Decellularized Human Cornea for Reconstructing the Corneal Epithelium and Anterior Stroma

In this project, we strived to develop a decellularized human cornea to use as a scaffold for reconstructing the corneal epithelium and anterior stroma. Human cadaver corneas were decellularized by five different methods, including detergent- and nondetergent-based approaches. The success of each me...

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Bibliographic Details
Published in:Tissue engineering. Part C, Methods Methods, 2012-05, Vol.18 (5), p.34-348
Main Authors: Shafiq, Maryam A., Gemeinhart, Richard A., Yue, Beatrice Y.J.T., Djalilian, Ali R.
Format: Article
Language:English
Subjects:
Basement membranes
Cadaver
Cadavers
Cell-Free System - transplantation
Cells, Cultured
Cellular biology
Collagen (type IV)
Cornea
Corneal Stroma - cytology
Corneal Stroma - surgery
Corneal Transplantation - methods
Electron microscopy
Epithelial cells
Epithelium
Epithelium, Corneal - cytology
Epithelium, Corneal - surgery
Fibroblasts
Fibronectin
Guided Tissue Regeneration - methods
Humans
Laminin
Nitrogen
Nuclease
Reconstructive Surgical Procedures - methods
scaffolds
Sodium chloride
Sodium lauryl sulfate
Stroma
Tissue engineering
Tissue Scaffolds
Treatment Outcome
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Summary:In this project, we strived to develop a decellularized human cornea to use as a scaffold for reconstructing the corneal epithelium and anterior stroma. Human cadaver corneas were decellularized by five different methods, including detergent- and nondetergent-based approaches. The success of each method on the removal of cells from the cornea was investigated. The structural integrity of decellularized corneas was compared with the native cornea by electron microscopy. The integrity of the basement membrane of the epithelium was analyzed by histology and by the expression of collagen type IV, laminin, and fibronectin. Finally, the ability of the decellularized corneas to support the growth of human corneal epithelial cells and fibroblasts was assessed in vitro . Corneas processed using Triton X-100, liquid nitrogen, and poly(ethylene glycol) resulted in incomplete removal of cellular material. Corneas processed with the use of sodium dodecyl sulfate (SDS) or with sodium chloride (NaCl) plus nucleases successfully removed all cellular material; however, only the NaCl plus nuclease treatment kept the epithelial basement membrane completely intact. Corneas processed with NaCl plus nuclease supported both fibroblast and epithelial cell growth in vitro, while corneas treated with SDS supported the growth of only fibroblasts and not epithelial cells. Decellularized human corneas provide a scaffold that can support the growth of corneal epithelial cells and stromal fibroblasts. This approach may be useful for reconstructing the anterior cornea and limbus using autologous cells.
ISSN:1937-3384
1937-3392
DOI:10.1089/ten.tec.2011.0072