Assessment of image intensifier and distortion for DSA localization studies.

The authors present methods of correcting pincushion and S distortions of an image intensifier, and of measuring the geometrical parameters of the imaging device used for localization from digital subtraction angiography brain studies. Pincushion and S distortions of the image intensifier are corrected by a calibration grid. A test pattern is used to study effectiveness of the corrections. Intrinsic geometrical parameters (source-to-image distance, centre of X-ray projection) of the apparatus are measured by the use of a calibration phantom. Short-range and long-range time drift of the distortion, as well as influence of the parameters of image acquisition on the accuracy of the localization results, are considered. The results obtained successfully demonstrate the accuracy of the correction, provided that the apparatus is warm.

[1]  J M Boone,et al.  Analysis and correction of imperfections in the image intensifier-TV-digitizer imaging chain. , 1991, Medical physics.

[2]  D. Chakraborty Image intensifier distortion correction. , 1987, Medical physics.

[3]  E Pietka,et al.  Correction of aberration in image-intensifier systems. , 1992, Computerized medical imaging and graphics : the official journal of the Computerized Medical Imaging Society.

[4]  M. Garreau,et al.  A knowledge-based approach for 3-D reconstruction and labeling of vascular networks from biplane angiographic projections. , 1991, IEEE transactions on medical imaging.

[5]  D Gibon,et al.  Frameless method of stereotaxic localization with DSA. , 1993, Radiology.

[6]  S. Rudin,et al.  Accurate characterization of image intensifier distortion. , 1991, Medical physics.

[7]  M Takahashi,et al.  Digital TV tomography: description and physical assessment. , 1990, Medical physics.