Reduced Aqueous Humor Outflow Pathway Arborization in Childhood Glaucoma Eyes.
Gupta Shikha, Zhang Xiaowei, Panigrahi Arnav, Shakha, Fang Raymond, Strohmaier Clemens A, Zhang Hao F, Weinreb Robert N, Gupta Viney, Huang Alex S
AI Summary
Childhood glaucoma eyes show fewer, less branched aqueous outflow pathways compared to non-glaucoma eyes. This anatomical difference may explain some surgical failures by creating trabecular-independent outflow resistance.
Abstract
Purpose
To compare aqueous humor outflow (AHO) pathway patterns between eyes of childhood glaucoma patients and non-glaucomatous patients receiving cataract surgery.
Methods
Aqueous angiography was performed in childhood glaucoma eyes (n = 5) receiving glaucoma surgery and in pediatric (n = 1) and healthy adult (n = 5) eyes receiving cataract surgery. Indocyanine green (0.4%) was introduced into the anterior chamber, and AHO was imaged using an angiographic camera (SPECTRALIS HRA+OCT with Flex Module). Images were acquired and analyzed (ImageJ with Analyze Skeleton 2D/3D plugin) from the nasal sides of the eyes, the usual site of glaucoma angle procedures. Image analysis endpoints included AHO vessel length, maximum vessel length, number of branches, number of branch junctions, and vessel density.
Results
Qualitatively, childhood glaucoma eyes demonstrated lesser AHO pathway arborization compared to pediatric and adult eyes without glaucoma. Quantitatively, childhood glaucoma and healthy adult cataract eyes showed similar AHO pathway average branch lengths and maximum branch lengths (P = 0.49-0.99). However, childhood glaucoma eyes demonstrated fewer branches (childhood glaucoma, 198.2 ± 35.3; adult cataract, 506 ± 59.5; P = 0.002), fewer branch junctions (childhood glaucoma, 74.6 ± 13.9; adult cataract, 202 ± 41.2; P = 0.019), and lower vessel densities (childhood glaucoma, 8% ± 1.4%; adult cataract, 17% ± 2.5%; P = 0.01).
Conclusions
Childhood glaucoma patients demonstrated fewer distal AHO pathways and lesser AHO pathway arborization. These anatomical alternations may result in a new source of trabecular meshwork-independent AHO resistance in this disease cohort.
Translational relevance: Elevated distal outflow pathway resistance due to decreased AHO pathway arborization may explain some cases of failed trabecular bypass surgery in childhood glaucoma.
MeSH Terms
Shields Classification
Key Concepts5
Childhood glaucoma eyes demonstrated fewer branches (198.2 ± 35.3) compared to healthy adult cataract eyes (506 ± 59.5) in the aqueous humor outflow pathway (P = 0.002).
Childhood glaucoma eyes demonstrated fewer branch junctions (74.6 ± 13.9) compared to healthy adult cataract eyes (202 ± 41.2) in the aqueous humor outflow pathway (P = 0.019).
Childhood glaucoma eyes demonstrated lower vessel densities (8% ± 1.4%) compared to healthy adult cataract eyes (17% ± 2.5%) in the aqueous humor outflow pathway (P = 0.01).
Childhood glaucoma patients demonstrated fewer distal aqueous humor outflow (AHO) pathways and lesser AHO pathway arborization.
Elevated distal outflow pathway resistance due to decreased aqueous humor outflow (AHO) pathway arborization may explain some cases of failed trabecular bypass surgery in childhood glaucoma.
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