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(Stroke. 1998;29:98-103.)
© 1998 American Heart Association, Inc.

Original Contributions

Cerebral Hematocrit Decreases With Hemodynamic Compromise in Carotid Artery Occlusion

A PET Study

Hiroshi Yamauchi, MD, PhD; Hidenao Fukuyama, MD, PhD; Yasuhiro Nagahama, MD, PhD; Yukinori Katsumi, MD; Hidehiko Okazawa, MD, PhD

From the Department of Neurology (H.Y., Y.N., Y.K.), Department of Brain Pathophysiology (H.F.), Department of Radiology and Nuclear Medicine (H.O.), Faculty of Medicine, Kyoto University (Japan), and the Shiga Medical Center for Adult Disease (H.Y.), Moriyama, Japan.

Correspondence and reprint requests to Dr Hidenao Fukuyama, Department of Brain Pathophysiology, Kyoto University Hospital, 54 Shogoin Kawahara-cho, Sakyo-ku, Kyoto 606, Japan. E-mail fukuyama{at}kuhp.kyoto-u.ac.jp

Background and Purpose—This study investigated whether in patients with internal carotid artery occlusion the regional cerebral hematocrit correlates with cerebral hemodynamics or metabolic state and, if so, how the regional cerebral hematocrit changes in the hemodynamically compromised region.

Methods—We used positron emission tomography to study seven patients with unilateral internal carotid artery occlusion and no cortical infarction in the chronic stage. The distributions of red blood cell and plasma volumes were assessed using oxygen-15–labeled carbon monoxide and copper-62–labeled human serum albumin-dithiosemicarbazone tracers, respectively. The calculated hematocrit value was compared with the hemodynamic and metabolic parameters measured with the oxygen-15 steady-state technique.

Results—In the cerebral cortex, the value of the cerebral hematocrit varied but was correlated with the hemodynamic and metabolic status. Stepwise regression analysis revealed that the large vessel hematocrit, the cerebral metabolic rate of oxygen, and the cerebral blood flow or the oxygen extraction fraction accounted for a significant proportion of variance of the cerebral hematocrit. The oxygen extraction fraction and the cerebral metabolic rate of oxygen negatively correlated with the cerebral hematocrit, whereas the cerebral blood flow correlated positively: patients with reduced blood supply relative to metabolic demand (decreased blood flow with increased oxygen extraction fraction) showed low hematocrit values.

Conclusions—In carotid artery occlusion in the chronic stage, regional cerebral hematocrit may vary according to cerebral hemodynamics and metabolic status. Regional cerebral hematocrit may decrease with hemodynamic compromise unless oxygen metabolism concomitantly decreases.

Key Words: carotid artery diseases • cerebral ischemia • hematocrit • tomography, emission computed

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