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Query: UMLS:C0020440 (hypercapnia)
 7,939 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to gain more insight into the pathophysiology of extracerebral cerebrovascular occlusion, the cerebral hemodynamic behaviour after uni- or bilateral carotid occlusion was investigated. In Wistar rats, acute occlusion of one common carotid artery leads to a moderate bilateral lowering of the resting hemispheric brain blood flow; no interhemispheric perfusion asymmetry is observed. During hypercapnia, however, a manyfold increase of the hemispheric blood flow is seen at the intact side, whereas blood flow increase at the side of the occlusion is suppressed indicating that the cerebrovascular reserve at the side of the occlusion is largely used to preserve resting hemispheric perfusion. During the days (1, 5, 15 and 30) following the occlusion, resting hemispheric blood flow is progressively restored rather rapidly (bilateral normalization on the fifth day) whereas restoration of the cerebrovascular reserve (hemispheric blood flow increase in hypercapnia) proceeds more slowly and a nearly normal hypercapnic response is reached on day thirty. Spontaneously Hypertensive Rats (SHR) show structural abnormalities of their blood vessels during the development of hypertension, leading to impaired adaptation possibilities of the cerebral vasculature after unilateral common carotid occlusion. This is indicated by the striking comparability of the compensation of hemispheric cerebral blood flow (in normo- and hypercapnia) of SH rats five days after unilateral carotid occlusion with the cerebral hemodynamic status of normotensive animals already seen 24 hours after the same occlusion. Consecutive bilateral common carotid occlusion shows that survival rate increases by increasing the interval between both occlusions. This survival relation is much more unfavorable in SH rats. The parallelism between the restoration of the measured CO2-reactivity of the blood flow in the involved hemisphere after unilateral carotid occlusion and the evolution of survival rate after consecutive bilateral carotid occlusion indicates that the response of the hemispheric circulation to CO2 offers a good estimate of true cerebrovascular reserve after cerebrovascular accidents of this kind. In cats, acute bilateral occlusion of the carotid arteries leads to a moderate decrease of resting cerebral blood flow in the anterior parts of the brain (cerebrum); the hypercapnic response of this region is, however, completely abolished. In the posterior brain regions (medulla oblongata and cerebellum) resting blood flow and its increase under hypercapnia are preserved. The experiments indicate that the relative preservation of resting cerebral blood flow in the cerebrum of the cat after acute bilateral carotid occlusion is at the expense of its complete hemodynamic reserve. Posterior brain regions are better protected in these conditions.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Hemodynamic adaptations in proximal cerebrovascular occlusion]. 212 47

Cerebral blood flow in the cat was studied before and after acute bilateral common carotid occlusion under normocapnic and hypercapnic conditions and after induced hypotension. Regional blood flow to different brain structures was studied with the microsphere method. Local blood flow in the caudate nucleus, the cerebral cortex and medulla oblongata was studied with H2-polarography. Although the blood flow to the anterior brain regions is significantly decreased after bilateral common carotid occlusion, their blood supply is kept above ischaemic levels by re-distribution of the vertebrobasilar flow. Cerebrovascular reserve in anterior brain regions, however, is lost as indicated by the severe impairment of both the flow response to hypercapnia and to blood pressure decrease. After bilateral common carotid occlusion paradoxical CO2-reactions, indicating intracerebral steal, were seen in the caudate nucleus. In posterior brain regions resting blood flow, flow-reaction to hypercapnia and to hypotension are better preserved under these conditions. Measurement of the CBF responses to induced hypercapnia is a dependable test for appreciation of cerebrovascular reserve after cerebrovascular occlusion but may be potentially hazardous where local flow is close to ischaemic levels.
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PMID:Cerebrovascular reserve in the cat after acute bilateral carotid occlusion. 245 18

The cortical circulation of the baboon has been studied during ischaemia produced by middle cerebral occlusion. Evidence of reactive hyperaemia did not occur in hypercapnia. Metabolic studies as a whole present evidence of increased interference with gaseous metabolism during hypercarbic occlusion, despite raised venous pO(2) during hypercarbia. The significance of these findings is discussed.
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PMID:Effect of carbon dioxide inhalation on the pattern of gaseous metabolism in ischaemic zones of the primate cortex. An experimental study of the 'intracerebral steal' phenomenon in baboons. 499 41

Arterial and venous pressures have been measured in the cortical circulation of baboons. Arterial perfusion pressure was found to be relatively lower in hypercapnia than in normocapnia, while venous pressure was higher in hypercapnia than normocapnia. In hypercapnia, during middle cerebral occlusion, the arteriovenous pressure differences virtually disappeared and evidence of collateral inflow to the ischaemic zone was absent. Reactive hyperaemia after middle cerebral occlusion was reduced or abolished in hypercapnia. The significance of these findings in relation to treatment of ischaemic vascular disease with CO(2) is discussed.
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PMID:Regional cerebrovascular responses to acute ischaemia in normocapnia and hypercapnia. An experimental study in baboons. 549 76