STUDIES ON ACUTE AND LATE STAGES OF EXPERIMENTAL CENTRAL RETINAL ARTERY OCCLUSION IN THE CYNOMOLGUS MONKEY

Abstract

The slow (2–3/h) oscillations of thec‐wave amplitude and of the standing potential of the eye (SP) were studied in the Cynomolgus monkey during the acute and late stages after experimentally induced (laser photocoagulation) occlusion of the central retinal artery (OCRA). Whereas the healthy control eyes showed large cyclic variations in both thec‐wave amplitude and the SP, no oscillations in thec‐wave amplitude were observed in the OCRA eyes at any stage, and the SP oscillations were barely detectable in these eyes. OCRA causes morphological damage to the inner retina but not to the pigment epithelium — photoreceptor complex, which generates the positive component of thec‐wave, and where the SP is also believed to originate. The findings of the present study strongly indicate that the SP andc‐wave oscillations are related, and that they are either dependent on an intact inner retina or that the pigment epithelium — photoreceptor complex is functionally affected by OCRA. If not taken into consideration, the marked difference in oscillations between the OCRA eye and the healthy eye may be a major source of error when comparingc‐waves from the two eyes, and it seems that some of the conflicting results reported by others can be explained in this way.