切换至 "中华医学电子期刊资源库"
高级检索
中华口腔医学研究杂志(电子版)

中华口腔医学研究杂志(电子版) ›› 2013, Vol. 07 ›› Issue (05) : 419 -422. doi: 10.3877/cma.j.issn.1674-1366.2013.05.019

综述

牙周组织再生治疗中牙源性干细胞的研究进展
陈茜1, 唐倩1,()   
  1. 1. 510630 广州,中山大学附属第三医院口腔科
  • 收稿日期:2013-04-19 出版日期:2013-10-01
  • 通信作者: 唐倩
  • 基金资助:
    广东省科技计划(2011B031300011)

Research progress on dental stem cells of periodontal regeneration therapeutics

Xi CHEN1, Qian TANG1,()   

  1. 1. Stomatology Department, The Third Affiliated Hospital of Sun Yat-sen University, Guangzhou 510630, China
  • Received:2013-04-19 Published:2013-10-01
  • Corresponding author: Qian TANG
全文 ( ) 下载PDF ( ) 导出引用
引用本文:

陈茜, 唐倩. 牙周组织再生治疗中牙源性干细胞的研究进展[J/OL]. 中华口腔医学研究杂志(电子版), 2013, 07(05): 419-422.

Xi CHEN, Qian TANG. Research progress on dental stem cells of periodontal regeneration therapeutics[J/OL]. Chinese Journal of Stomatological Research(Electronic Edition), 2013, 07(05): 419-422.

牙周炎是一种慢性炎症性疾病,它可以破坏牙周组织,甚至导致牙齿丧失。 随着对其发病机理的深入研究,牙周治疗的重点已从阻止疾病发展转变为促进牙周组织的再生和重建。 牙周组织工程技术已成为牙周组织再生治疗的发展方向。 干细胞群体的选择是组织工程最关键的部分之一。 牙源性干细胞因其优良的再生和分化潜能,成为牙周组织再生治疗的重要来源。 本文就牙周组织再生治疗中牙源性干细胞的研究进展作一综述。

关键词: 牙周组织, 牙源性干细胞, 再生, 分化

Periodontitis is a chronic inflammatory disease which can lead to the destruction of periodontium and even the loss of teeth. With the in-depth study on its pathogenesis, the key to periodontal treatments has gradually turned from preventing the disease development to promoting the periodontium reconstruction and regeneration. Periodontal tissue engineering technology has become an emerging direction of periodontal tissue regeneration treatment. The selection of stem cell group is one of the most critical parts of this potential technology. Odontogenic stem cells has become a important source of periodontal tissue regeneration therapy due to its excellent regeneration and differentiation potential.This article mainly introduces the odontogenic stem cells used in periodontal regeneration therapy.

