脱细胞猪角膜基质的生物相容性与组织工程化兔角膜上皮移植的研究

目的 探讨脱细胞猪角膜基质的生物相容性,评价组织工程化角膜上皮组织作供体的可行性,观察支架材料的细胞化情况和种子细胞的存活情况.方法 实验研究.采用完全随机化设计的方法,用Dispase-Triton-X-100处理猪角膜基质,脱去角膜细胞;以角膜基质囊袋内植入的方法,观察异种角膜基质植入后的生物相容性,A组:脱细胞猪角膜基质,B组:新鲜猪角膜基质,C组:空白对照组.以组织工程化雄性角膜上皮组织为供体,同种雌性为受体,作板层角膜移植,观察角膜的混浊、水肿、新生血管等情况;组织病理学和免疫组化方法检测支架材料的细胞化情况,Y染色体性别决定基因(SRY)-聚合酶链反应(PCR)方法追踪种子细胞的存活情况.结果 猪角膜基质植入兔角膜囊袋后,角膜逐渐恢复透明,排斥反应指数＜6,组织病理学观察角膜结构完整,胶原纤维平行排列,少许细胞长入脱细胞猪角膜基质边缘,各组免疫组化检测未见CIM+、CD8+T淋巴细胞浸润.组织工程化角膜上皮作异体板层角膜移植后,3～4 d上皮光滑,10～20 d变为透明;15 d时角膜上皮、基质、内皮完整,上皮细胞约4或5层结构,少许基质细胞长入支架,1个月时可见角膜上皮细胞约7或8层细胞,基质纤维排列规则,多量细胞长入脱细胞角膜基质.上皮细胞表达CK3,支架内新生细胞表达波形蛋白.SRY-PCR结果显示种子细胞可以在受体内长期存活.结论 脱细胞猪角膜基质生物相容性良好,组织工程化角膜上皮可作为板层角膜移植的供体,脱细胞猪角膜基质细胞化良好,种子细胞可以在受体内长期存活.     

脱细胞猪角膜基质体外支持角膜上皮和基质细胞的生长

目的:探讨脱细胞猪角膜基质体外能否支持兔角膜细胞的生长。方法:体外培养兔角膜上皮细胞和基质细胞,并接种到制备的脱细胞猪角膜基质上,倒置相差显微镜和组织学观察细胞生长情况。结果:上皮细胞能在脱细胞猪角膜基质上贴附生长,10d时可形成2~3层的复层结构。基质细胞在脱细胞猪角膜基质上贴附生长后可向材料深层迁徙。结论:制备的脱细胞猪角膜基质体外可支持兔角膜上皮细胞和基质细胞的生长。     

组织工程角膜基质的体外构建及移植的实验研究

目的探讨利用组织工程技术体外构建角膜基质进行板层角膜移植的可行性和有效性。方法将猪角膜基质去细胞处理后制备成组织工程角膜基质载体;取幼兔角膜基质细胞体外培养,将其种植在载体上,体外构建成组织工程角膜基质,用PKH26荧光标记兔角膜基质细胞示踪角膜基质的构建;将16只兔的角膜基质内植入壳聚糖膜使之形成无菌性角膜溃疡,随机从16只兔中选8只,进行组织工程角膜基质移植;另外8只作为对照组,进行新鲜的同种异体兔板层角膜移植。术后对角膜进行裂隙灯、光学显微镜、透射电镜观察。结果体外构建的组织工程角膜的基质细胞具有活性,其结构与正常角膜基质相近。移植治疗无菌性角膜溃疡术后,1~2周有新生血管侵入组织工程角膜基质植片边缘,植片为灰白色半透明状;3~4周随着新生血管减退,组织工程角膜基质植片局部开始透明变薄;术后8~10周角膜溃疡完全修复,角膜恢复透明性,角膜神经可再生;观察最长达10月,角膜仍保持透明,无免疫排斥发生,与对照组疗效相同。结论体外构建的组织工程角膜基质无免疫原性、具有良好的生物相容性,可作为临床治疗角膜溃疡的移植材料。     

