软骨缺损处植入物分为3组:MCF组以负载软骨细胞的Cultispher微载体/纤维蛋白胶复合支架修复软骨缺损;MF组以单纯Cultispher微载体/纤维蛋白胶复合支架修复软骨缺损;空白对照组旷置软骨缺损,不作任何处理。术后3,6个月取材。检测并记录大体观、大体观评分、病理学染色、病理学评分、Micro-CT扫描等指标,评估软骨修复效果。结果与结论:①大体观显示MCF组的软骨修复效果明显优于MF组和空白对照组;②番红"O"、天狼猩红病理染色结果显示MCF组的修复组织主要以透明软骨为主,而MF组和空白对照组的修复组织主要以纤维组织为主;③Micro-CT扫描结果显示,MCF组较MF组和空白对照组获得更好的软骨下骨重建;④MCF组的大体观评分与病理学评分均明显高于MF组和空白对照组;⑤结果证实,负载软骨细胞的Cultispher微载体/纤维蛋白胶复合支架能成功修复兔股骨滑车软骨缺损。     

软骨下钻孔联合软骨源性形态发生蛋白缓释系统修复膝关节软骨缺损

背景：有研究表明软骨源性形态发生蛋白等因子在诱导细胞分化、促进软骨修复过程中起到重要调节作用;软骨下钻孔治疗软骨缺损在临床已广为应用,但其与软骨源性形态发生蛋白等因子联合应用的相关研究至今少有报道。 目的：将软骨下钻孔技术与关节内注射透明质酸/软骨源性形态发生蛋白1缓释载药微球(hyaluronic acid- coated cartilage-derived morphogenetic protein-1,HA/CDMP-1)相结合,观察其对软骨缺损修复的效果,并通过与单纯钻孔组及HA/CDMP-1微球组治疗结果比较,观察两者有无协同效应。 方法：用透明质酸包被软骨源性形态发生蛋白制备缓释微球冻干保存,制备兔实验膝关节全层关节软骨缺损模型,随后将兔随机分为模型组、钻孔组、HA/CDMP-1微球组和钻孔联合HA/CDMP-1微球组,分别采用生理盐水关节腔注射,软骨缺损区钻孔,HA/CDMP-1微球关节腔注射,软骨下钻孔并HA/CDMP-1微球注射。 结果与结论：建模后8,12,16周,组织学观察结果提示,钻孔联合HA/CDMP-1微球组软骨缺损区修复组织覆盖面积明显高于其他3组(P < 0.05);甲苯胺蓝染色和荧光定量PCR检测显示,钻孔联合HA/CDMP-1微球组修复的软骨组织中蛋白多糖和Ⅱ型胶原mRNA的表达明显高于其他3组(P < 0.01或P < 0.05)。结果证实,软骨下钻孔与关节腔内注射HA/CDMP-1联合应用修复兔膝关节软骨缺损近期疗效满意,提示两者可能发生协同作用。中国组织工程研究杂志出版内容重点：生物材料;骨生物材料; 口腔生物材料; 纳米材料; 缓释材料; 材料相容性;组织工程全文链接：     

软骨组织工程研究进展

软骨组织工程技术,结合生物、工程、医学与科学,以构建有功能的组织替代损伤组织为目标。本文从支架材料、种子细胞的来源及体外培养、生长因子和生物学评价几个方面中综述了软骨组织工程的进展,并提出了一些尚待解决的问题。     

软骨修复材料在运动性膝关节软骨损伤修复中的作用

背景：评价软骨修复材料在膝关节软骨损伤修复中的效果,为医务、科研工作者的研究提供一定的借鉴。 方法：采用电子检索的方式,在万方数据库(http://www.wanfangdata.com.cn/)中检索2000-01/2011-03关于修复材料在膝关节软骨损伤研究的文章,关键词为“生物材料;关节软骨;缺损;修复”。排除重复研究、普通综述或Meta分析类文章,筛选纳入26篇文献进行评价。 结果：膝关节软骨损伤在运动性损伤中较为常见,现在主要的治疗方法是自体骨软骨移植修复膝关节软骨缺损。新型的软骨替代材料研究仍处于动物试验阶段,且在动物体内长期疗效及远期的生物力学变化还未有进一步的证实,进入临床试验更需要一个过程。 结论：关节软骨损伤修复的基础研究与临床治疗,虽仍存在许多重点和难点问题亟待探索,但关节软骨损伤修复正从生物材料移植向人工再造活性软骨的崭新阶段迈进。随着各种新型材料的研制和开发,关节软骨损伤修复研究将日益完善,并为临床奠定坚实的基础,应用前景十分广阔。     

