Evaluation of corneal cell growth on tissue engineering materials as artificial cornea scaffolds
- PMID: 24392340
- PMCID: PMC3874531
- DOI: 10.3980/j.issn.2222-3959.2013.06.23
Evaluation of corneal cell growth on tissue engineering materials as artificial cornea scaffolds
Abstract
The keratoprosthesis (KPro; artificial cornea) is a special refractive device to replace human cornea by using heterogeneous forming materials for the implantation into the damaged eyes in order to obtain a certain vision. The main problems of artificial cornea are the biocompatibility and stability of the tissue particularly in penetrating keratoplasty. The current studies of tissue-engineered scaffold materials through comprising composites of natural and synthetic biopolymers together have developed a new way to artificial cornea. Although a wide agreement that the long-term stability of these devices would be greatly improved by the presence of cornea cells, modification of keratoprosthesis to support cornea cells remains elusive. Most of the studies on corneal substrate materials and surface modification of composites have tried to improve the growth and biocompatibility of cornea cells which can not only reduce the stimulus of heterogeneous materials, but also more importantly continuous and stable cornea cells can prevent the destruction of collagenase. The necrosis of stroma and spontaneous extrusion of the device, allow for maintenance of a precorneal tear layer, and play the role of ensuring a good optical surface and resisting bacterial infection. As a result, improvement in corneal cells has been the main aim of several recent investigations; some effort has focused on biomaterial for its well biological properties such as promoting the growth of cornea cells. The purpose of this review is to summary the growth status of the corneal cells after the implantation of several artificial corneas.
Keywords: amniotic membrane; artificial cornea; biomaterial; corneal cells collagen; fibrin; keratoprosthesis; tissue-engineered scaffold.
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References
-
- Foster A. Vision 2020-the right to sight. Trop Doct. 2003;33(4):193–194. - PubMed
-
- Princz MA, Sheardown H, Griffith M. Corneal tissue engineering versus synthetic artificial corneas, in Biomaterials and Regenerative Medicine in Ophthalmology. In: Chirila TV, editor. Cambridge: CRC Press/Woodhead Publishing, UK; 2009.
-
- Carrier P, Deschambeault A, Talbot M, Giasson CJ, Auger FA, Guérin SL, Germain L. Characterization of wound reepithelialization using a new human tissue-engineered corneal wound healing model. Invest Ophthalmol Vis Sci. 2008;49(4):1376–1385. - PubMed
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