Preparation and physical properties of a novel biocompatible porcine corneal acellularized matrix
详细信息 查看全文
- 作者:Yi Shao (1) (2) (4)
Luowa Quyang (2)
Yueping Zhou (2)
Jing Tang (2) (3)
Yuehui Tan (2)
Qiuping Liu (2)
Zhirong Lin (1) (2)
Tingting Yin (2)
Fangfang Qiu (2)
Zuguo Liu (2) (5) - 关键词:Cornea matrix ; Human sera ; Tissue engineering ; Decellularization biocompatibily
- 刊名:In Vitro Cellular & Developmental Biology - Animal
- 出版年:2010
- 出版时间:July 2010
- 年:2010
- 卷:46
- 期:7
- 页码:600-605
- 全文大小:384KB
- 参考文献:1. Amano S.; Shimomura N.; Yokoo S.; Araki-Sasaki K.; Yamagami S. Decellularizing corneal stroma using N2 gas. / Mol Vis 14: 878-82; 2008.
2. Duan X.; Sheardown H. Dendrimer crosslinked collagen as a corneal tissue engineering scaffold: mechanical properties and corneal epithelial cell interactions. / Biomaterials 27: 4608-617; 2006. CrossRef
3. Ezzelarab M.; Garcia B.; Azimzadeh A.; Sun H.; Lin C. C.; Hara H.; Kelishadi S.; Zhang T.; Lin Y. J.; Tai H. C.; Wagner R.; Thacker J.; Murase N.; McCurry K.; Barth R. N.; Ayares D.; Pierson 3rd R. N.; Cooper D. K. The innate immune response and activation of coagulation in alpha1,3-galactosyltransferase gene-knockout xenograft recipients. / Transplantation 87: 805-12; 2009. CrossRef
4. Gilbert C.; Foster A. Bull. / WHO 79: 227-32; 2001.
5. Gilbert T. W.; Sellaro T. L.; Badylak S. F. Decellularization of tissues and organs. / Biomaterials 27: 3675-683; 2006.
6. Germain L.; Carrier P.; Auger F. A.; Salesse C.; Guérin S. L. Can we produce a human corneal equivalent by tissue engineering? / Prog Retin Eye Res 19: 497-27; 2000. CrossRef
7. Griffith M.; Osborne R.; Munger R.; Xiong X.; Doillon C. J.; Laycock N. L.; Hakim M.; Song Y.; Watsky M. A. Functional human corneal equivalents constructed from cell lines. / Science 286: 2l69-172; 1999. CrossRef
8. Hisashi Y.; Yamada K.; Kuwaki K.; Tseng Y. L.; Dor F. J.; Houser S. L.; Robson S. C.; Schuurman H. J.; Cooper D. K.; Sachs D. H.; Colvin R. B.; Shimizu A. Rejection of cardiac xenografts transplanted from alpha1,3-galactosyltransferase gene-knockout (GalT-KO) pigs to baboons. / Am J Transplant 8: 2516-526; 2008. CrossRef
9. Kampmeier J.; Radt B.; Birngruber R.; Brinkmann R. Thermal and biomechanical parameters of porcine cornea. / Cornea 19: 355-63; 2000. CrossRef
10. Lai L.; Prather R. S. Progress in producing knockout models for xenotransplantation by nuclear transfer. / Ann Med 34: 501-06; 2002. CrossRef
11. Lin X. C.; Hui Y. N.; Wang Y. S.; Meng H.; Zhang Y. J.; Jin Y. Lamellar keratoplasty with a graft of lyophilized acellular porcine corneal stroma in the rabbit. / Vet Ophthalmol 11: 61-6; 2008. CrossRef
12. Liu Y.; Gan L.; Carlsson D. J.; Fagerholm P.; Lagali N.; Watsky M. A.; Munger R.; Hodge W. G.; Priest D.; Griffith M. A simple, cross-linked collagen tissue substitute for corneal implantation. / Invest Ophthalmol Vis Sci 47: 1869-875; 2006. CrossRef
13. Natu M. V.; Sardinha J. P.; Correia I. J.; Gil M. H. Controlled release gelatin hydrogels and lyophilisates with potential application as ocular inserts. / Biomed Mater 2: 241-49; 2007. CrossRef
14. Sasaki S.; Funamoto S.; Hashimoto Y.; Kimura T.; Honda T.; Hattori S.; Kobayashi H.; Kishida A.; Mochizuki M. In vivo evaluation of a novel scaffold for artificial corneas prepared by using ultrahigh hydrostatic pressure to decellularize porcine corneas. / Mol Vis 15: 2022-028; 2009.
