Effect of subconjunctival glucose on retinal ganglion cell survival in experimental retinal ischaemia and contrast sensitivity in human glaucoma.
Shibeeb O'Sam, Chidlow Glyn, Han Guoge, Wood John P M, Casson Robert J
AI Summary
Subconjunctival glucose protected rat retinal ganglion cells from ischemic damage and temporarily improved contrast sensitivity in human glaucoma, suggesting bioenergetic-based therapies warrant further investigation.
Abstract
Purpose
This study aims to evaluate the effect of subconjunctival glucose on the retinal ganglion cells (RGCs) in experimental retinal ischaemia and contrast sensitivity in humans with primary open-angle glaucoma (POAG).
Methods
First, we measured the intravitreal concentration of glucose at various time points after a subconjunctival injection of 100 μl of 50% glucose to Sprague-Dawley rats. Next, treatment and control groups received 50% subconjunctival glucose and iso-osmotic (8%) saline, respectively, 1 h prior to a unilateral ischaemic retinal injury; 7 days later, the damage profiles were compared using RGC and axon counts. Subsequently, we conducted a double-blind, crossover, pilot clinical study in seven eyes of five pseudophakic subjects with severe POAG. Subjects received either 0.3 mL of 50% glucose subconjunctivally or iso-osmotic (8%) saline, then vice versa after a 2-3 week 'wash-out' period; change in contrast sensitivity from baseline was the primary outcome.
Results
Subconjunctival glucose preserved approximately 60% of Brn3a-positive RGCs in all retinal zones compared with an 80% loss in control retinas, and rescued approximately 40% of the axonal loss. In the human trial, the contrast sensitivity at 12 cycles/degree was 0.24 log units greater than baseline (95% confidence interval 0.12-0.36; P < 0.001).
Conclusions
Subconjunctival glucose partially protects RGC somata and axons against an ischaemic insult and temporarily recovers contrast sensitivity in patients with severe POAG. Although an unlikely therapeutic strategy for POAG, the findings motivate further bioenergetic-based research in glaucoma and other optic nerve and retinal diseases, where energy failure may be part of the pathogenesis.
MeSH Terms
Shields Classification
Key Concepts3
Subconjunctival glucose preserved approximately 60% of Brn3a-positive RGCs in all retinal zones compared with an 80% loss in control retinas in Sprague-Dawley rats subjected to unilateral ischaemic retinal injury.
Subconjunctival glucose rescued approximately 40% of the axonal loss in Sprague-Dawley rats subjected to unilateral ischaemic retinal injury.
In a double-blind, crossover, pilot clinical study, subconjunctival 50% glucose resulted in a contrast sensitivity at 12 cycles/degree that was 0.24 log units greater than baseline (95% confidence interval 0.12-0.36; P < 0.001) in seven eyes of five pseudophakic subjects with severe primary open-angle glaucoma (POAG).
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