Abstract
A significant proportion of children that survive hypoxic-ischemic encephalopathy (HIE) develop visual impairment. These visual deficits are generally attributed to injuries that occur in the primary visual cortex and other visual processing systems. Recent studies suggested that neuronal damage might also occur in the retina. An important structure affecting the viability of retinal neurons is the vasculature. However, the effects of HIE on the retinal neurovasculature have not been systemically evaluated. Here we investigated whether exposure of postnatal day 9 (P9) neonatal mice to HIE is sufficient to induce neurovascular damage in the retina. We demonstrate that the blood vessels on the surface of the retina, from mice subjected to HIE, were abnormally enlarged with signs of degeneration. The intermediate and deep vascular layers in these retinas failed to form normally, particularly in the periphery. All the vascular damages observed here were irreversible in nature up to 100 days post HIE. We also observed loss of retinal neurons, together with changes in both astrocytes and Müller cells mainly in the inner retina at the periphery. Collectively, our findings suggest that HIE results in profound alterations in the retinal vasculature, indicating the importance of developing therapeutic strategies to protect neurovascular dysfunction not only in the brain but also in the retina for infants exposed to HIE.
Highlights
The Rice-Vannucci model, where permanent unilateral ligation of the common carotid artery (CCA) followed by exposure to a hypoxic air mixture, is one of the most commonly used acute hypoxia-ischemia model in rat[14,15,16]
We studied the effect of neonatal hypoxic-ischemic encephalopathy (HIE) on retinal neurovascular integrity
We observed a profound irreversible disruption and delay in the normal retinal vascular development of approximately two thirds of the mice subjected to HIE
Summary
The Rice-Vannucci model, where permanent unilateral ligation of the common carotid artery (CCA) followed by exposure to a hypoxic air mixture, is one of the most commonly used acute hypoxia-ischemia model in rat[14,15,16]. The CCA gives rise to the ophthalmic artery, which in turn makes the eye vulnerable to HIE insult. This model is extensively utilized to investigate the impact of HIE on brain development and function. A few studies have used this model to show the damaging effect of the HIE on either the neuronal component[20,21] or the vascular component[22] of the retina in rats. The aims of this report were to examine the effects of HIE on the neurovasculature of mouse retina during development, and assess the reversibility of the observed changes post injury
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