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Peer-reviewed veterinary case report

How to see eye fluid drainage problems in dogs with glaucoma

By Telle, Mary Rebecca et al.·Published in Veterinary ophthalmology·2022·Department of Surgical Sciences, United States·View original on PubMed

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Original publication title: Development and validation of methods to visualize conventional aqueous outflow pathways in canine primary angle closure glaucoma.

Species:
dog

Plain-English summary

A study looked at dogs with primary angle closure glaucoma (PACG), a condition that can cause high eye pressure and lead to blindness. Researchers used special imaging techniques to see if they could find problems in the eye's drainage pathways. They found that normal dog eyes showed clear drainage signals, while eyes affected by PACG had little to no signal and collapsed blood vessels. This suggests that the drainage pathways in dogs with PACG are severely affected, which could explain why some dogs don't respond well to treatment.

Abstract

PURPOSE: Angle closure glaucoma (PACG) is highly prevalent in dogs and is often refractory to medical therapy. We hypothesized that pathology affecting the post-trabecular conventional aqueous outflow pathway contributes to persistent intraocular pressure (IOP) elevation in dogs with PACG. The goal of this study was to determine the potential for aqueous angiography (AA) and optical coherence tomography (OCT) to identify abnormalities in post-trabecular aqueous outflow pathways in canine PACG. METHODS: AA and anterior segment OCT (Spectralis HRA + OCT) were performed ex vivo in 19 enucleated canine eyes (10 normal eyes and 9 irreversibly blind eyes from canine patients enucleated for management of refractory PACG). Eyes were cannulated and maintained at physiologic IOP (10-20 mmHg) prior to intracameral infusion of fluorescent tracer. OCT scleral line scans were acquired in regions of high and low perilimbal AA signal. Eyes were then perfusion fixed and cryosections prepared from 10/10 normal and 7/9 PACG eyes and immunolabeled for a vascular endothelial marker. RESULTS: Normal canine eyes showed segmental, circumferential limbal AA signal, whereas PACG eyes showed minimal or no AA signal. AA signal correlated with scleral lumens on OCT in normal dogs, but lumens were generally absent or flattened in PACG eyes. Collapsed vascular profiles were identified in tissue sections from PACG eyes, including those in which no lumens were identified on AA and OCT. CONCLUSIONS: In canine eyes with PACG, distal aqueous outflow channels are not identifiable by AA, despite normalization of their IOP, and intra-scleral vascular profiles are collapsed on OCT and histopathology.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/34581493/