Preliminary study of the optimization of abdominal CT scanning parameters on 64-slice spiral CT
10.3760/cma.j.issn.1005-1201.2011.03.008
- VernacularTitle:64层螺旋CT腹部扫描参数优化的初步研究
- Author:
Minxia HU
;
Xinming ZHAO
;
Junfeng SONG
;
Chunwu ZHOU
;
Hongfeng ZHAO
- Publication Type:Journal Article
- Keywords:
Abdomen;
Radiation dosage;
Tomography,X-ray computed
- From:
Chinese Journal of Radiology
2011;45(3):264-269
- CountryChina
- Language:Chinese
-
Abstract:
Objective To investigate the appropriate low tube current of abdominal CT on a 64-slice spiral CT. Methods (1) Phantom study:The phantom Catphan500R was scanned with a fixed 120 kVp,and 450,400,380,360,340,320,300,280 mA, respectively. 15, 9, 8, 7, 6 mm diameter low-contrast objects with 1% contrast were scanned for evaluating image quality. CT images were graded in terms of lowcontrast conspicuity by using a five-point scale. Statistical analyses were performed to determine the appropriate tube current and the interval leading to the qualitative change. (2) Clinical study: 3 groups of 45 patients who had 2 examinations of non-enhanced abdominal CT within 3 months were enrolled. All patients were scanned with 450 mA at first scanning. For the second scanning, group-1 was scanned with optimal tube current, group-2 was scanned with optimal tube current plus interval, group-3 was scanned with optimal tube current sinus interval. CT images were graded in terms of the diagnostic acceptability at three anatomic levels including porta hepatis, pancreas and the upper pole kidney, and the image noises of eight organs including abdominal aorta, portal vein, liver, spleen, gallbladder, pancreas, renal cortex, renal medulla were graded by using a five-point scale. The image quality was compared with non-parametric rank sum test,and the individual factors of the patients were compared with the A VONA. Results (1) The optimal tube current and interval leading to the qualitative change were 340 mA and 40 mA respectively. (2) There were no significant differences in image quality between 340 mA and 450 mA in group-1, between 380 mA and 450 mA in group-2 (P > 0. 05). There was significant difference in image quality between 300 mA and 450 mA in group-3 (the mean scores for 300 mA were 2. 92 ± 0. 62,2.92 ± 0. 62,2.64 ± 0. 84,2. 72 ±0.82,2.63 ±0.71,2.51 ±0.84,3.04 ±0.72,3.04 ±0.72,2.63 ±0.71,2.52 ±0.73,2.93 ±0.81respectively; for 450 mA were 3.93 ± 0. 72,3.94 ± 0. 72,3.41 ± 0. 64,3.43 ± 0. 61,3.62 ± 0. 93,3.63 ±0.71,3.93 ±0.81,3.93 ±0.81,3.43 ±0.61,3.52 ±0.92,3.84 ±0.82 respectively) (Z = -2.449 to - 2. 236, P < 0. 05). Conclusion Radiation dose can be effectively reduced by using an appropriate and lower current of 340 mA.
