Trent M Sandercoe scite author profile

The macula comprises less than four per cent of total retinal area in humans but is responsible for almost all of our useful, photopic vision. Within the macula, a two millimetre lesion centred on the fovea will affect an estimated 225,000 cones in the average individual, 25 per cent of the total ganglion cell output to the brain, and result in legal blindness. In this review, we will focus on the anatomical specialisations of the macula and its development, and explore the reasons why the region is Anatomy and development of the macula: specialisation and the vulnerability to macular degeneration The central retina in primates is adapted for high acuity vision. The most significant adaptations to neural retina in this respect are: 1. The very high density of cone photoreceptors on the visual axis; 2. The dominance of Midget pathways arising from these cones and 3. The diminishment of retinal blood supply in the macula, and its absence on the visual axis. Restricted blood supply to the part of the retina that has the highest density of neural elements is paradoxical. Inhibition of vascular growth and proliferation is evident during foetal life and results in metabolic stress in ganglion cells and Müller cells, which is resolved during formation of the foveal depression. In this review we argue that at the macula stressed retinal neurons adapt during development to a limited blood supply from the choriocapillaris, which supplies little in excess of metabolic demand of the neural retina under normal conditions. We argue also that while adaptation of the choriocapillaris underlying the foveal region may initially augment the local supply of oxygen and nutrients by diffusion, in the long term these adaptations make the region more vulnerable to age-related changes, including the accumulation of insoluble material in Bruch's membrane and beneath the retinal pigment epithelium. These changes eventually impact on delivery of oxygen and nutrients to the RPE and outer neural retina because of reduced flow in the choriocapillaris and the increasing barriers to effective diffusion. Both the inflammatory response and the sequelae of oxidative stress are predictable outcomes in this scenario.

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VEGF expression by ganglion cells in central retina before formation of the foveal depression in monkey retina: Evidence of developmental hypoxia

Sandercoe¹,

Geller

Hendrickson

et al. 2003

J of Comparative Neurology

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In macaque monkeys the foveal depression forms between fetal day (Fd) 105 and birth (Fd 172 of gestation). Before this, the incipient fovea is identified by a photoreceptor layer comprising cones almost exclusively, a multilayered ganglion cell layer (GCL), and a "domed" profile. Vessels are absent from the central retina until late in development, leading to the suggestion that the GCL in the incipient fovea may be transitorily hypoxic. Vascular endothelial growth factor (VEGF), expressed by both glial and neuronal cells and mediated by the hypoxia-inducible transcription factor (HIF)-1, is the principal factor involved in blood vessel growth in the retina. We examined VEGF expression in macaque retinas between Fd 85 and 4 months postnatal. Digoxygenin-labeled riboprobes were generated from a partial-length human cDNA polymerase chain reaction fragment, detected using fluorescence confocal microscopy, and quantified using Scion Image. High levels of VEGF mRNA were detected in astrocytes associated with developing vessels. We also detected strong expression of VEGF mRNA in the GCL at the incipient fovea prior to Fd 105, with peak labeling in the incipient fovea that declined with distance in nasal and temporal directions. By Fd 152 peak labeling was in two bands associated with development of the inner nuclear layer (INL) capillary plexus: in the inner INL where Müller and amacrine cell somas are located, and in the outer INL where horizontal cells are found. The findings suggest that at the incipient fovea the GCL is hypoxic, supporting the hypothesis that the adaptive significance of the fovea centralis is in ensuring adequate oxygen supply to neuronal elements initially located within the avascular region.

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Astrocyte Proliferation During Development of the Human Retinal Vasculature

Sandercoe

Madigan

Billson

et al. 1999

Experimental Eye Research

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Mechanisms of the Formation and Stability of Retinal Blood Vessels

Stone¹,

Sandercoe²,

Provis³

2006

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Changing patterns in paediatric optic atrophy aetiology: 1979 to 2015

Zheng

Hyun-Jin

Sandercoe

et al. 2016

Clinical Exper Ophthalmology

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