Maturogenesis
Part I. Introduction, Stem Cells, Growth Factors and Matrix
(Review)
Authors:
R. Žižka 1,2; J. Šedý 3,4; J. Škrdlant 2; N. Němcová 1
Authors‘ workplace:
Klinika zubního lékařství LF UP a FN, Olomouc
1; Studio 2, soukromá zubní klinika, Praha
2; Ústav normální anatomie LF UP, Olomouc
3; Privátní stomatologická praxe, Praha
4
Published in:
Česká stomatologie / Praktické zubní lékařství, ročník 116, 2016, 1, s. 20-26
Category:
Review Article
Overview
Objectives:
Endodontic treatment of immature permanent tooth with necrotic pulp is one of the most challenging treatment options in endodontics. Even when the standard treatment modalities like calcium hydroxide apexification or MTA plug are succesfull, the long term prognosis of teeth is rather to be poor. It is because of thin root canal walls, which are prone to fracture. The great progress has been achieved in last two decades in the field of tissue engineering which leads to novel treatment strategies. Its aim is formation at new vital tissue inside of root canal system. This new tissue should be able to produce hard tissue, that leads to thickening of root canal wall and further development of root apex. In these reviews we would like to summarize available literature about another possible treatment modality. Maturogenesis is based on the principles of tissue engineering and can be perfomed by every general practitioner.
This first part is concerned the introduction to the treatment problem of immature permamenent teeth with necrotic pulp including anatomical differencies. Furthermore, particular parts of tissue engineering concept - stem cells, growth factors and matrices which can play role in maturogenesis have been analysed.
Key words:
maturogenesis – revascularization – regenerative endodontic procedure – stem cells of apical papilla – dental pulp stem cells – matrix – platelet rich plasma
Sources
1. Abe, S., Hamada, K., Miura, M., Yamaguchi, S.: Neural crest stem cell property of apical pulp cells derived from human developing tooth. Cell Biology International [online], roč. 36, 2012, č. 10, s. 927–936 [cit. 2015-07-16]. DOI: 10.1042/cbi20110506.
2. Abe, S., Imaizumi, M., Mikami, Y., Wada, Y., Tsuchiya, S., Irie, S., Suzuki, S., Satomura, K., Ishihara, K., et al.: Oral bacterial extracts facilitate early osteogenic/dentinogenic differentiation in human dental pulp-derived cells. Oral Surg. Oral Med. Oral Pathol. Oral Radiol. Endod. [online], roč. 109, 2010, č. 1, s. 149–154 [cit. 2015-07-16]. DOI: 10.1016/j.tripleo.2009.08.028.
3. Aranha, A. M. F., Zhang, Z., Neiva, K. G., Costa, C. A. S., Hebling, J., Nör J. E.: Hypoxia enhances the angiogenic potential of human dental pulp cells. J. Endodont. [online], roč. 36, 2010, č. 10, s. 1633–1637 [cit. 2015-07-16]. DOI: 10.1016/j.joen.2010.05.013.
4. Dai, Y., He, H., Wise, G. E., Yao, S.: Hypoxia promotes growth of stem cells in dental follicle cell populations. J. Biomed. Sci. Engineering [online], roč. 4, 2011, č. 6, s. 454–461 [cit. 2015-07-16]. DOI: 10.4236/jbise.2011.46057.
5. Diogenes, A. R., Ruparel, N. B., Teixeira, F. B., Hargreaves, K. M.: Translational science in disinfection for regenerative endodontics. J. Endodont. [online], roč. 40, 2014, č. 4, s. 52–S57 [cit. 2015-07-16]. DOI: 10.1016/j.joen.2014.01.015.
6. Đokić, J., Tomić, S., Cerović, S., Todorović, V., Rudolf, R., Čolić, M.: Characterization and immunosuppressive properties of mesenchymal stem cells from periapical lesions. J. Clin. Periodont. [online], roč. 39, 2012, č. 9, s. 807–816 [cit. 2015-07-16]. DOI: 10.1111/j.1600-051x.2012.01917.x.
7. Ema, H., Suda, T.: Two anatomically distinct niches regulate stem cell activity. Blood [online], roč. 120, 2012, č. 11, s. 2174–2181 [cit. 2015-07-16]. DOI: 10.1182/blood-2012-04-424507.
8. Ferracane, J. L., Cooper, P. R., Smith, A. J.: Dentin matrix component solubilization by solutions of pH relevant to self-etching dental adhesives. J. Adhes. Dent., roč. 15, 2013, č. 5, s. 407–412.
9. Hellberg, C., Ostman, A., Heldin, C.: PDGF and vessel maturation. Recent Results Cancer Res., roč. 180, 2010, č. 1, s. 103–114.