组织工程软骨构建中不同支架材料的特征

BACKGROUND: Most scholars believe that the cartilage tissue engineering is a new direction for the treatment of cartilage defects. It has made partial progress in the basic research, and to construct a scaffold is essential in cartilage tissue engineering. OBJECTIVE: To systematically review and summarize the application of different tissue-engineered scaffolds in articular cartilage repair. METHODS: A computer-based search of CNKI, VIP and PubMed databases was performed for relevant basic research literatures published from January 2005 to January 2015 using the keywords of “tissue engineering,  scaffold, cartilage” in Chinese and English, respectively. Meanwhile, references in the retrieved articles were retrieved manually. RESULTS AND CONCLUSION: For selection and preparation of tissue-engineered cartilage scaffolds, it is necessary to fully take into account the advantages and disadvantages of natural hydrogel materials, synthetic scaffolds, composite scaffolds, nano-scaffolds, and injectable scaffolds. Currently, there is still no normal transition between all tissue-engineered cartilage scaffolds and the natural cartilage. Therefore, to develop nano-multilayer integrated scaffolds with the calcified cartilage layer is expected to become one of the research focuses of bone and cartilage tissue engineering.      

自体脂肪间充质干细胞复合人脐带Wharton胶支架修复兔膝关节软骨缺损****◇

背景：脐带Wharton胶富含透明质酸,糖胺多糖及胶原等,成分与天然软骨细胞外基质类似,因此由人脐带提取的Wharton胶很可能是一种较为理想的软骨组织工程支架材料。 目的：评价自体脂肪间充质干细胞复合人脐带Wharton胶支架修复兔膝关节软骨缺损的效果。 方法：将终浓度为1010 L -1、成软骨方向诱导后的兔自体脂肪间充质干细胞与人脐带Wharton胶支架复合,继续培养1周构建组织工程软骨,对兔膝关节全层软骨缺损进行修复(实验组),并与单纯支架修复的对照组及空白组进行比较。术后3个月对修复组织行大体观察、组织学检测、糖胺多糖、总胶原定量检测及生物力学测定。 结果与结论：实验组的缺损多为透明软骨修复,对照组以纤维组织修复为主,空白组无明显组织修复。提示脂肪间充质干细胞作为软骨组织工程种子细胞具有可行性;实验构建的组织工程软骨能有效的修复关节软骨缺损,人脐带Wharton胶可作为软骨组织工程良好的支架材料。     

The use of poly(lactic-co-glycolic acid) microspheres as injectable cell carriers for cartilage regeneration in rabbit knees

The use of injectable scaffolding materials for in vivo tissue regeneration has raised great interest because it allows cell implantation through minimally invasive surgical procedures. Previously, we showed that poly(lactic-co-glycolic acid) (PLGA) microspheres can be used as an injectable scaffold to engineer cartilage in the subcutaneous space of athymic mice. The purpose of this study was to determine whether PLGA microspheres can be used as an injectable scaffold to regenerate hyaline cartilage in the osteochondral defects of rabbit knees. A full-thickness wound to the patellar groove of the articular cartilage was made in the knees of rabbits. Rabbit chondrocytes were mixed with PLGA microspheres and injected immediately into these osteochondral wounds. Both chondrocyte transplantations without PLGA microspheres and culture medium injections without chondrocytes served as controls. Sixteen weeks after implantation, chondrocytes implanted using the PLGA microspheres formed white cartilaginous tissues. Histological scores indicating the extent of the cartilaginous tissue repair and the absence of degenerative changes were significantly higher in the experimental group than in the control groups (P < 0.05). Histological analysis by a hematoxylin and eosin stain of the group transplanted with microspheres showed thicker and better-formed cartilage compared to the control groups. Alcian blue staining and Masson's trichrome staining indicated a higher content of the major extracellular matrices of cartilage, sulfated glycosaminoglycans and collagen in the group transplanted with microspheres than in the control groups. In addition, immunohistochemical analysis showed a higher content of collagen type II, the major collagen type in cartilage, in the microsphere transplanted group compared to the control groups. In the group transplanted without microspheres, the wounds were repaired with fibro-cartilaginous tissues. This study demonstrates the feasibility of using PLGA microspheres as an injectable scaffold for cartilage regeneration in a rabbit model of osteochondral wound repair.     

