OBJECTIVE: To investigate the feasibility of an 80-kVp protocol using a moderate concentration contrast material (MC-CM) for cerebral computed tomography angiography by comparison with a conventional 120-kVp protocol using a high concentration contrast material (HC-CM). MATERIALS AND METHODS: Attenuation values and signal-to-noise ratios (SNRs) were determined in a head phantom for 2 tube voltages (80 and 120 kVp) and 2 different iodine concentration contrast materials (HC-CM and MC-CM). Among 90 consecutive patients, 45 patients were scanned with 120 kVp and 150 mAs(eff) after administration of 70 mL of HC-CM (370 mg iodine [mgI]/mL), whereas the other 45 patients were scanned with 80 kVp and 370 mAs(eff) after administration of 70 mL of MC-CM (300 mgI/mL). The Hounsfield units (HU) of the internal carotid artery T junction, SNR, contrast-to-noise ratio (CNR), subjective degree of arterial enhancement, image noise, sharpness of the cerebral arterial boundary, and overall diagnostic image quality were compared between the 2 groups. RESULTS: The mean attenuation of the internal carotid artery T junction, SNR, and CNR was significantly higher in the 80 kVp with MC-CM group (379.2, 33.7, and 31.1 HU, respectively) than in the 120 kVp with HC-CM group (282.2, 31.1, and 27.2 HU, respectively). The 80-kVp protocol resulted in significantly higher score in arterial enhancement, sharpness of the cerebral arteries, and overall diagnostic image quality. The effective dose of 80 kVp (0.7 mSv) was 22.2% lower than that of 120 kVp (0.9 mSv). CONCLUSIONS: The use of 80 kVp with MC-CM improved arterial enhancement, SNR, and CNR and provided superior quality images using a smaller amount of iodine and a lower radiation dose than the conventional protocol of 120 kVp with HC-CM.
OBJECTIVE: To investigate the feasibility of an 80-kVp protocol using a moderate concentration contrast material (MC-CM) for cerebral computed tomography angiography by comparison with a conventional 120-kVp protocol using a high concentration contrast material (HC-CM). MATERIALS AND METHODS: Attenuation values and signal-to-noise ratios (SNRs) were determined in a head phantom for 2 tube voltages (80 and 120 kVp) and 2 different iodine concentration contrast materials (HC-CM and MC-CM). Among 90 consecutive patients, 45 patients were scanned with 120 kVp and 150 mAs(eff) after administration of 70 mL of HC-CM (370 mg iodine [mgI]/mL), whereas the other 45 patients were scanned with 80 kVp and 370 mAs(eff) after administration of 70 mL of MC-CM (300 mgI/mL). The Hounsfield units (HU) of the internal carotid artery T junction, SNR, contrast-to-noise ratio (CNR), subjective degree of arterial enhancement, image noise, sharpness of the cerebral arterial boundary, and overall diagnostic image quality were compared between the 2 groups. RESULTS: The mean attenuation of the internal carotid artery T junction, SNR, and CNR was significantly higher in the 80 kVp with MC-CM group (379.2, 33.7, and 31.1 HU, respectively) than in the 120 kVp with HC-CM group (282.2, 31.1, and 27.2 HU, respectively). The 80-kVp protocol resulted in significantly higher score in arterial enhancement, sharpness of the cerebral arteries, and overall diagnostic image quality. The effective dose of 80 kVp (0.7 mSv) was 22.2% lower than that of 120 kVp (0.9 mSv). CONCLUSIONS: The use of 80 kVp with MC-CM improved arterial enhancement, SNR, and CNR and provided superior quality images using a smaller amount of iodine and a lower radiation dose than the conventional protocol of 120 kVp with HC-CM.
Authors: Xiao Kun Fang; Qian Qian Ni; U Joseph Schoepf; Chang Sheng Zhou; Guo Zhong Chen; Song Luo; Stephen R Fuller; Carlo N De Cecco; Long Jiang Zhang; Guang Ming Lu Journal: Eur Radiol Date: 2016-02-06 Impact factor: 5.315
Authors: Guo Zhong Chen; Long Jiang Zhang; U Joseph Schoepf; Julian L Wichmann; Cole M Milliken; Chang Sheng Zhou; Li Qi; Song Luo; Guang Ming Lu Journal: Eur Radiol Date: 2015-01-31 Impact factor: 5.315
Authors: Song Luo; Long Jiang Zhang; Felix G Meinel; Chang Sheng Zhou; Li Qi; Andrew D McQuiston; U Joseph Schoepf; Guang Ming Lu Journal: Eur Radiol Date: 2014-05-04 Impact factor: 5.315
Authors: Q Q Ni; G Z Chen; U J Schoepf; M A J Klitsie; C N De Cecco; C S Zhou; S Luo; G M Lu; L J Zhang Journal: AJNR Am J Neuroradiol Date: 2016-05-05 Impact factor: 3.825
Authors: Nico Buls; Gert Van Gompel; Toon Van Cauteren; Koenraad Nieboer; Inneke Willekens; Guy Verfaillie; Paul Evans; Sven Macholl; Ben Newton; Johan de Mey Journal: Eur Radiol Date: 2014-11-29 Impact factor: 5.315