Title :
Tracking vascular motion in X-ray image sequences with Kalman snakes
Author :
Curwen, Rupert W. ; Amini, Amir A. ; Duncan, James S. ; Lee, Forrester
Author_Institution :
Dept. of Diagnostic Radiol., Yale Univ., New Haven, CT, USA
Abstract :
The quantification of blood flow has received much attention from researchers investigating atherosclerotic disease, a major source of heart attacks and strokes in the US. The authors are interested in tracking the coronary vessel motion in order to allow for successive angiographic image pairs to be brought into registration. Once this motion is measured, it can be subtracted out, allowing for more accurate measurement of flow in the coronary arteries directly from angiographic images. Here, the authors propose a vessel tracking scheme based on the Kalman-filter which uses B-spline models of the coronary vasculature in estimating their position and velocity over time. Measurements of vessel positions are made using both sum-of-squared-differences, and minimum intensity of image masks, and the measurements are combined to give robust estimates of the position and velocity of B-spline control points over time. Results are shown for two sequences of the motion of the right coronary artery
Keywords :
Kalman filters; angiocardiography; blood flow measurement; diagnostic radiography; image sequences; medical image processing; tracking; B-spline models; Kalman snakes; X-ray image sequences; atherosclerotic disease; coronary arteries; heart attacks; image mask minimum intensity; medical diagnostic imaging; right coronary artery; strokes; sum-of-squared-differences; vascular motion tracking; vessel positions measurements; Arteries; Fluid flow measurement; Image sequences; Kalman filters; Motion measurement; Position measurement; Spline; Tracking; Velocity measurement; X-ray imaging;
Conference_Titel :
Computers in Cardiology 1994
Conference_Location :
Bethesda, MD
Print_ISBN :
0-8186-6570-X
DOI :
10.1109/CIC.1994.470237
