Title :
Physical models for measurement of blood velocity and flow from diagnostic images
Author :
Amini, A.A. ; Egglin, T.K. ; Pollak, J.S.
Author_Institution :
Yale Univ., New Haven, CT, USA
Abstract :
The authors present preliminary results and new technical developments in measurement of cross-sectional blood velocities and flow from a time-sequence of arteriograms. They apply the conservation of mass principle to flowing blood and the injected contrast medium in a vessel in order to obtain mathematical constraints on cross sectional velocities from a sequence of contrast-injected images. The previously employed optical flow constraint discussed by Mongrain et al. (Computers in Cardiology, 1991) and other authors is found to be a special case of this constraint. The proposed framework is also particularly efficient. The numerical methods compute a stream function (a single image) from a window of images in a time-sequence, and in a post-processing step, the cross-sectional velocity field is determined simply by application, of a gradient operator to the stream function
Keywords :
blood flow measurement; diagnostic radiography; haemodynamics; image sequences; modelling; velocity measurement; X-ray arteriography; arteriograms time-sequence; conservation of mass principle; contrast-injected images sequence; cross-sectional blood velocities; cross-sectional velocity field; diagnostic images; flowing blood; gradient operator; injected contrast medium; numerical methods; physical models; stream function; technical developments; Angiography; Arteries; Blood flow; Diseases; Equations; Fluid flow measurement; Magnetic field measurement; Streaming media; Velocity measurement; X-ray imaging;
Conference_Titel :
Computers in Cardiology 1993, Proceedings.
Conference_Location :
London
Print_ISBN :
0-8186-5470-8
DOI :
10.1109/CIC.1993.378368
