Peer-reviewed veterinary case report
Canine cornea changes after pig amniotic membrane transplant
By Tsuzuki, Keiko et al.·Published in Veterinary ophthalmology·2008·Department of Small Animal Clinical Science, Japan·View original on PubMed →
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Original publication title: Microstructure and glycosaminoglycan ratio of canine cornea after reconstructive transplantation with glycerin-preserved porcine amniotic membranes.
- Species:
- dog
Plain-English summary
A group of eight healthy dogs underwent corneal surgery using glycerin-preserved pig amniotic membranes to treat eye problems. After the surgery, the dogs initially showed cloudy corneas, but by day 40, their corneas became clearer, and the blood vessels in the eye reduced, allowing the pupils and irises to be seen again. The surgery appeared successful, as the corneas regained their normal thickness and structure over time. This method could be a promising option for treating certain eye conditions in dogs.
People also search for: dog eye surgery recovery · corneal opacity in dogs · glycerin-preserved amniotic membrane for dogs
Abstract
OBJECTIVE: Although amniotic membranes of canine, feline, and equine species have some advantages as corneal transplantation material in many canine ocular diseases, their softness, thinness, and low availability can pose problems. As an alternative, the more abundant porcine amniotic membranes may be used. This paper describes the use of glycerin-preserved porcine amniotic membranes in corneal transplantation in eight normal dogs. METHOD: A 0.4-mm deep recipient bed in the axial cornea of the OS of all dogs was created using an 8-mm Barron radial vacuum trephine. The recipient bed was then filled with amnion, and the entire cornea was covered with another piece of the glycerin-preserved membrane. The ocular signs evaluated were corneal opacity and corneal vascularization. The dogs were euthanized on days 5, 10, 20, or 40 after surgery, and samples were collected to evaluate corneal thickness, parenchymal cell number, mean collagen fibril diameter, collagen fibril content and the glycosaminoglycan (GAG) ratio. RESULTS: Corneal opacity was observed immediately after surgery. Restoration of corneal transparency, regression of corneal vascularization, and visualization of the pupil and iris were noted on day 40. CONCLUSIONS: The clinical observations were supported histologically by regained corneal thickness, parenchymal cell number, mean collagen fibril diameter, collagen fibril content, and GAG ratio, suggesting that this technique may be a novel method for the treatment of ocular surface disorders.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/18638347/