AlphaCor人工角膜移植治疗兔角膜碱烧伤

目的评价AlphaCor人工角膜移植对兔角膜碱烧伤的治疗效果。方法用1mol/LNaOH烧伤兔左眼建立角膜碱烧伤模型,选择角膜白斑、角膜缘新生血管〉2个象限的5只兔眼行人工角膜移植术。AlphaCor人工角膜移植手术分2期进行：Ⅰ期手术,将AlphaCor人工角膜植入角膜板层间;Ⅱ期手术,暴露人工角膜光学区。术后观察人工角膜、受体角膜及眼前节情况。结果碱烧伤后2～6周形成带新生血管的角膜白斑。Ⅰ期术后5例人工角膜均在位,2例人工角膜出现白色沉积物,其中1例并发角膜浅层基质溶解,另3例无并发症发生。Ⅱ期手术中麻醉死亡1例,其余术后人工角膜均在位,1例术后6周发生角膜感染、穿孔,另3例术后4～6周发生人工角膜前膜增生,未见其他并发症发生。结论 AlphaCor人工角膜移植治疗兔角膜碱烧伤具有良好的生物相容性,效果较好。     

培养角膜缘干细胞羊膜移植治疗碱烧伤动物的实验研究

目的 观察培养生长于羊膜的角膜缘干细胞移植的治疗角膜缘碱烧伤伤的效果。方法 将兔角膜缘干细胞在的代培养后接种于羊膜,对新西兰大白兔角膜缘碱烧伤动物模型行角膜缘干细胞羊膜移植术,并对治疗后的角膜进行临床及病理学检查。结果 体外培养的兔角膜缘士细胞可在羊膜上继续增殖、分化为密集的角膜上皮细胞层;角膜缘干细胞移植术后兔角膜缘轻度充血、角膜上皮完整基质细胞浸润减轻、新生血管减少。组织病理学染色证实,角膜缘     

重度碱烧伤早期异种去细胞角膜材料移植

目的观察重度碱烧伤后,早期(伤后1周内)行异种去细胞角膜材料板层移植手术治疗的可行性和疗效,并与同种异体角膜材料进行比较性研究。方法将19只新西兰大白兔制作成角膜重度碱烧伤模型,伤后1周,取16只随机分为2组,每组8只。一组行猪去细胞角膜材料板层移植;另一组行同种异体板层兔角膜移植。其余3只烧伤后不作任何处理,为空白对照组。术后进行大体观察、裂隙灯、病理学、角膜内皮染色观察。结果重度碱烧伤异种去细胞角膜材料移植后2~3周,有新生血管侵入植片边缘,植片为灰白色半透明状,移植区角膜上皮愈合。6周后,角膜植片新生血管开始减退,植片局部变透明。观察至28周,植片存活良好,无免疫排斥反应发生,炎症静止,眼表维持相对正常的结构,与同种异体角膜移植组治疗效果相同,可为以后的增视性手术创造良好的条件。结论用异种去细胞角膜基质材料对重度碱烧伤角膜进行移植手术治疗,可减轻伤后炎症反应,防止严重并发症的发生,维持了眼表结构。疗效与同种异体角膜移植相同。     

角膜缘干细胞移植治疗烧伤后角膜血管翳的临床研究

目的 探讨角膜缘干细胞移植治疗眼烧伤后角膜血管翳的途径.方法 分别采用自体或异体角膜缘干细胞移植联合新鲜板层角膜移植治疗43例烧伤后角膜血管翳.结果 自体角膜缘干细胞移植24例,视力增进22眼,23眼新生血管消退.异体角膜缘干细胞移植19例,全部病例新生血管未见消退,视力增进不明显.结论 自体角膜缘干细胞移植可为烧伤患者提供上皮再生来源,有效的阻止新生血管侵入角膜.     

异种角膜脱细胞基质为供体进行角膜前板层移植的初步研究

目的探讨以异种猪角膜脱细胞基质为供体植片,分析兔角膜进行前板层移植后的生物相容性：设计实验研究。研究对象新西兰白兔。方法应用1％TritonX-100及冷冻干燥处理制备猪角膜脱细胞基质载体,切取1／3厚度前板层作为供体角膜植片,对兔眼角膜前板层切除后进行移植,同时以新鲜猪角膜板层为供体对兔进行前板层移植作对照。通过术后角膜透明度、组织结构观察,评价猪角膜脱细胞基质的生物相容性及植片转归的情况。主要指标角膜透明度和组织学HE染色。结果制备的猪角膜脱细胞基质植片作前板层移植到兔眼后,未见明显的新生血管、炎症反应、角膜坏死等排斥现象,观察期内植片较透明;脱细胞基质表面上皮化良好,植片基质板层与植床逐渐融合,植片内有宿主细胞迁入生长,板层结构与正常角膜相似。结论猪角膜脱细胞基质具有良好的生物相容性、安全性和低抗原性,有望成为角膜板层移植的供体材料。     