The use of poly(lactic-co-glycolic acid) microspheres as injectable cell carriers for cartilage regeneration in rabbit knees

The use of injectable scaffolding materials for in vivo tissue regeneration has raised great interest because it allows cell implantation through minimally invasive surgical procedures. Previously, we showed that poly(lactic-co-glycolic acid) (PLGA) microspheres can be used as an injectable scaffold to engineer cartilage in the subcutaneous space of athymic mice. The purpose of this study was to determine whether PLGA microspheres can be used as an injectable scaffold to regenerate hyaline cartilage in the osteochondral defects of rabbit knees. A full-thickness wound to the patellar groove of the articular cartilage was made in the knees of rabbits. Rabbit chondrocytes were mixed with PLGA microspheres and injected immediately into these osteochondral wounds. Both chondrocyte transplantations without PLGA microspheres and culture medium injections without chondrocytes served as controls. Sixteen weeks after implantation, chondrocytes implanted using the PLGA microspheres formed white cartilaginous tissues. Histological scores indicating the extent of the cartilaginous tissue repair and the absence of degenerative changes were significantly higher in the experimental group than in the control groups (P < 0.05). Histological analysis by a hematoxylin and eosin stain of the group transplanted with microspheres showed thicker and better-formed cartilage compared to the control groups. Alcian blue staining and Masson's trichrome staining indicated a higher content of the major extracellular matrices of cartilage, sulfated glycosaminoglycans and collagen in the group transplanted with microspheres than in the control groups. In addition, immunohistochemical analysis showed a higher content of collagen type II, the major collagen type in cartilage, in the microsphere transplanted group compared to the control groups. In the group transplanted without microspheres, the wounds were repaired with fibro-cartilaginous tissues. This study demonstrates the feasibility of using PLGA microspheres as an injectable scaffold for cartilage regeneration in a rabbit model of osteochondral wound repair.     

同种异体软骨细胞-聚羟基乙酸支架复合物修复甲状软骨缺损

BACKGROUND: Tissue-engineered bone can be obtained by the combination of chondrocytes and polyglycolic acid scaffold. OBJECTIVE: To investigate the effect of allogeneic chondrocytes/polyglycolic acid scaffold compound in the repair of thyroid cartilage defects in rabbits. METHODS: Twenty New Zealand adult rabbits were randomly divided into experimental group with implantation of allogeneic chondrocytes/polyglycolic acid scaffold compound and control group with implantation of polyglycolic acid scaffold. Gross and histological observations were done at 4 and 8 weeks after implantation.   RESULTS AND CONCLUSION: (1) Gross observation results: 4 weeks after surgery, cartilage defects in the experimental group were repaired certainly, and no necrosis appeared in the repair area; in the control group, the defects were filled with muscle and connective tissues. At 8 weeks after implantation, cartilage defects in the experimental group were further repaired, with unclear repair boundaries, and in the control group, cartilage defects were no repaired and showed a notable boundary with the surrounding normal cartilage tissues. (2) Immunohistochemical staining results: the expression of type II collagen in the experimental group was higher than that in the control group (P < 0.05) at 4 and 8 weeks after implantation. These findings indicate that the allogeneic chondrocytes/polyglycolic acid scaffold compound can promote the repair of thyroid cartilage defects in rabbits.     