15. Tai H. C.; Ezzelarab M.; Hara H.; Ayares D.; Cooper D. K. Progress in xenotransplantation following the introduction of gene-knockout technology. / Transpl Int 20: 107-17; 2007. CrossRef
16. Tseng Y. L.; Kuwaki K.; Dor F.; Shimizu A.; Houser S.; Hisashi Y.; Yamada K.; Robson S. C.; Awwad M.; Schuurman H. J.; Sachs D. H.; Cooper D. K. alpha1, 3-Galactosyltransferase gene-knockout pig heart transplantation in baboons with survival approaching 6?mo. / Transplantation 80: 1493-500; 2005. CrossRef
17. Wang H.; Tao T.; Tang J.; Mao Y. H.; Li W.; Peng J.; Tan G.; Zhou Y. P.; Zhong J. X.; Tseng S. C.; Kawakita T.; Zhao Y. X.; Liu Z. G. Importin 13 serves as a potential marker for corneal epithelial progenitor cells. / Stem Cells 27: 2516-526; 2009. CrossRef
18. Xu Y. G.; Xu Y. S.; Huang C.; Feng Y.; Li Y.; Wang W. Development of a rabbit corneal equivalent using an acellular corneal matrix of a porcine substrate. / Mol Vis 14: 2180-189; 2008.
19. Zhang Y.; Zhang M. Synthesis and characterization of macroporous chitosan/calcium phosphate composite scaffolds for tissue engineering. / J Biomed Mater Res 55: 304-12; 2001. CrossRef - 作者单位:Yi Shao (1) (2) (4)
Luowa Quyang (2)
Yueping Zhou (2)
Jing Tang (2) (3)
Yuehui Tan (2)
Qiuping Liu (2)
Zhirong Lin (1) (2)
Tingting Yin (2)
Fangfang Qiu (2)
Zuguo Liu (2) (5)
1. Zhongshan Ophthalmic Center, State Key Laboratory of Ophthalmology of Sun Yat-sen University, Guangzhou, Guangdong Province, China
2. Fujian Province Key Laboratory of Ophthalmology and Vision Research, Eye Institute of Xiamen University, Xiamen, Fujian Province, China
4. The First Affiliated Hospital of Nanchang University, Nanchang, Jiangxi Province, China
3. Affiliated Zhongshan Hospital of Xiamen University, Xiamen, Fujian Province, China
5. Eye Institute of Xiamen University, No. 168 Da Xue Road, Xiamen, 361005, People’s Republic of China
文摘
This study was to investigate the stability, physico-mechanical property and biocompatibility of porcine corneal acellularized matrix (PCAM) that was prepared using human sera treatment to decellularize corneas. The stability (the rate of biodegradation) and physico-mechanical property (water uptake, density, and porosity) of PCAM were not compromised, compared with porcine fresh cornea matrix (PFCM, p-gt;-.05). The contact and extract cytotoxicity tests with human corneal epithelial cells and human keratocytes showed that PCAM has a good biocompatibility ex vivo and no cytotoxic effect. These results present the ability to create safety scaffolds that function as cornea grafts and provide a novel experimental approach for the study of cornea tissue engineering using acellular porcine cornea.