猪脱细胞角膜基质组织结构特点与生物相容性研究

背景构建组织工程化角膜时,载体的选择十分重要。目前有多种载体可供选用,但脱细胞角膜基质是公认的较好载体。目的观察猪脱细胞角膜基质的组织结构特点,评价其与异种角膜基质和上皮细胞的生物相容性。方法取猪角膜组织进行组织块培养,经胰蛋白酶-EDTA酶消化角膜上皮、基质、内皮细胞,支架组织于-20℃冷冻干燥后灭菌保存。猪脱细胞角膜基质石蜡切片行常规苏木精一伊红染色,光学显微镜下观察组织的形态学特征;扫描电镜下观察其组织结构特点;并对其物理特性,如抗拉性、膨胀性、含水量和透明度进行评价。将猪脱细胞角膜基质移植到兔角膜基质层内,同时与体外培养的兔角膜上皮细胞共培养4周,分析其组织和细胞生物相容性。结果经酶消化处理后猪角膜组织中未见上皮、基质和内皮细胞,其胶原纤维直径大小、排列与正常角膜组织相同,抗拉性、膨胀性、含水量和透明度等物理特性与正常猪角膜相似。猪脱细胞角膜基质行异种兔角膜基质层间移植1周时可见轻度水肿,2周后水肿基本消退,4周时透明度较好。猪脱细胞角膜基质与兔角膜基质之间贴附良好,未见炎症反应及新生血管。兔角膜上皮细胞接种于猪脱细胞角膜基质上共培养4周后CK3表达阳性。猪脱细胞角膜基质脱水前与脱水2h、4h后及正常猪角膜基质间的抗拉性、膨胀性、含水量的差异均无统计学意义（P〉0．05）,但脱水2h、4h后及正常猪角膜基质的透明度明显好于脱水前,差异均有统计学意义（P〈0．01）。结论猪脱细胞角膜基质组织结构与正常猪角膜相似,与兔角膜基质和上皮细胞具有良好的生物相容性。     

不同移植手术治疗角膜缘干细胞缺损的实验研究

目的探讨以人羊膜为载体培养的角膜缘干细胞，自体及异体移植治疗全角膜缘干细胞缺损。方法制作兔眼角膜缘干细胞完全缺损3个月的模型。实验动物随机分为自体移植组和异体移植组，前者取对侧眼角膜缘组织，后者取异体兔眼角膜缘组织，均以去除上皮细胞的羊膜基底膜为载体，培养12d后行角膜缘干细胞羊膜移植术。术后观察3个月，以角膜上皮染色、角膜浑浊和新生血管3项指标进行临床疗效评定，通过病理检查评估术后角膜上皮修复情况，印迹细胞学检查移植前后角膜上皮的细胞表型。结果体外培养的兔角膜缘干细胞可在羊膜上粘附生长并增生，体外培养12d可形成复层。自体移植组和部分异体移植组术后角膜上皮逐渐愈合，透明度提高，基质细胞浸润减轻，新生血管减退或消失。印迹细胞学检查显示：移植前角膜上皮细胞PAS阳性，而移植后转为阴性；组织病理学显示：移植前角膜上皮大部分缺损，移植后呈现角膜上皮结构。部分异体移植组术后出现了免疫排斥反应。结论兔自体角膜缘干细胞羊膜移植术可重建眼表；免疫排斥反应仍是异体角膜缘干细胞羊膜移植术失败的主要原因。     

自体骨髓干细胞促进角膜苯酚烧伤愈合的实验研究

目的:了解自体骨髓干细胞促进兔角膜苯酚烧伤后愈合的作用。方法:将10只家兔双眼角膜用300g/L的苯酚棉签烧伤后,随机一眼用自体骨髓干细胞滴眼,另一眼为对照眼,用无细胞的培养液滴眼,观察双侧角膜愈合时间,进行的统计学的配对分析t检验。结果:在自体骨髓干细胞滴眼的干预下,角膜烧伤的愈合时间平均为3.2d,对照眼的愈合时间平均为7.2d,根据统计学检验,两者具有显著性差异(P<0.05)。结论:局部应用自体骨髓干细胞滴眼,对于角膜苯酚烧伤的愈合具有明显的促进作用。     

