Title :
Computed tomographic imaging of the coronary arterial tree-use of local tomography
Author :
Spyra, Wolfgang J T ; Faridani, Adel ; Smith, Kennan T. ; Ritman, Erik L.
Author_Institution :
Mayo Med. Sch., Rochester, MN, USA
fDate :
3/1/1990 12:00:00 AM
Abstract :
It has been demonstrated previously (see E.L. Ritman and A.A. Bove, in State of the Art in Quantitative Coronary Arteriography, p.67-78, 1986) that coronary artery anatomy can be visualized using high-speed, volume-scanning X-ray CT (computed tomography). In the current study it is demonstrated that local image reconstruction (i.e. the reconstruction kernel is ~2+ mm long), as distinct from more conventional global image reconstruction (i.e. 200+ mm kernel length), has the advantage of reducing the need for operator interactive image processing. In addition, the local reconstruction algorithm eliminates the need for recording the X-ray projection data over the full transaxial extent of the thorax because it requires only the X-ray attenuation data over the region of the heart. This latter aspect reduces the dynamic range requirements for the sensors and could reduce total X-ray exposure
Keywords :
cardiology; computerised tomography; X-ray projection data; computed tomographic imaging; coronary arterial tree; coronary artery anatomy; dynamic range requirements; global image reconstruction; heart; high-speed volume-scanning X-ray CT; local image reconstruction; local tomography; medical diagnostic imaging; operator interactive image processing; reconstruction kernel; thorax; Anatomy; Angiography; Arteries; Computed tomography; Image processing; Image reconstruction; Kernel; Optical imaging; Visualization; X-ray imaging;
Journal_Title :
Medical Imaging, IEEE Transactions on