10. Hu, X., Wang, Y., He, F., Li, L., Zheng, Y., Zhang, Y., Chen, Y. P.: Noggin is required for early development of murine upper incisors. J. Dental Res. [online], roč. 91, 2012, č. 4, s. 394–400 [cit. 2015-07-20]. DOI: 10.1177/0022034511435939.
11. Lin, L. M., Ricucci, D., Huang, G. T.-J.: Regeneration of the dentine-pulp complex with revitalization/revascularization therapy: challenges and hopes. Intern. Endodont. J. [online], roč. 47, 2013, č. 8, s. 713–724 [cit. 2015-07-20]. DOI: 10.1111/iej.12210.
12. Iida, K., Takeda-Kawaguchi, T., Tezuka, Y., Kunisada, T., Shibata, T., Tezuka, K.-I.: Hypoxia enhances colony formation and proliferation but inhibits differentiation of human dental pulp cells. Arch. Oral Bio.l [online], roč. 55, 2010, č. 9, s. 648–654 [cit. 2015-07-16]. DOI: 10.1016/j.archoralbio.2010.06.005.
13. Kim, J. Y., Xin, X., Moioli, E. K., Chung, J., Lee, C.-H., Chen, M., Fu, S. Y., Koch, P. D., Mao, J. J.: Regeneration of dental-pulp-like tissue by chemotaxis-induced cell homing. Tissue Engineering Part A [online], roč. 16, 2010, č. 10, s. 3023–3031 [cit. 2015-07-16]. DOI: 10.1089/ten.tea.2010.0181.
14. Kitamura, C., Nishihara, T., Terashita, M., Tabata, Y., Washio, A.: Local regeneration of dentin-pulp complex using controlled release of FGF-2 and naturally derived sponge-like scaffolds. Intern. J. Dentistry [online], roč. 2012, č.2, s. 1–8 [cit. 2015-07-16]. DOI: 10.1155/2012/190561.
15. Lenzi, R., Trope, M.: Revitalization procedures in two traumatized incisors with different biological outcomes. J. Endodont. [online], roč. 38, 2012, č. 3, s. 411–414 [cit. 2015-07-16]. DOI: 10.1016/j.joen.2011.12.003.
16. Liao, J., Al-Shahrani, M., Al-Habib, M., Tanaka, T., Huang, G. T.-J.: Cells isolated from inflamed periapical tissue express mesenchymal stem cell markers and are highly osteogenic. J. Endodont. [online], roč. 37, 2011, č. 9, s. 1217–1224 [cit. 2015-07-16]. DOI: 10.1016/j.joen.2011.05.022.
17. Lin, L. M., Ricucci, D., Huang, G. T.-J.: Regeneration of the dentine-pulp complex with revitalization/revascularization therapy: challenges and hopes. Intern. Endod. J. [online], roč. 47, 2013, č. 8, s. 713–724 [cit. 2015-07-20]. DOI: 10.1111/iej.12210.
18. Lovelace, T. W., Henry, M. A., Hargreaves, K. M., Diogenes, A.: Evaluation of the delivery of mesenchymal stem cells into the root canal space of necrotic immature teeth after clinical regenerative endodontic procedure. J. Endodont. [online], roč. 37, 2011, č. 2, s. 133–138 [cit. 2015-07-16]. DOI: 10.1016/j.joen.2010.10.009.
19. Marelli, M., Paduano, F., Tatullo, M.: Cells isolated from human periapical cysts express mesenchymal stem cell-like properties. Int. J. Biol. Sci., roč. 16, 2013, č. 9 (10), s. 1070–1078.
20. Martin, G., Ricucci, D., Gibbs, J. L., Lin, L. M.: Histological findings of revascularized/revitalized immature permanent molar with apical periodontitis using platelet-rich plasma. J. Endodont. [online], roč. 39, 2013, č. 1, s. 138–144 [cit. 2015-07-20]. DOI: 10.1016/j.joen.2012.09.015.
21. Pereira, L. O., Rubini, M. R., Silva, J. R., Oliveira, D. M., Silva, I. C. R., Poças-Fonseca, M. J., Azevedo, R. B.: Comparison of stem cell properties of cells isolated from normal and inflamed dental pulps. Intern. Endod. J. [online], roč. 45, 2012, č. 12, s. 1080–1090 [cit. 2015-07-16]. DOI: 10.1111/j.1365-2591.2012.02068.x.
22. Petrino, J. A., Boda, K. K., Shambarger, S., Bowles, W. R., McClahanan, S. B.: Challenges in regenerative endodontics: a case series. J. Endodont. [online], roč. 36, 2010, č. 33, s. 536–541 [cit. 2015-07-20]. DOI: 10.1016/j.joen.2009.10.006.
23. Rodríguez-Lozano, F. J., Moraleda, J. M.: Use of dental stem cells in regenerative dentistry: a possible alternative. Translational Res. [online], roč. 158, 2011, č. 6, s. 385–386 [cit. 2015-07-16]. DOI: 10.1016/j.trsl.2011.07.008.
