An Ultrasonic Technique for Imaging the Ventricle in Three Dimensions and Calculating Its Volume
- 1 August 1983
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Transactions on Biomedical Engineering
- Vol. BME-30 (8) , 482-492
- https://doi.org/10.1109/tbme.1983.325151
Abstract
Real-time two-dimensional ultrasonic scanners provide a series of cross-sectional images of the ventricle. We have developed a technique which can determine the spatial position and orientation of a collection of such scans with respect to a reference coordinate system. The scans need not be parallel, may intersect, and need not demonstrate a complete cross section. The borders of interest are digitized to identify a set of points representing the surface of the ventricle. These points are used to generate a 3-D reconstruction of the chamber and are processed to give an estimate of ventricular volume. The technique has been validated using ten formalin-fixed hearts excised from dogs, sheep, and cows, with an actual volume range of 31.8-570.6 cm3. Each ventricle was imaged five times by three observers for a total of 150 studies. By the least squares linear regression analysis, calculated volume = 0.98 (actual volume) + 1.39 cm3, r = 0.99. The average error for all studies was 5 percent, while 88 percent of the individual calculated volume were within 10 percent of the actual volume. The method appears to offer the potential for the accurate assessment of ventricular volume in man.Keywords
This publication has 17 references indexed in Scilit:
- Three‐dimensional echocardiography for spatial visualization and volume calculation of cardiac structuresJournal of Clinical Ultrasound, 1981
- Cross-sectional echocardiography III. Analysis of mathematic models for quantifying volume of symmetric and asymmetric left ventriclesAmerican Heart Journal, 1980
- A framework for three-dimensional time-varying reconstruction of the human left ventricle: Sources of error and estimation of their magnitudeComputers and Biomedical Research, 1980
- Accurate volume determination in the isolated ejecting canine left ventricle by two-dimensional echocardiography.Circulation, 1979
- Angiographic Evaluation of Ventricular FunctionNew England Journal of Medicine, 1977
- A System for Locating Points, Lines, and Planes in SpaceIEEE Transactions on Instrumentation and Measurement, 1977
- A microprocessor-based spatial-locating system for use with diagnostic ultrasoundProceedings of the IEEE, 1976
- A system for ultrasonically imaging the human heart in three dimensionsComputers and Biomedical Research, 1974
- Determination of Left Ventricular Volumes by UltrasoundCirculation, 1971
- Comparison of stroke volume and cardiac output determination by ultrasound and dye dilution in acute myocardial infarctionThe American Journal of Cardiology, 1971