Key words: Periodontal tissue, Periodontal stem cells, Proliferation, Differentiation
1
Hynes K, Menicanin D, Gronthos S, et al. Clinical utility of stem cells for periodontal regeneration. Periodontol 2000, 2012,59(1):203-227.
2
Yamada Y, Ito K, Nakamura S, et al. Promising cell-based therapy for bone regeneration using stem cells from deciduous teeth, dental pulp, and bone marrow. Cell Transplant, 2011,20(7):1003-1013.
3
Wada N, Menicanin D, Shi S, et al. Immunomodulatory properties of human periodontal ligament stem cells. J Cell Physiol, 2009,219(3):667-676.
4
Liu N, Shi S, Deng M, et al. High levels of β-catenin signaling reduce osteogenic differentiation of stem cells in inflammatory microenvironments through inhibition of the noncanonical Wnt pathway. J Bone Miner Res, 2011,26(9):2082-2095.
5
Seo BM, Miura M, Gronthos S, et al. Investigation of multipotent postnatal stem cells from human periodontal ligament. Lancet, 2004,364(9429):149-155.
6
Morsczeck C, Schmalz G, Reichert TE, et al. Somatic stem cells for regenerative dentistry. Clin Oral Investig, 2008,12(2):113-118.
7
Sununliganon L, Singhatanadgit W. Highly osteogenic PDL stem cell clones specifically express elevated levels of ICAM1,ITGB1 and TERT. Cytotechnology, 2012,64(1):53-63.
8
Chen FM, Zhang M, Wu ZF. Toward delivery of multiple growth factors in tissue engineering. Biomaterials, 2010,31(24):6279-6308.
9
Liu L, Ling J, Wei X, et al. Stem cell regulatory gene expression in human adult dental pulp and periodontal ligament cells undergoing odontogenic/osteogenic differentiation. J Endod,2009,35(10):1368-1376.
10
Feng F, Akiyama K, Liu Y, et al. Utility of PDL progenitors for in vivo tissue regeneration: a report of 3 cases. Oral Dis,2010,16(1):20-28.
11
Gronthos S, Mankani M, Brahim J, et al. Postnatal human dental pulp stem cells (DPSCs) in vitro and in vivo. Proc Natl Acad Sci U S A, 2000,97(25):13625-13630.
12
Nakashima M. Bone morphogenetic proteins in dentin regeneration for potential use in endodontic therapy. Cytokine Growth Factor Rev, 2005,16(3):369-376.
13
Saber SE. Tissue engineering in endodontics. J Oral Sci, 2009,51(4):495-507.
14
D'Alimonte I, Nargi E, Lannutti A, et al. Adenosine A1 receptor stimulation enhances osteogenic differentiation of human dental pulp-derived mesenchymal stem cells via WNT signaling. Stem Cell Res, 2013,11(1):611-624.
15
Ji YM, Jeon SH, Park JY, et al. Dental stem cell therapy with calcium hydroxide in dental pulp capping. Tissue Eng Part A,2010,16(6):1823-1833.
16
d'Aquino R, De Rosa A, Lanza V, et al. Human mandible bone defect repair by the grafting of dental pulp stem/progenitor cells and collagen sponge biocomplexes. Eur Cell Mater, 2009(18):75-83.
17
Sonoyama W, Liu Y, Fang D, et al. Mesenchymal stem cellmediated functional tooth regeneration in swine. PLoS One,2006(1):e79.
18
