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Invest Ophthalmol Vis Sci. 2000 Sep;41(10):3117-23.

Metabolic dependence of photoreceptors on the choroid in the normal and detached retina.

Author information

  • 1Department of Biomedical Engineering, Northwestern University, Evanston, Illinois 60208-3107, USA. r.linsenmeier@northwestern.edu

Abstract

PURPOSE:

This article assesses the hypothesis that the high blood flow rate and low O(2) extraction associated with the choroidal circulation are metabolically necessary and explores the implications of the spatial relationship between the choroid and the photoreceptors for metabolism in the normal and detached retina.

METHODS:

The O(2) distribution across the retinal layers was previously measured with O(2)-sensitive microelectrodes in cat. Profiles were fitted to a diffusion model to obtain parameters characterizing photoreceptor O(2) demand. This was a study of simulations based on those parameters.

RESULTS:

Photoreceptor inner segments have a high O(2) demand (QO(2)), and they are far (20 to 30 microm) from the choroid. These unusual conditions require a large O(2) flux to the inner segments, which in turn requires high choroidal oxygen tension (PO(2)), high choroidal venous saturation (ScvO(2)), low choroidal O(2) oxygen extraction per unit volume of blood, and a choroidal blood flow (ChBF) of at least 500 ml/100 g-min. Movement of the inner segments further from the choroid, which occurs in a retinal detachment, severely reduces the ability of the inner segments to obtain O(2), even for detachment heights as small as 100 microm. Depending on detachment height and assumptions about choroidal and inner retinal PO(2) during elevation of inspired O(2) (hyperoxia), hyperoxia is predicted to partially or fully restore photoreceptor QO(2) during a detachment.

CONCLUSIONS:

The choroid is not overperfused, but requires a high flow rate to satisfy the normal metabolic demand of the retina. Because the oxygenation of the photoreceptors is barely adequate under normal conditions, detachment has serious metabolic consequences. Hyperoxia is predicted to have clinical benefit during detachment.

PMID:
10967072
[PubMed - indexed for MEDLINE]
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