通量平滑度对直肠癌术后调强计划的剂量影响

doi:10.13491/j.issn.1004-714X.2022.04.016

中国辐射卫生

2022, Vol. 31

Issue (4): 464-470 DOI: 10.13491/j.issn.1004-714X.2022.04.016

论著

本期目录 | 过刊浏览 | 高级检索

通量平滑度对直肠癌术后调强计划的剂量影响

鲁黎明¹, 刘攀², 杜锋磊³

1. 铜陵市人民医院，安徽铜陵 244099;
2. 吉安市中心人民医院，江西吉安 343099;
3. 浙江省肿瘤医院，浙江杭州 310005

Dose effect of fluence-smoothing on intensity modulated planning after rectal cancer surgery

LU Liming¹, LIU Pan², DU Fenglei³

1. Tongling People's Hospital, Tongling 244099 China;
2. Ji'an Central People's Hospital, Ji'an 343099 China;
3. Zhejiang Cancer Hospital, Hangzhou 310005 China

摘要
图/表
参考文献
相关文章 (13)

全文: PDF (1897 KB) HTML ( )
输出: BibTeX | EndNote (RIS)

摘要目的对比Monaco系统4种通量平滑度（Fluence-smoothing，FS）等级在直肠癌术后调强适形放射治疗技术（Intensity-Modulated Radiation Therapy，IMRT）中的剂量学差异，为临床选择FS参数提供参考。方法选取2020年入院的15例直肠癌术后病例，在相同优化条件下，分别设置FS为Off、Low、Medium 和High进行计划设计，采用SPSS 20.0软件对数据进行统计分析；比较4种FS下靶区及危及器官（Organs at risk，OARs）的剂量参数、子野数（Segments）、机器跳数（Monitor units，MUs）、剂量计算时间（Estimated total delivery time，ETDT）及γ通过率。结果 4种FS下，靶区及OARs的剂量参数均满足临床需求，且不同FS等级下剂量分布差异无统计学意义；由FS-Off至FS-High，Segments、MUs及ETDT分别平均减少了15.2%、11.8%、6.7%，γ通过率提高了1.6%。结论 4种FS下IMRT计划均能满足临床要求，综合考虑计划质量和执行效率，建议采用FS-High用于直肠癌术后调强适形放射治疗。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	鲁黎明
	刘攀
	杜锋磊

关键词 ：通量平滑度, 适形度指数, 均匀度指数, 调强适形放射治疗, 直肠癌

收稿日期: 2022-02-25

PACS:

R816

基金资助:2021年浙江省卫生健康新技术产品研发项目（2021PY040）

通讯作者: 刘攀，E-mail：1587562965@qq.com E-mail: 1587562965@qq.com

作者简介: 鲁黎明（1991—），男，湖南岳阳人，助理工程师，从事医学放射物理工作。E-mail：1020584674@qq.com

引用本文:

鲁黎明, 刘攀, 杜锋磊. 通量平滑度对直肠癌术后调强计划的剂量影响[J]. 中国辐射卫生, 2022, 31(4): 464-470.
LU Liming, LIU Pan, DU Fenglei. Dose effect of fluence-smoothing on intensity modulated planning after rectal cancer surgery. Chinese Journal of Radiological Health, 2022, 31(4): 464-470.

链接本文:

http://www.zgfsws.com/CN/10.13491/j.issn.1004-714X.2022.04.016 或 http://www.zgfsws.com/CN/Y2022/V31/I4/464

