Fumihiko Kashiwagi scite author profile

1. Rat bilateral common carotid artery occlusion (BCAO) was used as a chronic cerebral hypoperfusion model. We observed autoradiographically the long-term changes in regional cerebral blood flow (rCBF) and regional cerebral glucose utilization (rCGU) after 2 days and 1, 4 and 8 weeks of BCAO and in controls. Regions evaluated included the cerebral cortex, white matter and basal ganglia. Pathological changes were also observed with Klüver-Barrera and haematoxylin-eosin staining. 2. After 2 days, rCBF was significantly reduced to 33-58% in the cortex, white matter and amygdala and similar reductions were observed after 1 week. 3. After 4 weeks, rCBF recovered; however, rCBF remained significantly reduced in the occipital cortex, white matter, globus pallidus and substantia nigra. 4. After 2 days, rCGU was mostly maintained but, after 1 week, rCGU was reduced significantly to 40-70% in the cortex, white matter, basal ganglia and thalamus. Four weeks later, these reductions were no longer seen. 5. Rarefaction of the white matter was observed from 1 week. 6. These results showed that the BCAO in rats is an appropriate model for chronic cerebral hypoperfusion and that uncoupling of rCBF and rCGU was observed from 2 days until 4 weeks in the white matter.

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The role of bradykinin in mediating ischemic brain edema in rats.

Kamiya

Katayama

Kashiwagi

et al. 1993

Stroke

145

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Background and Purpose:We investigated the hypothesis that bradykinin generation may induce ischemic brain edema in spontaneously hypertensive rats.Methods: Cerebral ischemia lasting 3 hours was produced by bilateral common carotid artery occlusion in 67 rats. After the ischemic period, the rats were reperfused. Cerebral water content and energy metabolites (adenosine triphosphate, lactate, and pyruvate), as well as plasma and tissue bradykinin, were measured. Additionally, using the same experimental paradigm, bradykinin synthesis inhibitors (aprotinin [«=7] and soybean trypsin inhibitor [n=7]) were administered immediately after ischemia induction to determine the relation of bradykinin generation to the progression of ischemic brain edema.Results: Cerebral water content increased during the 3-hour ischemic period, peaked at 30 minutes of reperfusion, and declined thereafter. Bradykinin levels in plasma and tissue rose markedly 30 minutes after reperfusion and fell thereafter. The progressive loss of adenosine triphosphate was mirrored by the rise in lactate. In the treated groups, aprotinin and soybean trypsin inhibitor administration significantly attenuated cerebral edema (/?<0.01 and//<0.05, respectively). The treated groups also showed less lactate accumulation and more adenosine triphosphate preservation than did the controls.Conclusions: These results demonstrate that bradykinin levels in plasma and tissue corresponded to cerebral edema progression and that bradykinin suppression decreased edema formation. These novel findings indicate that bradykinin activation augments the progression of ischemic brain edema.

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The effect of duration of cerebral ischemia on brain pyruvate dehydrogenase activity, energy metabolites, and blood flow during reperfusion in gerbil brain

et al. 1998

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Comparison of the Effects of Glycerol, Mannitol, and Urea on Ischemic Hippocampal Damage in Gerbils

Otsubo

Katayama

Kashiwagi

et al. 1994

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Effect of a prostacyclin derivative (OP-41483) and a hyperosmotic agent (glycerol) on brain edema and metabolism in cerebral ischemia.

Katayama

Kashiwagi²,

Memezawa³

et al. 1992

Jpn Circ J

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