Myopia Alters the Structural Organization of the Retinal Vasculature, GFAP-Positive Glia, and Ganglion Cell Layer Thickness

To describe the effect of myopic eye growth on the structure and distribution of astrocytes, vasculature, and retinal nerve fiber layer thickness, which are critical for inner retinal tissue homeostasis and survival. Astrocyte and capillary distribution, retinal nerve fiber (RNFL), and ganglion cell layer (GCL) thicknesses were assessed using immunochemistry and spectral domain optical coherence tomography on eleven retinas of juvenile common marmosets (Callithrix Jacchus), six of which were induced with lens-induced myopia (refraction, Rx: -7.01 +/- 1.8D). Five untreated age-matched juvenile marmoset retinas were used as controls (Rx: -0.74 +/- 0.4D). Untreated marmoset eyes grew normally, their RNFL thickened and their astrocyte numbers were associated with RNFL thickness. Marmosets with induced myopia did not show this trend and, on the contrary, had reduced astrocyte numbers, increased GFAP-immunopositive staining, thinner RNFL, lower peripheral capillary branching, and increased numbers of string vessels. The myopic changes in retinal astrocytes, vasculature, and retinal nerve fiber layer thickness suggest a reorganization of the astrocyte and vascular templates during myopia development and progression. Whether these adaptations are beneficial or harmful to the retina remains to be investigated.

Automated summary

This study investigated the impact of myopic eye growth on the structure and distribution of astrocytes, vasculature, and retinal nerve fiber layer thickness. The findings showed that in eyes with induced myopia, there were reduced astrocyte numbers, increased GFAP staining, thinner retinal nerve fiber layer, lower peripheral capillary branching, and increased numbers of string vessels. These changes suggest a reorganization of astrocyte and vascular templates during myopia development and progression.