24. Ruparel, N. B., de Almeida, J. F., Henry, M. A., Diogenes, A.: Characterization of a stem cell of apical papilla cell line: effect of passage on cellular phenotype. J. Endodont. [online], roč. 39, 2013, č. 33, s. 357–363 [cit. 2015-07-16]. DOI: 10.1016/j.joen.2012.10.027.
25. da Silva, L. A. B., Nelson-Filho, P., da Silva, R. A. B., Flores, D. S. H., Heilborn, C., Johnson, J. D., Cohenca, N.: Revascularization and periapical repair after endodontic treatment using apical negative pressure irrigation versus conventional irrigation plus triantibiotic intracanal dressing in dogs‘ teeth with apical periodontitis. Oral Surg. Oral Med. Oral Pathol. Oral Radiol. Endodont. [online], roč. 109, 2010, č. 5, s. 779–787 [cit. 2015-07-16]. DOI: 10.1016/j.tripleo.2009.12.046.
26. Smith, A. J., Schieven, B. A., Takahashi, Y., Ferracane, J. L., Shelton, R. M., Cooper, P. R.: Dentine as a bioactive extracellular matrix. Arch. Oral Biol. [online], roč. 57, 2012, č. 2, s. 109–121 [cit. 2015-07-16]. DOI: 10.1016/j.archoralbio.2011.07.008.
27 Sonmez, A. B., Castelnuovo, J.: Applications of basic fibroblastic growth factor (FGF-2, bFGF) in dentistry. Dent. Traumatol. [online], roč. 30, 2013, č. 2, s. 107–111 [cit. 2015-07-16]. DOI: 10.1111/edt.12071.
28. Torabinejad, M., Turman, M.: Revitalization of tooth with necrotic pulp and open apex by using platelet-rich plasma: a case report. J. Endodont. [online], roč. 37, 2011, č. 2, s. 265–268 [cit. 2015-07-20]. DOI: 10.1016/j.joen.2010.11.004.
29. Wang, J., Wei, X., Ling, J., Huang, Y., Gong, Q.: Side population increase after simulated transient ischemia in human dental pulp cell. J. Endodont. [online], roč. 36, 2010, č. 33, s. 453–458 [cit. 2015-07-16]. DOI: 10.1016/j.joen.2009.11.018.
30. Wigler, R., Kaufman, A. Y., Lin, S., Steinbock, N., Hazan-Molina, H., Torneck, C. D.: Revascularization: a treatment for permanent teeth with necrotic pulp and incomplete root development. J. Endodont. [online], roč. 39, 2013, č. 33, s. 319–326 [cit. 2015-07-16]. DOI: 10.1016/j.joen.2012.11.014.
31. Yamauchi, N., Nagaoka, H., Yamauchi, S., Teixeira, F. B., Miguez, P., Yamauchi, M.: Immunohistological characterization of newly formed tissues after regenerative procedure in immature dog teeth. J. Endodont. [online], roč. 37, 2011, č. 12, s. 1636–1641 [cit. 2015-07-16]. DOI: 10.1016/j.joen.2011.08.025.
32. Zhang, D.-D., Chen, X., Bao, Z.-F., Chen, M., Ding, Z.-J., Zhong, M.: Histologic comparison between platelet-rich plasma and blood clot in regenerative endodontic treatment: an animal study. J. Endodont. [online], roč. 40, 2014, č. 9, s. 1388–1393 [cit. 2015-07-20]. DOI: 10.1016/j.joen.2014.03.020.
33. Zhang, Q. Z., Nguyen, A. L., Yu, W. H., Le, A. D.: Human oral mucosa and gingiva: a unique reservoir for mesenchymal stem cells. J. Dental. Res. [online], roč. 91, 2012, č. 11, s. 1011–1018 [cit. 2015-07-16]. DOI: 10.1177/0022034512461016.
34. Zhu, W., Zhu, X., Huang, G. T.-J., Cheung, G. S. P., Dissanayaka, W. L., Zhang, C.: Regeneration of dental pulp tissue in immature teeth with apical periodontitis using platelet-rich plasma and dental pulp cells. Intern. Endod. J. [online], roč. 46, 2013, č. 10, s. 962–970 [cit. 2015-07-16]. DOI: 10.1111/iej.12087.
35. Zhu, X., Zhang, C., Huang, G. T.-J., Cheung, G. S. P., Dissanayaka, W. L., Zhu, W.: Transplantation of dental pulp stem cells and platelet-rich plasma for pulp regeneration. J. Endodont. [online], roč. 38, 2012, č. 12, s. 1604–1609 [cit. 2015-07-16]. DOI: 10.1016/j.joen.2012.09.001.
Labels
Maxillofacial surgery Orthodontics Dental medicineArticle was published in
Czech Dental Journal
2016 Issue 1
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