Autologous Corneal Repair Using in-vitro Adult Stem Cell Expansion
Peter J Wilson, Jeremy J Mathan, Jennifer J McGhee, Salim Ismail, Trevor Sherwin
Affiliation
Department of Ophthalmology, New Zealand National Eye Centre, University of Auckland, Auckland, New Zealand
Corresponding Author
Professor Charles McGhee, Department of Ophthalmology, Faculty of Medical and Health Sciences, The University of Auckland, Level 4, 85 Park Road, Grafton, Auckland Private Bag 92019, Auckland, New Zealand; Tel: +6493737599; E-mail: c.mcghee@auckland.ac.nz
Citation
McGhee, C., et al. Autologous corneal repair using in vitro adult stem cell expansion. (2016) J Stem Cell Regen Bio 2(1): 1-7.
Copy rights
© 2016 McGhee, C. This is an Open access article distributed under the terms of Creative Commons Attribution 4.0 International License.
Keywords
Abstract
The human cornea requires a smooth, transparent, robust and renewable surface to maintain its key optical and protective functions. The corneal epithelium is maintained by a local population of “stem cells”, which although not truly pluripotent, are capable of self-regeneration by asymmetric division. These cells are located at the limbus - the region where the conjunctiva-covered sclera meets the cornea. The widely accepted “XYZ” hypothesis of corneal epithelial maintenance postulates that limbal stem cells give rise to transient amplifying cells, which migrate and mature in both a centripetal and anterograde fashion towards the corneal surface. Many diseases and injuries to the limbus can cause the loss of this vital reservoir of cells and, due to subsequent surface irregularity and loss of corneal transparency, result in severe visual impairment, including blindness. Indeed, in some regions of the developing world corneal blindness may be more prevalent than cataract blindness. Such corneal blindness was previously irreversible, but over the past 30 years it has been possible to improve or restore vision using limbal “stem cell” transplants. Pioneering techniques required large tissue grafts that could compromise the donor eye, but recent developments allow the harvesting, ex-vivo expansion and transplantation of limbal stem cells from relatively small biopsies. In this review we outline limbal stem cell physiology in health and disease, describe our surgical approach to limbal stem cell deficiency, illustrate results of this intervention in our practice, and consider current and future advances in this arena.
