Titanium mesh with expanded respiratory epithelial cells in tracheal reconstruction

Journal of Biomaterials and Tissue Engineering

Volumn 4, Issue 5, 2014, Pages 367-372

  Idrus, Ruszymah Bt Hj ^a,b   Noruddin, Nur Adelina Ahmad ^a   Cheng, Chen Hui ^c   Lokanathan, Yogeswaran ^a   Saim, Aminuddin Bin ^a,d  

^a UNIVERSITI KEBANGSAAN MALAYSIA MEDICAL CENTER   (Malaysia)

^b UNIVERSITI KEBANGSAAN MALAYSIA   (Malaysia)

^c UNIVERSITY PUTRA MALAYSIA   (Malaysia)

^d Ampang Puteri Specialist Hospital Malaysia   (Malaysia)

Author keywords

Bilayered trachea mucosa; Sheep model airway reconstruction; Tissue engineering

Indexed keywords

MOLECULAR SCAFFOLD; POLYGLACTIN; POLYPROPYLENE; TITANIUM;

ANIMAL CELL; ANIMAL EXPERIMENT; ANIMAL MODEL; ANIMAL TISSUE; ARTICLE; CELL VIABILITY; CONTROLLED STUDY; ENDOTRACHEAL INTUBATION; FIBROBLAST; FLUORESCENCE ANALYSIS; HISTOLOGY; HYBRID BI LAYERED TRACHEA; LUNG ALVEOLUS EPITHELIUM CELL; MALE; NONHUMAN; RESPIRATORY EPITHELIUM; SUTURE; TRACHEA; TRACHEA INJURY; TRACHEA RECONSTRUCTION; TRACHEOSTOMY; TURBINATE;

ANIMALIA; OVIS ARIES;

EID: 84920946187     PISSN: 21579083     EISSN: 21579091     Source Type: Journal    
DOI: 10.1166/jbt.2014.1177     Document Type: Article

References (24)