Support of acellular porcine corneal stroma for growth of corneal epithelium and stromal cell in vitro

AIM: To determine whether acellular porcine cornea stroma (APCS) could support the growth of the rabbit corneal cells in vitro . METHODS: APCS was prepared. The rabbit's corneal epithelium and stromal cells were cultured and seeded on APCS in vitro . The observation of phase contrast photograph and histological examination were performed. RESULTS: Histological examination showed the epithelium grew on the scaffold of APCS in 2-3 layers at 10th day. The stromal cells adhered to the surface of the scaffold after 24 hours and invaded into the interlaminar of the material at 5th day. CONCLUSION: These results indicate that APCS can support the growth and proliferation of the corneal epithelium and stromal cells in vitro .     

Acellular ostrich corneal stroma used as scaffold for construction of tissue-engineered cornea

AIM: To assess acellular ostrich corneal matrix used as a scaffold to reconstruct a damaged cornea. METHODS: A hypertonic saline solution combined with a digestion method was used to decellularize the ostrich cornea. The microstructure of the acellular corneal matrix was observed by transmission electron microscopy (TEM) and hematoxylin and eosin (H&E) staining. The mechanical properties were detected by a rheometer and a tension machine. The acellular corneal matrix was also transplanted into a rabbit cornea and cytokeratin 3 was used to check the immune phenotype. RESULTS: The microstructure and mechanical properties of the ostrich cornea were well preserved after the decellularization process. In vitro, the methyl thiazolyl tetrazolium results revealed that extracts of the acellular ostrich corneas (AOCs) had no inhibitory effects on the proliferation of the corneal epithelial or endothelial cells or on the keratocytes. The rabbit lamellar keratoplasty showed that the transplanted AOCs were transparent and completely incorporated into the host cornea while corneal turbidity and graft dissolution occurred in the acellular porcine cornea (APC) transplantation. The phenotype of the reconstructed cornea was similar to a normal rabbit cornea with a high expression of cytokeratin 3 in the superficial epithelial cell layer. CONCLUSION: We first used AOCs as scaffolds to reconstruct damaged corneas. Compared with porcine corneas, the anatomical structures of ostrich corneas are closer to those of human corneas. In accordance with the principle that structure determines function, a xenograft lamellar keratoplasty also confirmed that the AOC transplantation generated a superior outcome compared to that of the APC graft.     

Acellular porcine corneal matrix as a carrier scaffold for cultivating human corneal epithelial cells and fibroblasts in vitro

AIM: To investigate the feasibility of corneal anterior lamellar reconstruction with human corneal epithelial cells and fibroblasts, and an acellular porcine cornea matrix (APCM) in vitro. METHODS: The scaffold was prepared from fresh porcine corneas which were treated with 0.5% sodium dodecyl sulfate (SDS) solution and the complete removal of corneal cells was confirmed by hematoxylin-eosin (HE) staining and 4’, 6-diamidino-2-phenylindole (DAPI) staining. Human corneal fibroblasts and epithelial cells were cultured with leaching liquid extracted from APCM, and then cell proliferative ability was evaluated by MTT assay. To construct a human corneal anterior lamellar replacement, corneal fibroblasts were injected into the APCM and cultured for 3d, followed by culturing corneal epithelial cells on the stroma construction surface for another 10d. The corneal replacement was analyzed by HE staining, and immunofluorescence staining. RESULTS: Histological examination indicated that there were no cells in the APCM by HE staining, and DAPI staining did not detect any residual DNA. The leaching liquid from APCM had little influence on the proliferation ability of human corneal fibroblasts and epithelial cells. At 10d, a continuous 3 to 5 layers of human corneal epithelial cells covering the surface of the APCM was observed, and the injected corneal fibroblasts distributed within the scaffold. The phenotype of the construction was similar to normal human corneas, with high expression of cytokeratin 12 in the epithelial cell layer and high expression of vimentin in the stroma. CONCLUSION: Corneal anterior lamellar replacement can be reconstructed in vitro by cultivating human corneal epithelial cells and fibroblasts with an acellular porcine cornea matrix. This laid the foundation for the further transplantation in vivo.     

