Bruce A. Pappas scite author profile

Chronic reductions in cerebral blood flow associated with aging and progressive neurodegenerative disorders can precipitate cognitive failure. To assess whether chronic cerebrovascular insufficiency elicits neuronal apoptosis, apoptotic cell death in the hippocampus was quantitated in a rat model of permanent carotid occlusion. Bilateral carotid artery occlusion (2VO) was shown to induce apoptotic morphology and DNA strand breaks in hippocampal neurons 2 and 27 weeks after ligation. The rate of pyramidal cell apoptosis was higher at chronic (27 weeks) compared to sub-chronic (2 weeks) time points. 2VO-induced apoptosis resulted in a decrease in total pyramidal cell number at 27 weeks but not at earlier time points, indicating progressive neuronal loss. Working and reference memory errors in the radial arm maze were strongly correlated with the number of apoptotic neurons in CA1 but not CA3 pyramidal cell fields. These data provide the first indication that apoptotic loss of pyramidal neurons may play a role in memory impairment associated with clinical conditions of chronic cerebrovascular insufficiency.

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Retinal and Optic Nerve Degeneration After Chronic Carotid Ligation

Stevens

Fortin

Pappas

2002

Stroke

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Background and Purpose-Carotid artery disease can cause chronic retinal ischemia, resulting in transient or permanent blindness, pupillary reflex dysfunction, and retinal degeneration. This experiment investigated the effects of chronic retinal ischemia in an animal model involving permanent carotid occlusion. The time course of retinal pathology and the role of light in this pathology were examined. Methods-Sprague-Dawley rats underwent permanent bilateral occlusion of the common carotid arteries or sham surgery.Half of the animals were postsurgically housed in darkness, and half were housed in a 12-hour light/dark cycle. Animals were killed at 3, 15, and 90 days after surgery. Stereological techniques were used to count the cells of the retinal ganglion cell layer. Thy-1 immunoreactivity was assessed to specifically quantify loss of retinal ganglion cells. The thicknesses of the remaining retinal sublayers were measured. Optic nerve degeneration was quantified with the Gallyas silver staining technique. Results-Permanent bilateral occlusion of the common carotid arteries resulted in loss of the pupillary reflex to light in 58% of rats. Eyes that lost the reflex showed (1) optic nerve degeneration at 3, 15, and 90 days after surgery; (2) a reduction of retinal ganglion cell layer neurons and Thy-1 immunoreactivity by 15 and 90 days; and (3) a severe loss of photoreceptors by 90 days when postsurgically housed in the light condition only. Conclusions-Ischemic damage to the optic nerve caused loss of pupillary reflex and death of retinal ganglion cells in a subset of rats. Subsequently, light toxicity induced death of the photoreceptors.

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Bruce A. Pappas

Chronic reduction of cerebral blood flow in the adult rat: late-emerging CA1 cell loss and memory dysfunction

Comparison of a reference region model with direct measurement of an AIF in the analysis of DCE‐MRI data

Chronic cerebrovascular insufficiency induces dementia-like deficits in aged rats

Chronic cerebral hypoperfusion elicits neuronal apoptosis and behavioral impairment

Retinal and Optic Nerve Degeneration After Chronic Carotid Ligation

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