多孔丝素蛋白/羟基磷灰石复合脂肪间充质干细胞修复兔关节软骨及软骨下骨缺损

背景：丝素蛋白/羟基磷灰石是细胞立体培养的良好支架,是临床常用的骨缺损修复材料,具有良好的生物相容性。脂肪干细胞具有向骨及软骨细胞分化的潜能,适合骨软骨缺损修复。 目的：观察转化生长因子β1和胰岛素样生长因子1联合成软骨诱导脂肪干细胞与丝素蛋白/羟基磷灰石复合后修复兔关节软骨及软骨下骨缺损的效果。 方法：取新西兰大白兔56只,2只用于传代培养脂肪间充质干细胞,以3×109 L-1浓度接种到丝素蛋白/羟基磷灰石。其余54只新西兰大白兔,在股骨髁间制备软骨缺损模型,随机分为细胞复合材料组、单纯材料组和空白对照组,细胞复合材料组植入复合脂肪间充质干细胞的丝素蛋白/羟基磷灰石;单纯材料组植入丝素蛋白/羟基磷灰石;空白对照组不作任何植入。从大体、影像学、组织学观察比较缺损的修复情况。 结果与结论：12周时大体观察、CT、磁共振和组织学检查细胞材料复合组软骨及软骨下骨缺损区完全被软骨组织修复,修复组织与周围软骨色泽相近,支架材料基本吸收,未见明显退变和白细胞浸润,所有标本均未见丝素蛋白残留。单纯材料组缺损区缩小、部分修复,且呈纤维软骨样修复。空白对照组缺损无明显修复。提示复合脂肪间充质干细胞的丝素蛋白/羟基磷灰石修复兔关节软骨及软骨下骨缺损能力优于单纯丝素蛋白/羟基磷灰石材料。丝素蛋白/羟基磷灰石复合脂肪间充质干细胞可形成透明软骨修复动物膝关节全层软骨缺损,重建关节的解剖结构和功能,可作为新型骨软骨组织工程支架。     

Repair of large articular osteochondral defects using hybrid scaffolds and bone marrow-derived mesenchymal stem cells in a rabbit model

In order to evaluate the repair potential in large osteochondral defects on high load-bearing sites, a hybrid scaffold system was made of three-dimensional porous Polycaprolactone (PCL) scaffold for the cartilage and tricalcium phosphate-reinforced PCL for the bone portion. Osteochondral defects of 4-mm diameter x 5.5-mm depth were created in the medial femoral condyle of adult New Zealand White rabbits. The defects were treated with hybrid scaffolds without cells (control group) or seeded with allogenic bone marrow-derived mesenchymal stem cells (BMSC) in each part (experimental group) by press-fit implantation. Implanted cells were tracked using Adeno-LacZ labeling. Repair tissues were evaluated at 3 and 6 months after implantation. Overall, the experimental group showed superior repair results as compared to the control group using gross examination, qualitative and quantitative histology, and biomechanical assessment. With BMSC implantation, the hybrid scaffolds provided sufficient support to new osteochondral tissues formation. The bone regeneration was consistently good from 3 to 6 months with firm integration to the host tissue. Cartilage layer resurfacing was more complicated. All of the samples showed cartilage tissues mixed with PCL scaffold filaments at 3 months. Histology at 6 months revealed some degradation phenomenon in several samples whereas others had a good appearance; however, the Young's moduli from the experimental group (0.72 MPa) approached that of normal cartilage (0.81 MPa). In vivo viability of implanted cells was demonstrated by the retention for 6 weeks in the scaffolds. This investigation showed that PCL-based hybrid scaffolds with BMSC may be an alternative treatment for large osteochondral defects in high-loading sites.     

羟基丁酸-羟基辛酸聚合物-胶原骨软骨支架的制备及应用

背景：关节软骨修复的关键是软骨和软骨下骨的整体修复,然而目前尚缺乏理想的一体化支架。 目的：制备聚羟基丁酸-羟基辛酸-胶原一体化支架,并分析其基本生物学特性。 方法：以聚羟基丁酸-羟基辛酸、Ⅰ型胶原为材料,通过溶剂浇铸-颗粒沥滤法制备聚羟基丁酸-羟基辛酸-胶原一体化支架,观察支架超微结构,支架孔径及孔与孔的连通情况;液体置换法测定支架孔隙率。将乳兔骨髓间充质干细胞接种于聚羟基丁酸-羟基辛酸-胶原一体化支架上,扫描电镜观察细胞在支架上的黏附状态,MTT法测定细胞在支架上的生长曲线。 结果与结论：一体化支架呈疏松多孔结构,软骨层孔径80-100 μm,骨层孔径200-220 μm,孔隙率(80.0±2.3)%。骨髓间充质干细胞在支架上黏附状态良好,增殖迅速。说明聚羟基丁酸-羟基辛酸-胶原骨软骨一体化支架具备适宜的孔隙结构和良好的生物亲和性。     