种植人骨髓间充质干细胞的猪角膜板层移植治疗兔角膜损伤的初步研究

目的研究种植人骨髓间充质干细胞（MSCs）的猪角膜基质治疗兔角膜损伤的可能性。方法用全骨髓贴壁法分离纯化人MSCs并传代,流式细胞仪检测免疫表型及诱导成脂、成骨分化鉴定。12只新西兰白兔随机分为2组,实验组取第3代MSCs接种于去上皮的猪角膜基质上,培养4 d后移植到广泛损伤的兔角膜上,对照组单纯移植去上皮猪角膜基质。术后2、4、8周,取各实验眼行组织学检查,观察移植的MSCs及猪角膜基质的存活、转归及移植局部的反应。免疫组织化学、免疫荧光染色检测移植后角膜上皮细胞角蛋白12的表达。结果培养获得的MSCs中CD29阳性者占95.97%,CD44阳性者占96.49%,CD90阳性者占92.79%,CD105阳性者占94.66%,CD34阳性者占0.59%,CD45阳性者占0.36%,符合MCSs的免疫表型,并可以诱导成脂及成骨分化。实验组MSCs接种到去上皮猪角膜基质后贴附、生长迅速,术后植片在植床上存活良好,无排斥反应,角膜较对照组透明,新生血管少,而对照组在移植后发生排斥反应。实验组角膜免疫组织化学及免疫荧光染色均检测出CK12阳性细胞。结论种植MSCs的猪角膜基质移植到损伤兔角膜后可以存活,MSCs可以分化为角膜上皮样细胞,具有构建组织工程角膜的潜能。     

以干燥脱水法保存的异种角膜基质为载体构建人工生物角膜上皮组织

目的:观察以干燥脱水法保存的鸵鸟角膜基质为载体构建人工生物角膜上皮组织的生物学特性。方法:采用组织块培养法获得新西兰大白兔角膜缘干细胞,经胰蛋白酶消化法获得细胞,种植于干燥脱水法保存的鸵鸟角膜板层基质上,采用气液界面培养法进行培养,通过倒置显微镜、透射电子显微镜、荧光显微镜观察其形态学、生长特点,超微结构及免疫学特征。结果:在干燥脱水法保存的鸵鸟角膜基质上种植兔角膜缘干细胞,接种72h后,细胞形成单层,移置气液交界面后继续培养7～10d,逐渐形成复层。经光镜、透射电镜、及免疫学检测显示其具有角膜上皮组织的生物学特性。结论:兔角膜缘干细胞能够在干燥脱水法保存的鸵鸟角膜基质载体上生长,并可形成复层,基本具有正常角膜上皮细胞的形态、超微结构和生物学特性。     

Long-term effectiveness of autologous cultured limbal stem cell grafts in patients with limbal stem cell deficiency due to chemical burns

Background: Chemical burns cause depletion of limbal stem cells and eventually lead to corneal opacity and visual loss. We investigated the long‐term effectiveness of autologous cultured limbal stem cell grafts in patients with limbal stem cell deficiency. Design: Prospective, non‐comparative interventional case series. Participants: Sixteen eyes from 16 patients with severe, unilateral limbal stem cell deficiency caused by chemical burns. Methods: Autologous ex vivo cultured limbal stem cells were grafted onto the recipient eye after superficial keratectomy. Main Outcome Measures: Clinical parameters of limbal stem cell deficiency (stability/transparency of the corneal epithelium, superficial corneal vascularization and pain/photophobia), visual acuity, cytokeratin expression on impression cytology specimens and histology on excised corneal buttons. Results: At 12 months post‐surgery, evaluation of the 16 patients showed that 10 (62.6%) experienced complete restoration of a stable and clear epithelium and 3 (18.7%) had partially successful outcomes (re‐appearance of conjunctiva in some sectors of the cornea and instable corneal surface). Graft failure (no change in corneal surface conditions) was seen in three (18.7%) patients. Penetrating keratoplasty was performed in seven patients, with visual acuity improving up to 0.8 (best result). For two patients, regeneration of the corneal epithelium was confirmed by molecular marker (p63, cytokeratin 3, 12 and 19, mucin 1) analysis. Follow‐up times ranged from 12 to 50 months. Conclusions: Grafts of autologous limbal stem cells cultured onto fibrin glue discs can successfully regenerate the corneal epithelium in patients with limbal stem cell deficiency, allowing to perform successful cornea transplantation and restore vision.