Endothelin-1 Contributes to Hyperoxia-Induced Vasoconstriction in the Human Retina

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Endothelin-1 Contributes to Hyperoxia-Induced Vasoconstriction in the Human Retina

Susanne Dallinger¹, Guido T. Dorner¹, Roland Wenzel¹, Ursula Graselli¹, Oliver Findl³, Hans-Georg Eichler¹, Michael Wolzt¹ and Leopold Schmetterer¹^,2

¹ From the Department of Clinical Pharmacology, the ² Institute of Medical Physics, and the ³ Department of Ophthalmology, Vienna University, Austria.

PURPOSE. There is evidence that ocular blood flow strongly dependson arterial oxygen tension. Results from recent animal studiesindicate that the vasoconstrictor response to hyperoxia maybe mediated in part by an increased production of endothelin(ET)-1. In an effort to answer the question whether the retinalvasoconstrictive response to hyperoxia in humans is mediatedthrough ET-1, changes in ocular hemodynamics induced by 100%O₂ breathing were studied in the absence and presence of anET_A receptor antagonist (BQ-123).

METHODS. The study was a randomized, placebo-controlled, double-masked, balanced,three-way crossover design. On separate study days 15 healthy malesubjects received infusions of BQ-123 (either 60 µg/minor 120 µg/min) or placebo. The effects of BQ-123 or placeboon hyperoxia-induced (100% O₂ breathing) changes in retinal andpulsatile choroidal blood flow were assessed with the blue-field entoptictechnique and with laser interferometric measurement of fundus pulsation,respectively.

RESULTS. During baseline conditions, hyperoxia caused a decreasein retinal blood flow between -29% and -34% (P < 0.001) anda decrease in fundus pulsation amplitude between -7% and -8% (P< 0.001). BQ-123 dose dependently blunted the response tohyperoxia in the retina (60 µg/min: -25%, 120 µg/min: -20%;P = 0.003), but not in the choroid.

CONCLUSIONS. These results indicate that ET-1 contributes tohyperoxia-induced retinal vasoconstriction in the human retina.

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