脱钙骨基质与骨髓间充质干细胞共培养关节腔内的成软骨活性

背景：将骨髓间充质干细胞附着到支架材料上再植入关节软骨缺损处,细胞不但不消失,而且可形成新的软骨。 目的：观察同种异体脱钙骨基质与骨髓间充质干细胞共培养在关节内的成软骨活性。 方法：在54只青紫蓝兔单侧膝关节制作关节软骨全层缺损模型,随机分组：实验组在缺损处植入自体骨髓间充质干细胞与同种异体脱钙骨基质复合物,对照组缺损处仅植入同种异体脱钙骨基质,空白对照组未植入任何物质。 结果与结论：植入后12周,实验组缺损处修复组织呈软骨样,表面光滑平坦,与周围软骨整合的软骨细胞更为成熟,修复组织与软骨下骨结合牢固;修复组织的细胞为透明软骨样细胞,柱状排列,Ⅱ型胶原染色阳性,与周围软骨及软骨下骨整合良好,且实验组组织学评分优于对照组和空白对照组 (P < 0.01)。对照组缺损处修复组织呈纤维样,与周围软骨未结合,空白对照组缺损区无修复组织,两组均无Ⅱ型胶原染色阳性表达。表明同种异体脱钙骨基质与骨髓间充质干细胞共培养后植入膝关节可形成软骨样组织,有效修复关节软骨缺损。     

A Collagen–Poly(Vinyl Alcohol) Nanofiber Scaffold for Cartilage Repair

Articular cartilage has a limited capacity for self-repair. Untreated injuries of cartilage may lead to osteoarthritis. This problem demands new effective methods to reconstruct articular cartilage. Mesenchymal stem cells (MSCs) have the proclivity to differentiate along multiple lineages giving rise to new bone, cartilage, muscle, or fat. This study was an animal model for autologous effects of transplantation of MSCs with a collagen–poly(vinyl alcohol) (PVA) scaffold into full-thickness osteochondral defects of the stifle joint in the rabbit as an animal model. A group of 10 rabbits had a defect created experimentally in the full thickness of articular cartilage penetrated into the subchondral space in the both stifle joints. The defect in the right stifle was filled with MSCs/collagen–PVA scaffold (group I), and in the left stifle, the defect was left without any treatment as the control group (group II). Specimens were harvested at 12 weeks after implantation, examined histologically for morphologic features, and stained immunohistochemically for type-II collagen. Histology observation showed that the MSCs/collagen–PVA repair group had better chondrocyte morphology, continuous subchondral bone, and much thicker newly formed cartilage compared with the control group at 12 weeks post operation. There was a significant difference in histological grading score between these two groups. The present study suggested that the hybrid collagen–PVA scaffold might serve as a new way to keep the differentiation of MSCs for enhancing cartilage repair.     

Ⅰ/Ⅲ型胶原膜联合自体骨髓间充质干细胞修复兔膝关节软骨缺损

背景：研究表明Ⅰ型胶原和Ⅲ型胶原都有利于骨髓间充质干细胞的黏附、增殖和分化。 目的：观察Ⅰ/Ⅲ型胶原膜联合自体骨髓间充质干细胞修复兔膝关节软骨缺损的可行性。 方法：取24只新西兰大白兔制作双膝股骨滑车直径3.8 mm、深2 mm关节软骨缺损模型,分为2组：实验组缺损区植入Ⅰ/Ⅲ型胶原膜-自体骨髓间充质干细胞复合物,对照组缺损区植入单纯Ⅰ/Ⅲ型胶原膜。 结果与结论：膝关节股骨标本组织学染色显示,实验组植入8周时为类透明软骨修复,12周时接近于正常软骨;对照组植入8周时以纤维样组织修复为主,12周时为纤维软骨修复。实验组植入后8,12周组织学评分均明显高于对照组(P < 0.001)。表明运用Ⅰ/Ⅲ型胶原膜-自体骨髓间充质干细胞复合物可修复关节软骨缺损。