Evaluation of an Automatic Intraluminal Edge Detection Technique for Intravascular Ultrasound Images

Intravascular ultrasound (IVUS) imaging enables detailed analysis and precise measurements of vascular cross-sections. However, to achieve a reduction in the existing level of observer variability requires the development of quantitative IVUS. We have developed a fully automatic intraluminal edge detection technique, based on adaptive active contour models and called ADDER (adaptive damping dependent on echographic regions) that allows the quantitation of the intraluminal cross-sectional area (ICSA). Using a 30-MHz mechanically rotated transducer mounted at the tip of a 3.5-F catheter, 58 normal and pathologic arterial segments (from coronary, renal, splenic, iliac, and carotid arteries) were imaged in vitro. These images were analyzed by 2 experts, E1 and E2, who manually traced the intraluminal contour twice for each image, as well as with ADDER. Intra-observer variabilities for ICSAS Were found to be excellent (-1.454±3.51% for E1, 0.96±5.4% for E2). The inter-observer variability was 2.1±4.3%. The success factor for ADDER was 89% . Its intra-observer variability was null, as the method always finds a unique contour. The correlation between the automatically detected ICSA and the manual ICSA was: r=0.99 (y=1.03x+0.89 mm2). Morphometric variations between manually and automatically traced contours, analyzed by the centerline method, were 100±140 mm on average. In conclusion, the ADDER automatic contour detection applied to IVUS images is robust and characterized by small systematic and random errors; therefore, quantitative IVUS is a useful tool in clinical research trials. (Jpn Circ J 1998; 62: 115 - 121)