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(Circulation. 1964;30:55.)
© 1964 American Heart Association, Inc.

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Mitral Ball-Valve Prosthesis

Dynamic and Clinical Evaluation

PAUL KEZDI M.D.¹; LOUIS R. HEAD M.D.¹; BRUCE A. BUCK ¹

¹ From the Cardiovascular Laboratory of the Department of Medicine and Surgery, Northwestern University Medical School and Chicago Wesley Memorial Hospital, Chicago, Illinois.

Flow dynamic studies were performed in a mechanical pulse duplicator with Starr-Edwards ball valves. It was shown that the "effective orifice" of the ball valve is less than the measured orifice of the cage of the valve. The orifice is decreased to 83 per cent of the measured orifice in the smaller and to 89 per cent in the larger valves. These measurements corresponded well with the measurements of the "effective orifice" of the valve implanted in patients who were examined by left and right heart catheterization and left ventricular angiocardiograms several months after placement of the valve.

The closing regurgitation found in early systole in the mechanical system appears to be negligible in patients. Left ventricular angiograms did not show reflux of dye into the left atrium through the valve cage.

The size of the mitral annulus in patients was measured from left ventricular angiograms. The size of the mitral ball valve prosthesis which the mitral annulus will accommodate could be predicted with good accuracy from these measurements.