Barrera-Ramírez E, Rico-Escobar E, Garrido-Cardona RE

Language: Spanish
References: 38
Page: 120-123
PDF size: 69.38 Kb.

ABSTRACT

Tissue engineering offers, through new technologies, an ex vivo generation of organs and functional tissues as grafts for transplants, for the improvement and substitution of biological functions, with an absence of immunological response. The treatment of extended tracheal lesions is a substitution of the affected segment; nevertheless, the allogeneic transplant has failed and the use of synthetic materials has not had good results. New tissue engineering technology is being developed to offer a tracheal graft for a posterior implantation. The purpose of this article is to review all the methods and components used by the engineering of tissue for tracheal grafts.

REFERENCES

1. Acosta L, Cruz PV, Zagalo C, Santiago N. [Iatrogenic tracheal stenosis following endotracheal intubation: a study of 20 clinical cases]. Acta Otorrinolaringol Esp. 2004;54(3):202-10.

2. Brichet A, Verkindre C, Dupont J, et al. Multidisciplinary approach to management of postintubation tracheal stenoses. J Eur Respir. 1999;13(4):888-93.

3. Antón-Pacheco Sánchez JL, Cuadros García J, Villafruela Sanz MA, Cano Novillo I, García Vázquez A, Berchi García FJ. [Tracheal stenosis: individualized treatment]. Cir Pediatr. 2002;15(1):8-14.

4. Grillo HC. Tracheal replacement: a critical review. Ann Thorac Surg. 2002;73(6):1995-2004.

5. Jacobs JR. Investigations into tracheal prosthetic reconstruction. Laryngoscope. 1988;98(11):1239-45.

6. Cohen FC, Filler RM, Konuma K, Bahoric A, Kent G, Smith C. The successful reconstruction of thoracic tracheal defects with free periosteal gratfs. J Pediatr Surg. 1985;20(6):852.

7. Birchall M, Macchiarini P. Airway transplantation: a debate worth having? Transplantation. 2008;85(8):1075-80.

8. Schenke-Layland K. From tissue engineering to regenerative medicine- the potential and the pitfalls. Adv Drug Deliv Rev. 2011;63(4-5): 193-4.

9. Atala A, Bauer SB, Soker S, Yoo JJ, Retik AB. Tissue-engineered autologous bladders for patients needing cystoplasty. Lancet. 2006; 367(9518):1241-6.

10. Svenja H, Schenke-Layland K. Tracheal tissue engineering: building on a strong foundation. Expert Rev Med Devices. 2013;10(1):33-5.

11. Yang L, Korom S, Welti M, et al. Tissue engineered cartilage generated from human trachea using DegraPol scaffold. Eur J Cardiothorac Surg. 2003;24(2):201-7.

12. Lopez-Vidriero MT. Mucus as a natural barrier. Respiration. 1989;55 Suppl 1:28-32.

13. Neville WE, Bolanowski PJ, Kotia GG. Clinical experience with the silicone tracheal prosthesis. J Thorac Cardiovasc Surg. 1990;99(4):604-12.

14. Conconi MT, De Coppi P, Di Liddo R, et al. Tracheal matrices, obtained by a detergent-enzymatic method, support in vitro the adhesion of chondrocytes and tracheal epithelial cells. Transpl Int. 2005;18(6):727-34.

15. Macchiarini P, Jungebluth P, Go T, et al. Clinical transplantation of a tissue-engineered airway. Lancet. 2008;372(9655):2023-30.

16. Badylak SF, Weiss DJ, Caplan A, Macchiarini P. Engineered whole organs and complex tissues. Lancet. 2012;379(9819):943-52.

17. Bayrak A, Tyralla M, Ladhoff J, et al. Human immune responses to porcine xenogeneic matrices and their extracellular matrix constituents in vitro. Biomaterials. 2010;31(14):3793-803.

18. Schenke-Layland K, Vasilevski O, Opitz F, et al. Impact of decellularization of xenogeneic tissue on extracellular matrix integrity for tissue engineering of heart valves. J Struct Biol. 2003;143(3):201-8.

19. Baiguera S, Birchall MA, Macchiarini P. Tissue-engineered tracheal transplantation. Transplantation. 2010;89(5):485-91.