1. A. B. Saim, Y. Cao, Y. Weng, C. N. Chang, M. A. Vacanti, C. A. Vacanti, and R. D. Eavey, Engineering autogenous cartilage in the shape of a helix using an injectable hydrogel scaffold. Laryngoscope 110, 1694 (2000)
2. S. Kamil, M. Vacanti, B. Aminuddin, M. Jackson, C. Vacanti, and R. Eavey, Tissue engineering of a human sized and shaped auricle using a mold. Laryngoscope 114, 867 (2004)
3. P. Jungebluth, E. Alici, S. Baiguera, K. Le Blanc, P. Blomberg, B. Bozóky, C. Crowley, O. Einarsson, K.-H. Grinnemo, and T. Gudbjartsson, Tracheobronchial transplantation with a stem-cellseeded bioartificial nanocomposite: A proof-of-concept study. Lancet 378, 1997 (2011)
4. P. Jungebluth, A. Bader, S. Baiguera, S. Möller, M. Jaus, M. L. Lim, K. Fried, K. R. Kjartansdóttir, T. Go, and H. Nave, The concept of in vivo airway tissue engineering. Biomaterials 33, 4319 (2012)
5. X. Luo, Y. Liu, Z. Zhang, R. Tao, Y. Liu, A. He, Z. Yin, D. Li, W. Zhang, and W. Liu, Long-term functional reconstruction of segmental tracheal defect by pedicled tissue-engineered trachea in rabbits. Biomaterials 34, 3336 (2013)
6. B. H. I. Ruszymah, K. Chua, M. A. Latif, F. N. Hussein, and A. B. Saim, Formation of in vivo tissue engineered human hyaline cartilage in the shape of a trachea with internal support. Int. J. Pediatr. Otorhinolaryngol. 69, 1489 (2005)
7. H. C. Grillo, Tracheal replacement: A critical review. Ann. Thorac. Med. 73, 1995 (2002)
8. N. A. A. Noruddin, A. B. Saim, K. H. Chua, and R. Idrus, Human nasal turbinates as a viable source of respiratory epithelial cells using co-culture system versus dispase dissociation technique. Laryngoscope 117, 2139 (2007)
9. P. Macchiarini, P. Jungebluth, T. Go, M. Asnaghi, L. E. Rees, T. A. Cogan, A. Dodson, J. Martorell, S. Bellini, and P. P. Parnigotto, Clinical transplantation of a tissue-engineered airway. Lancet 372, 2023 (2008)
10. A. Panoskaltsis-Mortari, The future of tissue-engineered organs for transplant? It’s here! Semin. Thorac. Cardiovasc. Surg. 24, 13 (2012)
11. B. Ruszymah, Autologous human fibrin as the biomaterial for tissue engineering. Med. J. Malaysia 59, 30 (2004)
12. A. Mazlyzam, B. Aminuddin, N. Fuzina, M. Norhayati, O. Fauziah, M. Isa, L. Saim, and B. Ruszymah, Reconstruction of living bilayer human skin equivalent utilizing human fibrin as a scaffold. Burns 33, 355 (2007)
13. S. Munirah, S. Kim, B. Ruszymah, and G. Khang, The use of fibrin and poly(lactic-co-glycolic acid) hybrid scaffold for articular cartilage tissue engineering: An in vivo analysis. Eur. Cell Mater. 15, 41 (2008)
14. S. Munirah, O. Samsudin, H. Chen, S. S. Salmah, B. Aminuddin, and B. Ruszymah, Articular cartilage restoration in load-bearing osteochondral defects by implantation of autologous chondrocyte-fibrin constructs. J. Bone Joint Surg. Br. 89, 1099 (2007)
15. K. Wang, The use of titanium for medical applications in the USA. Mater. Sci. Eng. A 213, 134 (1996)
16. M. Mohd-Heikal, B. Aminuddin, J. Jeevanan, H. Chen, S. Sharifah, and B. Ruszymah, Autologous implantation of bilayered tissueengineered respiratory epithelium for tracheal mucosal regenesis in a sheep model. Cells Tissues Organs 192, 292 (2010)
17. K. Kojima, L. J. Bonassar, A. K. Roy, C. A. Vacanti, and J. Cortiella, Autologous tissue-engineered trachea with sheep nasal chondrocytes. J. Thorac. Cardiovasc. Surg. 123, 1177 (2002)
18. M. Kanzaki, M. Yamato, H. Hatakeyama, C. Kohno, J. Yang, T. Umemoto, A. Kikuchi, T. Okano, and T. Onuki, Tissue engineered epithelial cell sheets for the creation of a bioartificial trachea. Tissue Eng. 12, 1275 (2006)
19. A. Bader and P. Macchiarini, Moving towards in situ tracheal regeneration: The bionic tissue engineered transplantation approach. J. Cell Mol. Med. 14, 1877 (2010)
20. B. Ruszymah, B. A. Izham, M. M. Heikal, S. Khor, M. Fauzi, and B. Aminuddin, Human respiratory epithelial cells from nasal turbinate expressed stem cell genes even after serial passaging. Med. J. Malaysia 66, 441 (2011)
21. L. M. Janssen, G. J. van Osch, J. P. Li, N. Kops, K. de Groot, J. W. Von den Hoff, L. Feenstra, and J. A. Hardillo, Tracheal reconstruction: Mucosal survival on porous titanium. Arch. Otolaryngol. Head Neck Surg. 135, 472 (2009)
22. A. Mahapatro, Metals for biomedical applications and devices. J. Biomater. Tissue Eng. 2, 259 (2012)
23. M. Yener, G. O. Acar, H. Cansiz, B. Öz, E. Cigerciogullari, and O. Seymen, Use of titanium mesh in laryngotracheal reconstruction: An experimental study on rabbits. Eur. Arch. Otorhinolaryngol. 267, 1247 (2010)
24. K. Kobayashi, Y. Nomoto, T. Suzuki, Y. Tada, M. Miyake, A. Hazama, S. Kanemaru, T. Nakamura, and K. Omori, Effect of fibroblasts on tracheal epithelial regeneration in vitro. Tissue Eng. 12, 2619 (2006).