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动脉压升高对受损脑部血流的影响。

Effects of increased arterial pressure on blood flow in the damaged brain.

作者信息

Miller J D, Garibi J, North J B, Teasdale G M

出版信息

J Neurol Neurosurg Psychiatry. 1975 Jul;38(7):657-65. doi: 10.1136/jnnp.38.7.657.

DOI:10.1136/jnnp.38.7.657

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1083244/

Abstract

The effect of induced arterial hypertension on cerebral blood flow and intracranial pressure was measured before and after the production of a standard cryogenic brain lesion in 10 anaesthetized, ventilated baboons. Before injury the animals were divided into a group with intact autoregulation, having more than 20% increase in cerebrovascular resistance during arterial hypertension, and a group with impaired autoregulation, in which the change in cerebrovascular resistance was much less. The cryogenic injury produced a rapid rise in intracranial pressure and a reduction of cerebral blood flow in the affected hemisphere. Despite this, there was an increase in cerebrovascular resistance during arterial hypertension in all animals after brain injury, accompanied by a further significant rise in intracranial pressure. It is suggested that this response is unlikely to represent normal physiological autoregulation and caution should be exercised in interpreting it as such in the course of studies of cerebral blood flow in patients with acute brain damage.

摘要

在10只麻醉、通气的狒狒身上，测量了诱导动脉高血压对脑血流量和颅内压的影响，这是在制造标准低温脑损伤之前和之后进行的。在损伤前，动物被分为两组，一组具有完整的自动调节功能，在动脉高血压期间脑血管阻力增加超过20%，另一组自动调节功能受损，其脑血管阻力变化要小得多。低温损伤导致受影响半球的颅内压迅速升高和脑血流量减少。尽管如此，脑损伤后所有动物在动脉高血压期间脑血管阻力均增加，同时颅内压进一步显著升高。有人认为，这种反应不太可能代表正常的生理自动调节，在急性脑损伤患者脑血流量研究过程中，将其解释为正常生理自动调节时应谨慎。