[1] Eloot L, Bacher K, Steenbeke F,et al. Three-dimensional rotational X-ray acquisition technique is reducing patients' cancer risk in coronary angiography[J]. Catheterization and Cardiovascular Interventions,2013, 82(4):e419-e427. [2] Naidich D P,Marshall C H,Gribbin C,et al. Low-dose CT of the lungs:preliminary observations[J]. Radiology, 1990, 175(3):729-731. [3] 王淼,肖志清,王艳强,等.合理应用X射线检查,优化辐射剂量[J].中华放射医学与防护杂志, 2019, 39(1):1-5. [4] 徐辉, 王建超, 黄卓,等. 宽束多排螺旋CT剂量的测量研究[J]. 中国辐射卫生, 2017, 26(6):623-626. [5] 庄静文,白玫,侯艺威.多排螺旋CT剂量效率的体模研究[J].中国医疗设备,2014,29(11):41-42,71. [6] Imai R,Miyazaki O,Horiuchi T,et al. Local diagnostic reference level based on size-specific dose estimates:assessment of pediatric abdominal/pelvic computed tomography at a Japanese national children's hospital[J]. Pediatric Radiology,2015,45(3):345-353. [7] 张龙江.CT辐射剂量诊断参考水平专家共识[J].中华放射学杂志,2017,51(11):817-822. [8] 刘岳峰,马二奎,李青松,等. 肋骨骨折多层螺旋CT最佳低剂量扫描参数的选择[J]. 中国实验诊断学, 2011,15(6):1064-1066. [9] 张云轩, 张鹤, 信亚周,等. 螺旋CT低剂量扫描对肺结核病情监测的应用价值[J]. 中国辐射卫生, 2019,28(1):95-97. [10] Lee K H, Lee J M, Moon S K, et al. Attenuation-based automatic tube voltage selection and tube current modulation for dose reduction at contrast-enhanced liver CT[J].Radiology, 2012, 265(2):437-447. [11] Ichikawa T, Motosugi U, Hiroyuki M,et al. Volumetric low-tube-voltage CT imaging for evaluating hypervascular hepatocellular carcinoma;effects on radiation exposure, image quality, and diagnostic performance[J].Japanese Journal of Radiology, 2013, 31(8):521-529. [12] 王俊琴,刘太峰,张海燕.智能最佳管电压联合自动管电流在降低胸部CT扫描剂量中的应用[J].临床放射学杂志.2019,38(5):931-935. [13] Kouno T, Kuga N, Enzaki M, et al. Impact of exposure dose reduction of radiation treatment planning CT using low tube voltage technique[J].Japanese Journal of Radiological Technology, 2015, 71(4):308-315. [14] 赵建设, 张琳, 陈英民. 64排螺旋CT低剂量扫描在儿童腺样体检查中的应用研究[J]. 中国辐射卫生, 2018,27(2):178-180. [15] 林瑜,潘可可,许金富. 高职体育院校学生体质健康动态分析[J]. 鄂州大学学报,2018,25(1):101-103. [16] Tatsugami F, Husmann L, Herzog B A, et al. Evaluation of a body mass index-adapted protocol for low-dose 64-MDCT coronary angiography with prospective ECG triggering[J].American Journal of Roentgenology, 2009,192(3):635-638. [17] 吕悦, 刘爱连, 刘静红, 等. 深度学习像素闪耀算法改善中低体重指数者腹部70 kVp动脉期图像质量[J].中国医学影像学杂志, 2018,26(7):525-530. [18] 李莉, 周恩利, 刘娜,等. 低剂量CT扫描在外伤性肋骨骨折检查中的应用[J]. 国际医学放射学杂志, 2014, 37(1):6-8. [19] 葛虓俊, 吴昊, 滑炎卿,等. 超低剂量CT技术在肋骨骨折中的可行性研究[J]. 临床放射学杂志, 2011, 30(6):877-880. [20] 余佩琳,范文亮,雷子乔,等.不同年龄段儿童与成人肺部CT扫描体型特异性剂量估计[J]. 中华放射医学与防护杂志, 2019, 39(1):26-30. [21] 陆伟,柯荣湖,蔡俊.大螺距低剂量肺部CT技术在COPD患者中的应用价值[J].影像科学与光化学,2020,38(3):503-507. [22] 袁颖, 吴天棋, 钟朝辉. 胸部低剂量CT应用大螺距及高机架转速行扫描对图像质量的影响[J]. 临床和实验医学杂志.2018,17(5):541-545. [23] Zeng X, Chen J, Wang Y, et al. Feasibility of ultra-large pitch turbo flash scan mode in chest scan in preschool children without sedatives[J].Chinese Journal of Medical Imaging Technology, 2017, 33(8):1221-1225. [24] 张永县,牛延涛,张丽丽,等.胸部CT探测器宽度、螺距联合器官剂量调制技术对辐射剂量和影像质量影响的膜体研究[J].中华放射学杂志.2019,53(6):464-469. [25] 董继伟.CT迭代重建技术原理及其研究进展[J].中国医学装备,2016,13(10):128-133. [26] 周永霞,周容.IDose4迭代重建技术应用于低剂量CT肾动脉血管造影的临床分析[J].影像科学与光化学,2020,38(2):253-259. [27] Solomon J, Mileto A, Ramirez-Giraldo J C, et al. Diagnostic performance of an advanced modeled iterative reconstruction algorithm for low-contrast detectability with a third-generation dual-source multidetector CT scanner:potential for radiation dose reduction in a multireader study[J]. Radiology, 2015, 275(3):735. [28] 卢晓娟,王照谦,贾崇富.低辐射剂量CT肺动脉成像技术的进展[J].中华老年心脑血管病杂志,2015,17(4):438-439. [29] 左秀娟,贺太平,张开元,等.新一代基于模型的迭代算法在胸部低剂量CT筛查中的应用[J].放射学实践,2018,33(10):1082-1086. [30] Hara A K,Paden R G,Silva A C,et al. Iterative reconstruction technique for reducing body radiation dose at CT:feasibility study[J]. American Journal of Roentgenology,2009,193(3):764-771. [31] 高军, 于彤, 刘志敏, 等.自适应迭代重建算法在儿童低剂量颈椎CT检查中的应用价值[J].中华放射学杂志, 2016,50(1):37-40. [32] Katsura M, Matsuda I, Akahane M, et al. Model-based iterative reconstruction technique for radiation dose reduction in chest CT:comparison with the adaptive statistical iterative reconstruction technique[J].European Radiology, 2012, 22(8):1613-1623. |