Binary reconstruction of the heart chambers from biplane angiographic image sequences

The aim of this work is the three dimensional (3-D) reconstruction of the left or right heart chamber from digital biplane angiograms, The approach used, the binary reconstruction, exploits the density information of subtracted ventriculograms from two orthogonal views in addition to the ventricular contours, The ambiguity of the problem is largely reduced by incorporating a priori knowledge of human ventricles, A model-based reconstruction program Is described that is applicable to routinely acquired biplane ventriculographic studies, Prior to reconstruction, several geometric and densitometric imaging errors are corrected, The finding of corresponding density profiles and anatomical landmarks is supported by a biplane image pairing procedure that takes the movement of the gantry system into account. Absolute measurements are based on geometric isocenter calibration and a slice-wise density calibration technique, The reconstructed ventricles allow 3-D visualization and regional. wall motion analysis independently of the gantry setting. The method is applied to clinical angiograms and tested in left- and right-ventricular phantoms yielding a well shape conformity even with few model information, The results indicate that volumes of binary reconstructed ventricles are less projection-dependent compared to volume data derived by purely contour-based methods, A limitation is that the heart chamber must not be superimposed by other dye-filled structures in both projections.