[1] Gu MJ, Huang QC, Bao CZ, et al. Attributable causes of colorectal cancer in China[J]. BMC Cancer, 2018, 18(1): 38. DOI: 10.1186/s12885-017-3968-z
[2] 代珍, 郑荣寿, 邹小农, 等. 中国结直肠癌发病趋势分析和预测[J]. 中华预防医学杂志,2012,46(7):598-603. DOI: 10.3760/cma.j.issn.0253-9624.2012.07.005
Dai Z, Zheng RS, Zou XN, et al. Analysis and prediction of colorectal cancer incidence trend in China[J]. Chin J Prev Med, 2012, 46(7): 598-603. DOI: 10.3760/cma.j.issn.0253-9624.2012.07.005
[3] 王露尧, 张鹭鹭. 中国结直肠癌发病和死亡情况及防控策略[J]. 解放军医院管理杂志,2021,28(12):1195-1197. DOI: 10.16770/J.cnki.1008-9985.2021.12.036
Wang LY, Zhang LL. Incidence and mortality of colorectal cancer and prevention-control strategies in China[J]. Hosp Admin J Chin People's Liber Army, 2021, 28(12): 1195-1197. DOI: 10.16770/J.cnki.1008-9985.2021.12.036
[4] 中国结直肠癌诊疗规范(2020年版)专家组. 国家卫生健康委员会中国结直肠癌诊疗规范(2020年版)[J]. 中华胃肠外科杂志,2020,23(6):521-540. DOI: 10.3760/cma.j.cn.441530-20200520-00289
Chinese Colorectal Cancer Diagnosis and Treatment Standards (2020 Edition) Expert Group. National Health Commission Chinese colorectal cancer diagnosis and treatment standards (2020 Edition)[J]. Chin J Gastrointest Surg, 2020, 23(6): 521-540. DOI: 10.3760/cma.j.cn.441530-20200520-00289
[5] 许峰, 周继陶. 直肠癌局部复发的治疗现状及放射治疗进展[J]. 中国普外基础与临床杂志,2013,20(11):1217-1221
Xu F, Zhou JT. Current status of treatment and progress of radiotherapy for local recurrence of rectal cancer[J]. Chin J Bases Clin General Surg, 2013, 20(11): 1217-1221
[6] Samuelian JM, Callister MD, Ashman JB, et al. Reduced acute bowel toxicity in patients treated with intensity-modulated radiotherapy for rectal cancer[J]. Int J Radiat Oncol Biol Phys, 2012, 82(5): 1981-1987. DOI: 10.1016/j.ijrobp.2011.01.051
[7] Deng J, Guerrero T, Ma CM, et al. Modelling 6 MV photon beams of a stereotactic radiosurgery system for Monte Carlo treatment planning[J]. Phys Med Biol, 2004, 49(9): 1689-1704. DOI: 10.1088/0031-9155/49/9/007
[8] 邱刚, 房保栓, 魏强, 等. 通量平滑度对宫颈癌放射治疗的剂量学影响[J]. 中国辐射卫生,2021,30(3):288-294. DOI: 10.13491/j.issn.1004-714X.2021.03.008
Qiu G, Fang BS, Wei Q, et al. Impact of fluence smoothing on the dosimetry of cervical cancer radiotherapy[J]. Chin J Radiol Health, 2021, 30(3): 288-294. DOI: 10.13491/j.issn.1004-714X.2021.03.008
[9] 林锋, 曾自力, 覃树付, 等. 直肠癌术后调强放疗不同照射野数的剂量学研究[J]. 中国辐射卫生,2019,28(2):201-205. DOI: 10.13491/j.issn.1004-714X.2019.02.024
Lin F, Zeng ZL, Qin SF, et al. Dosimetric study of different radiation field numbers in postoperative intensity modulated radiation therapy for rectal cancer[J]. Chin J Radiol Health, 2019, 28(2): 201-205. DOI: 10.13491/j.issn.1004-714X.2019.02.024
[10] 程婷婷, 张彦秋, 张子健, 等. 晚期鼻咽癌螺旋断层调强放疗与容积旋转调强放疗剂量学比较[J]. 中国医学物理学杂志,2018,35(9):1005-1011. DOI: 10.3969/j.issn.1005-202X.2018.09.003
Cheng TT, Zhang YQ, Zhang ZJ, et al. Dosimetric comparison of helical tomotherapy and volumetric modulated arc therapy for late-stage nasopharyngeal carcinoma[J]. Chin J Med Phys, 2018, 35(9): 1005-1011. DOI: 10.3969/j.issn.1005-202X.2018.09.003
[11] 何瑞欣, 袁维, 许超, 等. Monaco系统鼻咽癌VMAT计划两种优化方式的剂量学对比[J]. 中国辐射卫生,2021,30(3):321-325. DOI: 10.13491/j.issn.1004-714X.2021.03.013
He RX, Yuan W, Xu C, et al. Comparative study of dose distributions calculated by dual optimization modes of Monaco system by volumetric modulated arc therapy of nasopharyngeal carcinoma[J]. Chin J Radiol Health, 2021, 30(3): 321-325. DOI: 10.13491/j.issn.1004-714X.2021.03.013
