AJP - Heart and Circulatory Physiology, Vol 246, Issue 1 52-H58, Copyright © 1984 by American Physiological Society
Characteristics of reactive hyperemia in the cerebral circulation
J. K. Gourley and D. D. Heistad
Reactive hyperemia has been characterized in many vascular beds, but little
is known about quantitative characteristics of reactive hyperemia in the
cerebral circulation. We measured velocity of blood flow and pial artery
diameter to characterize the time course of reactive hyperemia and used
microspheres to study regional blood flow in the brain. Cerebral ischemia
was produced by raising intracranial pressure or by arterial occlusion with
a cuff around the neck. Five seconds of ischemia produced virtually maximal
peak reactive hyperemia, and 30 s of ischemia produced maximal peak
reactive hyperemia. During reactive hyperemia after 30 s of cerebral
ischemia, there was a three- to fourfold increase in cerebral blood flow.
The magnitude of reactive hyperemia was greater in gray matter than in
white matter. Minimal resistance during reactive hyperemia, after ischemia
produced by arterial occlusion, is similar to minimal resistance during
seizures or hypercapnia, which suggests that reactive hyperemia produces
maximal vasodilatation. Oxygen saturation of cerebral venous blood
increased almost twofold during reactive hyperemia, which indicates that
factors in addition to venous (and presumably tissue) oxygen are important
determinants of reactive hyperemia. In summary, 1) we have characterized
the time course of reactive hyperemia in the cerebral circulation; 2)
reactive hyperemia after arterial occlusion produces maximal cerebral
vasodilatation; and 3) there is marked heterogeneity of the response, with
much larger increases in flow in cortical gray matter than white matter.
