Modulation transfer function-based assessment of temporal resolution: validation for single- and dual-source CT.

The purpose of this study was to determine a manufacturer-independent quality assurance measurement for temporal resolution with a three-dimensional cardiac motion robot; validation was with single-source (SS) and dual-source (DS) computed tomography (CT). Image acquisition was performed by using standard cardiac protocols. Image contrast-based modulation transfer function (MTF) was assessed as function of time. For motion frequency of 60 beats per minute, MTF slightly decreased by 14% and 6% for SS CT and DS CT, respectively. For higher frequencies, a stronger decrease of MTF (eg, by 50% [SS CT] and 18% [DS CT] at 120 beats per minute) was detected. Effect of manufacturer's adaptive bisegment algorithm for SS CT and corresponding resonance effects of rotation time and heart rate were quantified. The robot-based approach is a reproducible, objective way to assess temporal resolution; it allows practical measurement of temporal resolution and comparison of CT scanners and protocols.

[1]  Günter Lauritsch,et al.  Towards cardiac C-arm computed tomography , 2006, IEEE Transactions on Medical Imaging.

[2]  M. Reiser,et al.  Cardiac imaging by means of electrocardiographically gated multisection spiral CT: initial experience. , 2000, Radiology.

[3]  Marc Kachelriess,et al.  Novel approximate approach for high-quality image reconstruction in helical cone-beam CT at arbitrary pitch , 2001, SPIE Medical Imaging.

[4]  K. Stierstorfer,et al.  Image reconstruction and image quality evaluation for a dual source CT scanner. , 2003, Medical physics.

[5]  K. Stierstorfer,et al.  First performance evaluation of a dual-source CT (DSCT) system , 2006, European Radiology.

[6]  W A Kalender,et al.  ECG-correlated image reconstruction from subsecond multi-slice spiral CT scans of the heart. , 2000, Medical physics.

[7]  K Taguchi,et al.  High temporal resolution for multislice helical computed tomography. , 2000, Medical physics.

[8]  H. Tuy AN INVERSION FORMULA FOR CONE-BEAM RECONSTRUCTION* , 1983 .

[9]  W A Kalender,et al.  Electrocardiogram-correlated image reconstruction from subsecond spiral computed tomography scans of the heart. , 1998, Medical physics.

[10]  B. Ohnesorge,et al.  Heart Rate Adaptive Optimization of Spatial and Temporal Resolution for Electrocardiogram-Gated Multislice Spiral CT of the Heart , 2001, Journal of computer assisted tomography.

[11]  W. Kalender,et al.  Contrast-enhanced coronary artery visualization by dual-source computed tomography--initial experience. , 2006, European journal of radiology.

[12]  Willi A Kalender,et al.  Multithreaded cardiac CT. , 2006, Medical physics.

[13]  H Hu,et al.  Multi-slice helical CT: scan and reconstruction. , 1999, Medical physics.

[14]  G. Hounsfield Computerized transverse axial scanning (tomography): Part I. Description of system. 1973. , 1973, The British journal of radiology.