Flying focal spot (FFS) in cone-beam CT

Abstract

In the beginning of 2004 medical spiral-CT scanners that acquire up to 64 slices simultaneously became available. Most manufacturers use a straightforward acquisition principle, namely an X-ray focus rotating on a circular path and an opposing cylindrical detector whose rotational center coincides with the X-ray focus. The 64-slice scanner available to us, a Somatom Sensation 64 spiral cone-beam CT scanner (Siemens, Medical Solutions, Forchheim, Germany), makes use of a flying focal spot that allows for view-by-view deflections of the focal spot in the rotation direction (/spl alpha/FFS) and in the z-direction (zFFS). The FFS feature doubles the sampling density in the channel direction and in the longitudinal direction. Up to four detector readings contribute to one view (projection). A significant reduction of in-plane aliasing and of aliasing in the z-direction can be expected. Especially the latter is of importance to spiral CT scans where aliasing is known to produce so-called windmill artifacts. We have derived and analyzed the optimal focal spot deflection values /spl part//spl alpha/ and /spl part/z as they would ideally occur in our scanner. Based upon these we show how image reconstruction can be performed in general. A simulation study showing reconstructions of mathematical phantoms further provides evidence that image quality can be significantly improved with the FFS. Aliasing artifacts, that manifest as streaks emerging from high-contrast objects, and windmill artifacts are reduced by almost an order of magnitude with the FFS compared to a simulation without FFS.