骨髓间充质干细胞复合小肠黏膜下层构建组织工程皮肤修复糖尿病皮肤缺损
- 格式:pdf
- 大小:2.14 MB
- 文档页数:6


骨髓间充质干细胞移植修复皮肤创伤
张贝莹;罗冬章;麦海涛;陈祥浪;郭彦;王丙云;陈胜锋;陈志胜
【期刊名称】《中国组织工程研究》
【年(卷),期】2017(021)029
【摘 要】BACKGROUND:At present,most of the experiments on the
treatment of skin wound by mesenchymal stem cells have been performed
in rats,mice and rabbits,while the research on skin wound treatment by
canine bone marrow mesenchymal stem calls is less
reported.OBJECTIVE:To observe the effect of canine bone marrow
mesenchymal stem calls on skin wound healing.METHODS:A 3 cmx3 cm
wound was made on the both sides of the scapula and buttocks of the
dog,with the right side as experimental group and the left side as control
group.After the wound was made,allogeneic canine bone marrow
mesenchymal stem calls suspension was injected subcutaneously around
the wound in the experimental group on the 1st and 3rd days.The control
group was injected subcutaneously around the wound with mesenchymal
中国骨伤2006年1月第19卷第1期China J Orthop&Trauma,Jan.2006,Vo1.19,No.1
小肠黏膜下层在骨科组织工程学中的进展
Progress of small intestine submucosa in bone tissue engineering
王茂源,赵建宁
WANGMao-yuan,ZHAOJian—ning
关键词小肠黏膜下层; 组织工程 Key words Small intertinal submucosa;Tissue engineering
随着组织工程技术的发展,小肠粘膜下层(small intertinal
submucosa,SIS)作为细胞外基质类生物衍生材料,已广泛用
于组织缺损的修复。SIS是一种不含细胞的细胞外基质材
料,主要由I、Ⅲ型胶原蛋白构成,还含有少量的Ⅳ、V型胶原
及多种生长因子,如成纤维细胞生长因子一2、转化生长因子一口 及血管内皮生长因子等…1。SIS植入体内后,能迅速诱导细
胞浸润,刺激血管的形成和宿主细胞的长入和分化,再生的组
织在结构和功能上与正常组织相似l2 J。SIS具有良好的组织
相容性,能为宿主细胞提供附着和迁移的环境,可促进多种细
胞在SIS支架上黏附、生长及分化 3。因SIS中不含细胞,不
会引起免疫介导排斥反应。超过1 000种交叉种系的移植试
验证实SIS无免疫原性,直接激发免疫实验无应答反应l4j。
SIS作为体内组织工程的材料,具有适当的机构特性,能承受
周围组织压力,为再生细胞提供足够的生长空间,能够提供暂
时的机械支撑,并维持足够的时间,直到再生组织有足够的支
撑力为止_5_5。SIS还具有抗微生物活性l6 J。近年来SIS在骨
科组织工程中的应用越来越多,本文拟就SIS在修复骨、软
骨、肌腱及韧带缺损中的作用作一综述。
1骨组织工程 Suckow等_7 l在评价SIS修复长骨骨缺损的研究中,分别
摘要
II摘要如今,全层皮肤损伤是一个很严重和棘手的临床问题,迫切需要伤口敷料来治疗严重的皮肤缺陷或者诱导皮肤重建。本研究的目的是将生物玻璃(BG)、海藻酸钠(SA)通过冷冻干燥法制备SA-BG复合敷料,来促进全层皮肤缺损的愈合。通过使用扫描电子显微镜和傅里叶变换红外光谱对制备的SA-BG复合敷料进行表征,并测试了其吸水性。此外,用小鼠皮肤成纤维细胞(L929)、人脐静脉内皮细胞(HUVEC)和骨髓间充质干细胞(BMSCs)评估了SA-BG复合敷料的细胞活力。体内采用大鼠全层皮肤缺损模型评估了SA-BG复合敷料对伤口愈合的影响。该研究显示了SA-BG复合敷料是多孔的,具有良好的吸水性,并且具有良好的生物相容性。最重要的是,SA+1%BG复合敷料是用于研究大鼠全层皮肤缺损的最佳敷料。15天后,与空白组相比,SA+1%BG复合敷料实现了接近100%的愈合率,SA+0.5%BG,SA+2%BG、SA+4%BG这三种复合敷料也显示出了极好的愈合效果,本结果提供了证据支持海藻酸钠-生物玻璃复合敷料对皮肤愈合的巨大潜力。关键词:海藻酸钠生物玻璃敷料伤口愈合生物相容性AbstractIIIABSTRACTNowadays,full-thicknessskininjuryisaseriousandthornyclinicalproblem,andwounddressingsareurgentlyneededtotreatsevereskindefectsorinduceskinremodeling.Thepurposeofthisstudywastopreparebioglass(BG)andsodiumalginate(SA)byfreeze-dryingSA-BGcompositedressingtopromotethehealingoffull-thicknessskindefects.ThepreparedSA-BGcompositedressingwascharacterizedbyscanningelectronmicroscopyandFouriertransforminfraredspectroscopy,anditswaterabsorptionwastested.Inaddition,thecellviabilityoftheSA-BGcompositedressingwasevaluatedusingmouseskinfibroblasts(L929),humanumbilicalveinendothelialcells(HUVEC),andbonemarrowmesenchymalstemcells(BMSCs).TheeffectofSA-BGcompositedressingonwoundhealingwasevaluatedinvivousingaratfull-thicknessskindefectmodel.ThisstudyshowsthattheSA-BGcompositedressingisporous,hasgoodwaterabsorption,andhasgoodbiocompatibility.Mostimportantly,theSA+1%BGcompositedressingwasthebestdressingforstudyingfull-thicknessskindefectsinrats.After15days,theSA+1%BGcompositedressingachievednearly100%healingratecomparedwiththeblankgroup.ThethreecompositedressingsofSA+0.5%BG,SA+2%BG,SA+4%BGalsoshowedWithexcellenthealingresults,thisresultprovidesevidencetosupportthegreatpotentialofsodiumalginate-bioglasscompositedressingsforskinhealing.KeyWords:Sodiumalginate,Bioglass,Dressing,Woundhealing,Biocompatibilit目录IV目录第1章引言······················································································1第2章实验部分················································································32.1实验原料和试剂.............................................................................................32.2实验仪器与设备.............................................................................................32.3试样的制备.....................................................................................................42.3.1生物玻璃的制备·······························································42.3.2海藻酸钠-生物玻璃复合敷料的制备······································42.4海藻酸钠-生物玻璃海绵的表征...................................................................42.4.1扫描电镜测试··································································42.4.2傅里叶变换红外光谱测试···················································42.4.3吸水性能测试··································································52.5骨髓间充质干细胞的提取.............................................................................52.6海藻酸钠-生物玻璃复合敷料对细胞增殖的影响.......................................52.7海藻酸钠-生物玻璃复合敷料的生物相容性...............................................62.8动物实验.........................................................................................................62.9伤口闭合测量.................................................................................................62.10伤口组织的组织学分析...............................................................................72.11统计学分析...................................................................................................7第3章实验结果················································································83.1海藻酸钠-生物玻璃复合敷料的物理和化学特性........................................83.1.1海藻酸钠-生物玻璃复合敷料的微观结构································83.1.2海藻酸钠-生物玻璃复合敷料的傅立叶变换红外光谱(FTIR)····93.1.3海藻酸钠-生物玻璃复合敷料的吸水性能································93.2海藻酸钠-生物玻璃复合敷料的细胞活力评估............................................93.3使用海藻酸钠-生物玻璃复合敷料的伤口愈合情况..................................123.4海藻酸钠-生物玻璃复合敷料对大鼠全层皮肤缺损愈合作用的组织学评价
骨髓间充质干细胞修复软骨缺损研究进展
张积礼;武喆;夏亚一
【期刊名称】《国际骨科学杂志》
【年(卷),期】2006(27)4
【摘 要】间充质干细胞是一类多能干细胞,在胚胎形成过程中分化为骨、软骨、肌腱、肌肉、脂肪和骨髓基质等多种间充质组织.近年研究者成功地分离到人和多种动物骨髓间充质干细胞并发现其在体外仍保持干细胞特性,能够诱导分化为成骨细胞、软骨细胞、成肌细胞和脂肪细胞等细胞系.动物实验表明,骨髓间充质干细胞能够修复具有临床意义的软骨缺损.此外,由于具有多能性,骨髓间充质干细胞还是很好的基因载体,在创伤修复的基因治疗中有广阔的应用前景.
【总页数】3页(P243-245)
【作 者】张积礼;武喆;夏亚一
【作者单位】736200,甘肃省敦煌市医院骨科;730030,兰州大学第二医院骨科研究所;730030,兰州大学第二医院骨科研究所
【正文语种】中 文
【中图分类】R6
【相关文献】
1.骨髓间充质干细胞修复关节软骨缺损研究进展 [J], 米坤龙;卫小春
2.骨髓间充质干细胞及其在软骨缺损修复中的研究进展 [J], 丁晓飞;赵劲民
3.角蛋白支架联合TGF-β3基因过表达载体质粒转染的骨髓间充质干细胞对软骨缺损的修复效果 [J], 孙永杰;庞伟苹;叶发刚
4.角蛋白支架联合TGF-β3基因过表达载体质粒转染的骨髓间充质干细胞对软骨缺损的修复效果 [J], 孙永杰;庞伟苹;叶发刚
5.骨髓间充质干细胞修复关节软骨缺损研究进展 [J], 王晓;郭传友
因版权原因,仅展示原文概要,查看原文内容请购买