Sonoyama W, Liu Y, Yamaza T, et al. Characterization of the apical papilla and its residing stem cells from human immature permanent teeth: a pilot study. J Endod, 2008,34(2):166-171.
19
Morsczeck C, Gotz W, Schierholz J, et al. Isolation of precursor cells (PCs) from human dental follicle of wisdom teeth. Matrix Biol, 2005,24(2):155-165.
20
Guo W, Gong K, Shi H, et al. Dental follicle cells and treated dentin matrix scaffold for tissue engineering the tooth root.Biomaterials, 2012,33(5):1291-1302.
21
d'Aquino R, Tirino V, Desiderio V, et al. Human neural crest-derived postnatal cells exhibit remarkable embryonic attributes either in vitro or in vivo. Eur Cell Mater, 2011(21):304-316.
22
Kemoun P, Laurencin-Dalicieux S, Rue J, et al. Human dental follicle cells acquire cementoblast features under stimulation by BMP-2/-7 and enamel matrix derivatives (EMD)in vitro. Cell Tissue Res, 2007,329(2):283-294.
23
Handa K, Saito M, Tsunoda A, et al. Progenitor cells from dental follicle are able to form cementum matrix in vivo.Connect Tissue Res, 2002,43(2-3):406-408.
24
Guo W, He Y, Zhang X, et al. The use of dentin matrix scaffold and dental follicle cells for dentin regeneration.Biomaterials, 2009,30(35):6708-6723.
[1] 何羽. 腔镜微创手术治疗分化型甲状腺癌的研究进展[J/OL]. 中华普外科手术学杂志(电子版), 2024, 18(04): 456-458.
[2] 浦凌宵, 诸俊浩, 陶亮, 王峰, 王萌, 管文贤. 低黏附性胃癌PET/CT影像学特征和脂代谢相关机制研究[J/OL]. 中华普外科手术学杂志(电子版), 2024, 18(03): 255-260.
[3] 司钦亮, 毕世龙, 焦慧骁, 李世照, 陈哲禹, 武玉东. 精索去分化脂肪肉瘤两例并文献复习[J/OL]. 中华腔镜泌尿外科杂志(电子版), 2024, 18(06): 585-590.
[4] 程茂波, 刘钰莎, 张旭, 刘文博, 赵鹏. 对再生型疝修补补片动物试验设计的考量[J/OL]. 中华疝和腹壁外科杂志(电子版), 2024, 18(02): 121-124.
[5] 杨攀, 黄晓寒, 邓才霞, 周利航, 周向东, 罗虎. SMARCA4缺失的胸部未分化肿瘤临床特征及预后分析[J/OL]. 中华肺部疾病杂志(电子版), 2024, 17(04): 529-534.
[6] 于倩, 崔庆超, 范一卉, 姚瑶. 施旺细胞衍生的细胞外囊泡通过Wnt/β-catenin信号通路促进牙髓再生的机制研究[J/OL]. 中华细胞与干细胞杂志(电子版), 2025, 15(01): 1-11.
[7] 任江波, 李丽, 王萍. 阻断PI3K/Akt信号通路促进低表达FoxA2肝脏前体细胞对分化诱导剂应答并朝肝细胞方向分化[J/OL]. 中华细胞与干细胞杂志(电子版), 2024, 14(06): 336-343.
[8] 李彦浇, 梁雷, 金钫, 王智伟. 银杏内酯B通过调控miR-24-3p对人牙周膜干细胞增殖、成骨分化的影响[J/OL]. 中华细胞与干细胞杂志(电子版), 2024, 14(04): 229-235.
[9] 万周程, 钟章锋, 钟侨霖, 王景浩, 刘婷, 王华军, 郑小飞. 中药有效成分结合生物材料在骨组织工程中作用的研究进展[J/OL]. 中华细胞与干细胞杂志(电子版), 2024, 14(04): 249-253.
[10] 杨阳, 王琤, 周文土, 周冰. Caveolae/Caveolin-1与膜胆固醇共同调控小鼠BMSCs成骨分化[J/OL]. 中华细胞与干细胞杂志(电子版), 2024, 14(03): 137-142.
[11] 蒙柄成, 朱海, 任洪冰, 毛伟民, 韦德令, 徐邦浩, 王继龙, 金宗睿, 蓝祝晶, 黄柯豫, 卢婷婷, 张灵, 郭雅, 文张. IGF-1 介导FOXO 信号通路在大鼠ALPPS 术后肝再生中的作用[J/OL]. 中华肝脏外科手术学电子杂志, 2025, 14(01): 118-125.
[12] 吴雪云, 胡小军, 范应方. 肝切除术中剩余肝再生能力的评估与预测[J/OL]. 中华肝脏外科手术学电子杂志, 2024, 13(06): 894-897.
[13] 刘娟丽, 马四清, 乌仁塔娜. 髓源性抑制细胞在脓毒症中的研究进展[J/OL]. 中华重症医学电子杂志, 2024, 10(03): 271-278.
[14] 张津, 李欣达, 徐如祥. 神经类器官在大脑常见疾病治疗中的应用及在脊髓损伤修复中的应用前景[J/OL]. 中华脑科疾病与康复杂志(电子版), 2024, 14(05): 257-263.
[15] 杨菲, 刘腾飞, 赵志军, 李睿聪, 张颉, 刘妍, 赵珍. 血清维生素水平与分化型甲状腺癌的关联性研究[J/OL]. 中华临床医师杂志(电子版), 2024, 18(07): 633-640.
阅读次数
全文


摘要

版权所有 中华医学会 中华医学电子音像出版社有限责任公司  京ICP备14006079号-1  网络出版服务许可证:(署)网出证(京)字第075号

AI


AI小编
你好!我是《中华医学电子期刊资源库》AI小编,有什么可以帮您的吗?