In this article, we provide the results of experimental studies demonstrating that corneal avascularity is an active process involving the production of anti-angiogenic factors, which counterbalance the proangiogenic/lymphangiogenic factors that are upregulated during wound healing. We also summarize pertinent published reports regarding corneal neovascularization (NV), corneal lymphangiogenesis and corneal angiogenic/lymphangiogenic privilege. We outline the clinical causes of corneal NV, and discuss the angiogenic proteins (VEGF and bFGF) and angiogenesis regulatory proteins. We also describe the role of matrix metalloproteinases MMP-2, -7, and MT1-MMP, anti-angiogenic factors, and lymphangiogenic regulatory proteins during corneal wound healing. Established and potential new therapies for the treatment of corneal neovascularization are also discussed.
Maintenance of ocular viability is one of the major impediments to successful whole-eye transplantation. This review provides a comprehensive understanding of the current literature to help guide future studies in order to overcome this hurdle. A systematic multistage review of published literature was performed. Three specific questions were addressed: (1) Is recovery of visual function following eye transplantation greater in cold-blooded vertebrates when compared with mammals? (2) Is outer retina function following enucleation and reperfusion improved compared with enucleation alone? (3) Following optic-nerve transection, is there a correlation between retinal ganglion cell (RGC) survival and either time after transection or proximity of the transection to the globe? In a majority of the studies performed in the literature, recovery of visual function can occur after whole-eye transplantation in cold-blooded vertebrates. Following enucleation (and reperfusion), outer retinal function is maintained from 4 to 9 h. RGC survival following optic-nerve transection is inversely related to both the time since transection and the proximity of transection to the globe. Lastly, neurotrophins can increase RGC survival following optic-nerve transection. This review of the literature suggests that the use of a donor eye is feasible for whole-eye transplantation.
Purpose: To determine the feasibility of restoring electroretinogram (ERG) activity of exenterated swine eyes following in vivo arterial anastomosis. Methods: The carotid artery was exposed and cannulated. The eye was exenterated along with the extraocular muscles and surrounding connective tissue. Prior to eye transplantation, the ophthalmic artery was identified and anastomosed to the carotid artery. Perfusion was confirmed by injecting FITC-conjugated tomato lectin into the anastomotic tubing and performing confocal microscopy of retinal flat-mounts. Dark-adapted ERG and optic nerve responses were analyzed to assess retinal function, and dilated eye examination and retinal imaging were performed. Results: Arterial anastomosis resulted in perfusion of blood from the carotid artery through the anastomosis and into the ophthalmic artery. Arterial perfusion was confirmed by the presence of tomato lectin-stained retinal vessels. Immediately following the anastomosis, ERG and optic nerve activities were minimal. However, an "a" wave (representing photoreceptor activity), "b" wave (representing bipolar cell activity), and optic nerve responses (representing RGC activity) were detected 30 min after reperfusion. Conclusions: Electroretinographic function is partially recovered following re-anastomosis of exenterated swine eyes. This model would be useful for further studies on eye transplantation.
The significance of collagen XVIII in the regulation of corneal reinnervation remains largely unknown. We used whole-mount immunoconfocal microscopy to localize collagen XVIII to the nerve basement membrane of wild-type (WT) mouse corneas. Transmission electron microscopy showed corneal nerve disorganization in collagen XVIII knockout mice (col18a1 À/À ). Antibody 2H3-specific neurofilament colocalized with collagens XVIII and IV and laminin-2 in WT mouse corneas, but did not colocalize with collagen IV and laminin-2 in col18a1 À/À mouse corneas. Following keratectomy, col18a1À/À mice displayed decreased corneal neurite extension compared to WT mice. Our data indicate that collagen XVIII may play an important role in corneal reinnervation after wounding.
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