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(Circulation. 1998;97:1897-1900.)
© 1998 American Heart Association, Inc.

Brief Rapid Communications

Real-time Three-dimensional Echocardiography for Determining Right Ventricular Stroke Volume in an Animal Model of Chronic Right Ventricular Volume Overload

Takahiro Shiota, MD; Michael Jones, MD; Masahide Chikada, MD; Craig E. Fleishman, MD; John B. Castellucci, MS; Bruno Cotter, MD; Anthony N. DeMaria, MD; Olaf T. von Ramm, PhD; Joseph Kisslo, MD; Thomas Ryan, MD; ; David J. Sahn, MD

From the Oregon Health Sciences University, Portland (T.S., D.J.S.); the Laboratory of Animal Medicine and Surgery, National Heart, Lung, and Blood Institute, Bethesda, Md (M.J., M.C.); the Center for Emerging Cardiovascular Technologies, Duke University Medical Center, Durham, NC (C.E.F., J.B.C., O.T.v.R., J.K., T.R.); and the University of California, San Diego Medical Center (B.C., A.N.D.).

Background—The lack of a suitable noninvasive method for assessing right ventricular (RV) volume and function has been a major deficiency of two-dimensional (2D) echocardiography. The aim of our animal study was to test a new real-time three-dimensional (3D) echo imaging system for evaluating RV stroke volumes.

Methods and Results—Three to 6 months before hemodynamic and 3D ultrasonic study, the pulmonary valve was excised from 6 sheep (31 to 59 kg) to induce RV volume overload. At the subsequent session, a total of 14 different steady-state hemodynamic conditions were studied. Electromagnetic (EM) flow probes were used for obtaining aortic and pulmonic flows. A unique phased-array volumetric 3D imaging system developed at the Duke University Center for Emerging Cardiovascular Technology was used for ultrasonic imaging. Real-time volumetric images of the RV were digitally stored, and RV stroke volumes were determined by use of parallel slices of the 3D RV data set and subtraction of end-systolic cavity volumes from end-diastolic cavity volumes. Multiple regression analyses showed a good correlation and agreement between the EM-obtained RV stroke volumes (range, 16 to 42 mL/beat) and those obtained by the new real-time 3D method (r=0.80; mean difference, -2.7±6.4 mL/beat).

Conclusions—The real-time 3D system provided good estimation of strictly quantified reference RV stroke volumes, suggesting an important application of this new 3D method.

Key Words: imaging • echocardiography • ventricles

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