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(Stroke. 1970;1:330.)
© 1970 American Heart Association, Inc.

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The Relation Between Cardiac Function and Cerebral Blood Flow in Stroke Patients. 1. Effect of CO₂ Inhalation

EDWARD S. COOPER M.D.¹; JAMES W. WEST PH.D., M.D.¹; MARVIN E. JAFFE M.D.¹; HERBERT I. GOLDBERG M.D.¹; J. KAWAMURA M.D.¹; LAWRENCE C. MCHENRY JR. M.D.¹

¹ Stroke Research Center, Philadelphia General Hospital, and the Departments of Medicine, Pharmacology and Radiology, University of Pennsylvania School of Medicine, and the Department of Neurology, Thomas Jefferson University School of Medicine, Philadelphia, Pennsylvania

The effects of CO₂ inhalation were determined on 23 stroke patients with and without hypertension who underwent clinical, cardiohemodynamic, cerebral blood flow (hemispheric mean and regional), cerebral metabolic rate and cerebral angiographical studies.

Cardiac output, heart rate, systemic and pulmonary arterial blood pressures and cardiac work rose in essentially all patients during CO₂ inhalation, and fell to below baseline levels in approximately half of the patients studied after CO₂, inhalation was discontinued.

Baseline cardiac output was normal in normotensive stroke patients without cardiac dysfunction, but was low in hypertensive stroke patients.

A statistically significant increase in cerebral blood flow occurred during CO₂, inhalation, with an observed decrease in cerebrovascular resistance. The percentage increase in cerebral blood flow exceeded the increase in cardiac output.

Since hypercarbia causes a rise in systemic and pulmonary arterial blood pressure, CO₂ inhalation should be used cautiously in patients with systemic or pulmonary hypertension. The rise in cardiac work during CO₂ inhalation could jeopardize patients with coronary heart disease and those with heart failure.

Following cessation of CO₂ inhalation, blood pressure and cardiac output may fall below baseline levels, with a risk of posthypercapnic fall in cerebral blood flow. Occasionally, cardiac arrhythmia occurs during or following CO₂ inhalation.

Key Words: hemodynamic studies • cerebral circulation • cerebrovascular disease • hypertension