M F Marmor1, R Dalal. 1. Department of Ophthalmology, Stanford University School of Medicine, California 94305-5308.
Abstract
PURPOSE: Pressure-induced ocular ischemia is a frequent model for the investigation of the mechanisms and therapy of retinal ischemic damage. It is important to know whether the tissue damage in such experiments is uniform or irregular. METHODS: We reviewed histologic features of Dutch rabbit eyes after 60-80 min of pressure-induced ischemia. The eyes were enucleated 4 hr, 1 day, or 1 wk after circulation was restored, at which times the electroretinogram b-wave was moderately reduced. RESULTS: Light microscopy showed an irregular distribution of damage involving all retinal layers and retinal pigment epithelium. Some regions of damage (or preservation) were several millimeters wide; others were as small as a few cell widths. Correlation with electroretinogram reduction in individual eyes was difficult. CONCLUSIONS: These results show that pressure-induced ischemic damage in the rabbit, sufficient to reduce the electroretinogram, has a patchy and irregular effect on retina and retinal pigment epithelium. Erroneous judgments may be made about ischemic damage, or therapeutic intervention, if only small or selected regions of retina are examined histologically.
PURPOSE: Pressure-induced ocular ischemia is a frequent model for the investigation of the mechanisms and therapy of retinal ischemic damage. It is important to know whether the tissue damage in such experiments is uniform or irregular. METHODS: We reviewed histologic features of Dutch rabbit eyes after 60-80 min of pressure-induced ischemia. The eyes were enucleated 4 hr, 1 day, or 1 wk after circulation was restored, at which times the electroretinogram b-wave was moderately reduced. RESULTS: Light microscopy showed an irregular distribution of damage involving all retinal layers and retinal pigment epithelium. Some regions of damage (or preservation) were several millimeters wide; others were as small as a few cell widths. Correlation with electroretinogram reduction in individual eyes was difficult. CONCLUSIONS: These results show that pressure-induced ischemic damage in the rabbit, sufficient to reduce the electroretinogram, has a patchy and irregular effect on retina and retinal pigment epithelium. Erroneous judgments may be made about ischemic damage, or therapeutic intervention, if only small or selected regions of retina are examined histologically.
Authors: C E Johanson; D E Palm; M J Primiano; P N McMillan; P Chan; N W Knuckey; E G Stopa Journal: Cell Mol Neurobiol Date: 2000-04 Impact factor: 5.046