Title :
Segmentation of echocardiographic images using mathematical morphology
Author :
Klingler, J.W. ; Vaughan, C.L. ; Fraker, Theodore D., Jr. ; Andrews, Leet T.
Author_Institution :
Med. Coll. of Ohio, Toledo, OH, USA
Abstract :
A semiautomatic technique for isolating the ventricular endocardial border in echocardiograms from a commercially available two-dimensional phased array ultrasound system is presented. This method processes echo images using mathematical morphology to reduce the effects of range and azimuth variation inherent in echo. After morphological filtering, the endocardial border is extracted with traditional segmentation methods. Further processing of the resulting border using binary morphology produces a region of interest suitable for derivation of motion parameters of the endocardium. The area and the shape of semiautomatically-derived regions correlate well (r>0.93) with those defined by expert observers in a study of induced ischemia in seven canines.
Keywords :
acoustic imaging; biomedical ultrasonics; cardiology; patient diagnosis; 2-D phased array ultrasound system; azimuth variation; binary morphology; canines; echo; echocardiographic images segmentation; endocardial border; induced ischemia; mathematical morphology; medical diagnostic imaging; semiautomatic technique; ventricular endocardial border; Azimuth; Biomedical imaging; Filtering; Heart; Image edge detection; Image processing; Image segmentation; Ischemic pain; Limiting; Morphology; Performance analysis; Phased arrays; Shape; Ultrasonic imaging; Algorithms; Animals; Dogs; Echocardiography; Endocardium; Image Processing, Computer-Assisted; Mathematical Computing;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
