PDF下载 分享
 Yang Zhiyong,Xie Xianshi,Li Siyuan,et al.Improved Design and Study of the Accuracy of the Source-Cable Transmission Mechanism of Afterloader[J].Journal of Tianjin University(Science and Technology),2019,52(09):900-907.[doi:10.11784/tdxbz201810018]



[1] 程 杭. CT引导下食管癌高剂量率腔内后装放疗的剂量学研究[D]. 北京:清华大学医学院,2014. Cheng Hang. Dosimetric Study of CT-Guided High Dose Rate Endoluminal Radiotherapy for Esophageal Cancer[D]. Beijing:Medical School,Tsinghua University,2014(in Chinese).
[2] Awunor O,Berger D,Kirisits C. A multicenter study to quantify systematic variations and associated uncertain ties in source positioning with commonly used HDR afterloaders and ring applicators for the treatment of cervical carcinomas[J]. Med Phys,2015,42(8):4472-
[3] El Gamal I,Cojocaru C,Mainegra-Hing E,et al. The fricke dosimeter as an absorbed dose to water primary standard for Ir-192 brachytherapy[J]. Phys Med Biol,2015,60(11):4481-4495.
[4] 黄永祥,李怀安,赵保民. 高剂量后装治疗机卡源原因及受照剂量分析[J]. 医疗装备,2000(8):58-59. Huang Yongxiang,Li Huai’an,Zhao Baomin. Causes of high dose rate afterloader source sticking and analysis of exposure dose[J]. Medical Equipments,2000(8):58-59(in Chinese).
[5] De Werd L A,Jursinic P,Kitchen R,et al. Quality assurance tool for high dose rate brachytherapy[J]. Med Phys,1995,22(4):435-440.
[6] 李思远. 高剂量率后装放射治疗机结构设计及控制系统研究[D]. 天津:天津大学机械工程学院,2017. Li Siyuan. Research on Structure Design and Control System of High Dose Rate Afterloader for Radiotherapy [D]. Tianjin:School of Mechanical Engineering,Tianjin University,2017(in Chinese).
[7] 方贤春. 近距离后装放射治疗机器人结构设计与控制系统研究[D]. 天津:天津大学机械工程学院,2014. Fang Xianchun. Research on Design and Control System of Afterloading Robot for Brachytherapy[D]. Tianjin:School of Machanical Engineering,Tianjin University,
2014(in Chinese).

[8] Rivard M J,Coursey B M,de Werd L A,et al. Update of AAPM task group No.43 report:A revised AAPM protocol for brachytherapy dose calculations[J]. Med Phys,2004,31(3):633-674.
[9] Zhang S,Xia X. Modeling and energy efficiency optimization of belt conveyors[J]. Appl Energ,2011,88(9):3061-3071.
[10] 吴春信,薛本峰. 带式输送机输送带的张紧与张紧装置[J]. 煤矿机械,2004(8):91-93. Wu Chunxin,Xue Benfeng. Tensioning and tensioning device for belt conveyor[J]. Coal Mine Machinery,2004(8):91-93(in Chinese).
[11] 王爱芳,刘训涛,刘秀莲,等. 带式输送机输送带的张紧力分析、计算及张紧装置的选取[J]. 煤矿机械,2013(8):176-178. Wang Aifang,Liu Xuntao,Liu Xiulian,et al. Analysis and calculation of tension force for belt conveyor belt and selection of tensioning device[J]. Coal Mine Machinery,2013(8):176-178(in Chinese).
[12] 倪玲琴,刘艳梅,徐彩霞. RL_HZJ18 型后装机出源长度的测量[J]. 医疗卫生装备,2009,30(4):64-65. Ni Lingqin,Liu Yanmei,Xu Caixia. Measurement of outlet length of RL_HZJ18 afterloader[J]. Chinese Medical Equipment Journal,2009,30(4):64-65(in Chinese).
[13] Evans M D C,Devic S,Podgorsak E B. High dose-rate brachytherapy source position quality assurance using radiochromic film[J]. Med Dosim,2007,32(1):13-15.
[14] Syam Kumar S A,Gangadharan S P,Cheruparambil A P,et al. To determine the source dwell positions of HDR brachytherapy using 2D 729 ion chamber array[J]. Journal of Radiotherapy in Practice,2015,14(4):403-409.



更新日期/Last Update: 2019-07-14