20. Petersen TH, Calle EA, Colehour MB, Niklason LE. Matrix composition and mechanics of decellularized lung scaffolds. Cells Tissues Organs. 2012;195(3):222-31.

21. Hinderer S, Schesny M, Bayrak A, et al. Engineering of fibrillardecorin matrices for a tissue-engineered trachea. Biomaterials. 2012;33(21): 5259-66.

22. Schaefer L, Schaefer RM. Proteoglycans:from structural compounds to signaling molecules. Cell Tissue Res. 2010;339(1):237-46.

23. Jungebluth P, Go T, Asnaghi A, et al. Structural and morphological evaluation of a novel enzymatic detergent tissue engineered tracheal tubular matrix. J Thorac Cardiovasc Surg. 2009;138(3):586.

24. Macchiarini P, Walles T, Biancosino C, Mertsching H. First human transplantation of a bioengineered airway tissue. J Thorac Cardiovasc Surg. 2004;128(4):638-41.

25. Britt JC, Park SS. Autogenous tissue-engineered cartilage: evaluation as an implant material. Arch Otolaryngol Head Neck Surg. 1998;124(6):671-7.

26. Okumu,s A, Cizmeci O, Kabakas F, Kuvat SV, Bilir A, Aydin A. Circumferential trachea reconstruction with a prefabricated axial bio-synthetic flap: Experimental study. Int J Pediatr Otorhinolaryngol. 2005;69(3):335-44.

27. Kanzaki M, Yamato M, Hatakeyama H, et al. Tissue engineered epithelial cell sheets for the creation of a bioartificial trachea. Tissue Eng. 2006;12(5):1275-83.

28. Kojima K, Ignotz RA, Kushibiki T, Tinsley KW, Tabata Y, Vacanti CA. Tissue-engineered trachea from sheep marrow stromal cells with transforming growth factor beta2 released from biodegradable microspheres in a nude rat recipient. J Thorac Cardiovasc Surg. 2004;128(1):147-53.

29. Jungebluth P, Go T, Asnaghi A, et al. Structural and morphological evaluation of a novel detergent- enzymatic tissue-engineered tracheal tubular matrix. J Thorac Cardiovasc Surg. 2009;138(3):586-93; discussion 592-3.

30. Kim BS, Baez CE, Atala A. Biomaterials for tissue engineering. World J Urol. 2000;18(1):2-9.

31. Schmidt CE, Baier JM. Acellular vascular tissues: Natural biomaterials for tissue repair and tissue engineering. Biomaterials. 2000;21(22): 2215-31.

32. Sato T, Tao H, Araki M, Ueda H, Omori K, Nakamura T. Replacement of the left main bronchus with a tissue-engineered prosthesis in a canine model. Ann ThoracSurg. 2008;86(2):422-8.

33. Elliott MJ, De Coppi P, Speggiorin S, et al. Stem-cell-based, tissue engineered tracheal replacement in a child: a 2-year follow-up study. Lancet. 2012;380(9846):994-1000.

34. Vacanti CA, Paige KT, Kim WS, Sakata J, Upton J, Vacanti JP. Experimental tracheal replacement using tissue-engineered cartilage. J Pediatr Surg. 1994;29(2):201-4; discussion 204-5.

35. Go T, Jungebluth P, Baiguero S, et al. Both epithelial cells and mesenchymal stem cell derived chondrocytes contribute to the survival of tissue- engineered airway transplants in pigs. J Thorac Cardiovasc Surg. 2010;139(2):437-43

36. Pfenninger C, Leinhase I, Endres M, et al. Tracheal remodeling: comparison of different composite cultures consisting of human respiratory respiratory epithelial cells and human chondrocytes. In Vitro Cell Dev Biol Anim. 2007;3(1):28-36.

37. Kunisaki SM, Freedman DA, Fauza DO. Fetal tracheal reconstruction with cartilaginous grafts engineered from mesenchymal amniocytes. J Pediatr Surg. 2006;41(4):675-82; discussion 675-82.

38. Walles T, Giere B, Hofmann M, et al. Experimental generation of a tissue-engineered functional and vascularized trachea. J Thorac Cardiovasc Surg. 2004;128(6):900-6.