[1]谢 娜,陆 磊,姬小婷,等.人乳牙牙髓干细胞膜片在组织工程牙髓再生中的实验研究[J].陕西美容医学,2022,(12):116-120.
 XIE Na,LU Lei,JI Xiaoting,et al.Experimental Research on Regeneration of Dental Pulp with Stem Cells Derived from Exfoliated Deciduous Teeth[J].Medical Aesthetics and Beauty,2022,(12):116-120.
点击复制

人乳牙牙髓干细胞膜片在组织工程牙髓再生中的实验研究()
分享到:

《陕西美容医学》[ISSN:1008-6445/CN:61-1347/R]

卷:
期数:
2022年12期
页码:
116-120
栏目:
出版日期:
2022-12-15

文章信息/Info

Title:
Experimental Research on Regeneration of Dental Pulp with Stem Cells Derived from Exfoliated Deciduous Teeth
文章编号:
1008-6455(2022)12-0116-05
作者:
谢 娜1 陆 磊1 姬小婷2 王丹杨1 唐成芳1 李子夏1 胡 妍1 李 旋1
西安医学院口腔医学院 陕西 西安 710021;2.陕西中医药大学附属医院口腔科 陕西 咸阳 712000)
Author(s):
XIE Na1 LU Lei1 JI Xiaoting2 WANG Danyang1 TANG Chengfang1 LI Zixia1 HU Yan1 LI Xuan1
(1.School of Stomatology,Xi’an Medical University,Xi’an 710021,Shaanxi,China; 2.Department of Stomatology,Affi liated Hospital of Shaanxi University of Chinese Medicine,Xianyang 712000,Shaanxi,China)
关键词:
组织工程人乳牙牙髓干细胞支架材料细胞膜片牙髓再生
Keywords:
tissue engineering stem cells derived from exfoliated deciduous teeth (SHED) support materials cell membrane dental pulp regeneration
分类号:
R329.2
文献标志码:
A
摘要:
目的:选用人乳牙牙髓干细胞(Stem cells derived from exfoliated deciduous teeth,SHED)作为种子细胞构建 细胞膜片,探索适宜SHED进行牙髓再生所需的微环境,并且比较人乳牙牙髓干细胞膜片和细胞-聚乙丙交酯(PLGA)复合物 (SHED-PLGA)两种不同的构建方法在组织工程牙髓再生中的效果。方法:采用酶解组织块法培养SHED,有限稀释法进行纯 化,条件诱导液诱导SHED细胞膜片,并将其置于处理过的牙本质基质片段的根管内,在裸鼠体内异位构建年轻恒牙牙髓再生 的实验模型。结果:制备的牙本质基质片段分别负载SHED-PLGA复合物和SHED细胞膜片后在裸鼠体内异位移植3个月,经免疫 组化染色后可观察到牙本质基质片段的根管内壁有一层新形成的牙本质样基质和单层不连续排列的成牙本质细胞样细胞, 通过灰度扫描分析可知:SHED细胞膜片组的组织生成量明显高于SHED-PLGA组。结论:利用条件诱导液可以形成SHED细胞膜 片,SHED细胞膜片和SHED-PLGA均可在体内形成牙髓-牙本质复合体样结构,SHED细胞膜片组的组织生成量明显高于SHEDPLGA组,细胞膜片可以为牙髓再生提供新的实验方法。
Abstract:
Objective SHED were used as seed cells to construct cell membrane, and the microenvironment for pulp regeneration was explored. The eff ects of two diff erent construction methods, cell membrane and cell scaff old composite, on pulp regeneration of tissue engineering were compared. Methods SHED were cultured by enzymolysis and purifi ed by limited dilution method. The membrane of SHED cells was induced by conditioned medium and placed in the root canal of the treated dentin matrix fragment. The experimental model of pulp regeneration of young permanent teeth was established in nude mice. Results After loading SHED-PLGA complex and SHED cell membrane into nude mice for 3 months. Immunohistochemical staining showed that there was a new layer of dentin-like matrix and a single layer of non continuous odontoblast-like cells on the inner wall of the root canal of the dentin matrix fragment. The amount of tissue formation in SHED membrane group was signifi cantly higher than that in SHED-PLGA group. Conclusion SHED membrane and SHED-PLGA can form pulp dentin complex structure in vivo, and the tissue production of SHED membrane group is signifi cantly higher than that of SHED-PLGA group, which can provide a new experimental method for pulp regeneration.

相似文献/References:

[1]高 嘉 综述,伍尚敏 审校. 壳聚糖在组织工程支架材料中的应用进展[J].陕西美容医学,2018,(03):155.
 GAO Jia,WU Shang-min. Research Advance of Chitosan in Tissue Engineering Scaffold Materials[J].Medical Aesthetics and Beauty,2018,(12):155.
[2]陈福扬,孙艳艳,谭金娣,等. 牛磺熊去氧胆酸诱导牙髓干细胞的成骨分化实验研究[J].陕西美容医学,2018,(04):97.
 CHEN Fu-yang,SUN Yan-yan,TAN Jin-di,et al. Taursodeoxycholic Acid Induced the Osteogentic Differentiation Ability of Dental Pulp Stem Cells[J].Medical Aesthetics and Beauty,2018,(12):97.
[3]刘 戈,杨庆华,张 玲,等. 非降解聚氨酯弹性体支架材料体外构建残耳软骨用于修复耳廓组织的可行性[J].陕西美容医学,2019,(03):89.
 LIU Ge,YANG Qing-hua,ZHANG Ling,et al. Feasibility of Using Non-degradable Polyurethane Elastomer Scaffold to ConstructResidual Ear Cartilage for Repairing Auricular Tissue in Vitro[J].Medical Aesthetics and Beauty,2019,(12):89.
[4]刘青武 何秀娟 张金超 郭昕炜陈 佳综述,李 萍审校. 干细胞在皮肤创面修复应用中的研究进展[J].陕西美容医学,2019,(06):159.
 LIU Qing-wu,HE Xiu-juan,ZHANG Jin-chao,et al. Research Progress of Wound Repair on Skin Tissue with Stem Cells[J].Medical Aesthetics and Beauty,2019,(12):159.
[5]赵尚华 综述,康深松 审校. 先天性小耳畸形耳廓支架的研究进展[J].陕西美容医学,2019,(10):170.
 ZHAO Shang-hua,KANG Shen-song. Research Progress of Auricle Stents for Congenital Microauricle Malformation[J].Medical Aesthetics and Beauty,2019,(12):170.
[6] 张 翠,何 珊,周 林. 人脐血间充质干细胞(hUCMSCs)复合PHAs生物材料诱导软骨再生的研究[J].陕西美容医学,2021,(8):103.
  ZHANG Cui,HE Shan,ZHOU Lin. Cartilage Regeneration Induced by Human Umbilical Cord Mesenchymal StemCells (hUCMSCs) Combined with PHAs Biomaterials[J].Medical Aesthetics and Beauty,2021,(12):103.
[7]赵 靖 综述,康深松 审校.先天性小耳畸形耳甲腔美学重建的研究进展[J].陕西美容医学,2023,(5):187.
 ZHAO Jing,KANG Shensong.Research Progress on Aesthetic Reconstruction of Auricular Cavity in Congenital Microtia[J].Medical Aesthetics and Beauty,2023,(12):187.

更新日期/Last Update: 2022-12-27