Prokop M. Radiation dose in computed tomography-risks and challenges[J]. Radiologe, 2008, 48(3): 229-242.
[2]
Catalano C, Francone M, Ascarelli A, et al. Optimizing radiationdose and image quality [J]. European Radiology, 2007, 17(6): 26-32.
[3]
Ron E. Ionizing radiation and cancer risk: evidence from epidemiology[J]. Pediatric Radiology, 2002, 32(4): 232-237.
[4]
Hunold P, Vogt FM, Schmermund A, et al. Radiation exposure during cardiac CT: effective doses at multi-detector row CT and electron-beam CT[J]. Radiology, 2003, 226(1): 145-152.
[5]
Thomas CK, Muhlenbruch G, Wildberger JE, et al. Coronary artery calcium scoring with multislice computed tomography-in vitro assessment of a low tube voltage protocol[J]. Investigative Radiology, 2006, 41(9): 668-673.
[6]
Herzog C, Mulvihill DM, Nguyen SA, et al. Pediatric cardiovascular CT angiography: radiation dose reduction using automatic anatomic tube current modulation [J]. American Journal of Roentgenology, 2008, 190(5): 1232-1240.
Hermann F, Martinoff S, Meyer T, et al. Reduction of radiation dose estimates in cardiac 64-slice CT angiography in patients after coronary artery bypass graft surgery[J]. Investigative Radiology, 2008, 43(4): 253-260.
[10]
Rixe J, Conradi G, Rolf A, et al. Radiation dose exposure of computed tomography coronary angiography: comparison of dual-source, 16-slice and 64-slice CT[J]. Heart, 2009, 95(16): 1337-1342.
[11]
Weustink AC, Mollet NR, Pugliese F, et al. Optimal electrocardiographic pulsing windows and heart rate: Effect on image quality and radiation exposure at dual-source coronary CT angiography [J]. Radiology, 2008, 248(3): 792-798.
[12]
Bischoff B, Hein F, Meyer T, et al. Trends in radiation protection in CT: Present and future status [J]. Journal of Cardiovascular Computed Tomography, 2009, 3(Suppl 2): S65-S73.
[13]
McCollough CH, Primak AN, Natalie Braun BS, et al. Strategies for reducing radiation dose in CT[J]. Radiologic Clinics of North America, 2009, 47(1): 27-40.