[12] Widodo P, Pawiro SA, Susila IP. Dosimetry for intensity modulated radiotherapy (IMRT) technique using ion chamber matrix (MatriXX-FFF) with back projection method (usual 6MV and 10MV)[J]. J Phys:Conf Ser, 2020, 1505: 012015. DOI: 10.1088/1742-6596/1505/1/012015
[13] 王芸, 顾培华, 汪杰华, 等. 剂量沉积方式在食管癌放疗中的差异性研究[J]. 中国辐射卫生,2021,30(3):295-302. DOI: 10.13491/j.issn.1004-714X.2021.03.009
Wang Y, Gu PH, Wang JH, et al. Impact of statistical uncertainty on esophagus cancer plan for dose to water and dose to medium[J]. Chin J Radiol Health, 2021, 30(3): 295-302. DOI: 10.13491/j.issn.1004-714X.2021.03.009
[14] 姚凯宁, 岳海振, 王若曦, 等. 基于蒙特卡罗模拟的直肠癌术前容积调强放射治疗计划剂量验证[J]. 中国医学物理学杂志,2020,37(5):529-534. DOI: 10.3969/j.issn.1005-202X.2020.05.001
Yao KN, Yue HZ, Wang RX, et al. Dosimetric verification of preoperative volumetric modulated arc therapy for rectal cancer based on Monte Carlo simulation[J]. Chin J Med Phys, 2020, 37(5): 529-534. DOI: 10.3969/j.issn.1005-202X.2020.05.001
[15] Barbiero S, Rink A, Matteucci F, et al. Single-fraction flattening filter-free volumetric modulated arc therapy for lung cancer: dosimetric results and comparison with flattened beams technique[J]. Med Dosim, 2016, 41(4): 334-338. DOI: 10.1016/j.meddos.2016.09.002
[16] Sauer R, Liersch T, Merkel S, et al. Preoperative versus postoperative chemoradiotherapy for locally advanced rectal cancer: results of the German CAO/ARO/AIO-94 randomized phase III trial after a median follow-up of 11 years[J]. J Clin Oncol, 2012, 30(16): 1926-1933. DOI: 10.1200/JCO.2011.40.1836
[17] 吴凡, 刘敏, 康盛伟, 等. 通量平滑度在胸中上段食管癌容积弧形调强中的剂量学比较[J]. 中华放射医学与防护杂志,2020,40(1):32-35. DOI: 10.3760/cma.j.issn.0254-5098.2020.01.005
Wu F, Liu M, Kang SW, et al. Dosimetric comparison among volumetric modulate arc therapy plans with different fluence smoothing in the treatment of patients with middle and upper thoracic esophageal carcinoma[J]. Chin J Radiol Med Prot, 2020, 40(1): 32-35. DOI: 10.3760/cma.j.issn.0254-5098.2020.01.005
[18] Niyas P, Abdullah KK, Noufal MP, et al. Effect of fluence smoothing on the quality of intensity-modulated radiation treatment plans[J]. Radiol Phys Technol, 2016, 9(2): 202-213. DOI: 10.1007/s12194-016-0349-2
[19] 潘香, 侯宇, 杨毅, 等. 通量平滑度对左乳癌保乳术后容积旋转调强放疗剂量学的影响[J]. 现代肿瘤医学,2021,29(15):2691-2695. DOI: 10.3969/j.issn.1672-4992.2021.15.026
Pan X, Hou Y, Yang Y, et al. Effect of fluence smoothing on dosimetry of volume rotation intensity modulated radiotherapy after breast-conserving surgery for left breast cancer[J]. J Mod Oncol, 2021, 29(15): 2691-2695. DOI: 10.3969/j.issn.1672-4992.2021.15.026
[20] Giorgia N, Antonella F, Eugenio V, et al. What is an acceptably smoothed fluence? Dosimetric and delivery considerations for dynamic sliding window IMRT[J]. Radiat Oncol, 2007, 2: 42. DOI: 10.1186/1748-717X-2-42
[21] 何方方, 刘主龙. 蒙特卡罗技术在光子和电子放射治疗中提高速度的进展[J]. 中国辐射卫生,2015,24(3):314-316. DOI: 10.13491/j.cnki.issn.1004-714X.2015.03.053
He FF, Liu ZL. The progress of Monte Carlo technology to improve the speed in photon and electron radiation therapy[J]. Chin J Radiol Health, 2015, 24(3): 314-316. DOI: 10.13491/j.cnki.issn.1004-714X.2015.03.053
[22] Manigandan D, Sharma S, Gandhi A, et al. SU-E-T-597: influence of smoothing parameters on dynamic IMRT plan quality and deliverability[J]. Med Phys, 2012, 39(6Part19): 3843. DOI: 10.1118/1.4735686
[23] Hall EJ, Wuu CS. Radiation-induced second cancers: the impact of 3D-CRT and IMRT[J]. Int J Radiat Oncol Biol Phys, 2003, 56(1): 83-88. DOI: 10.1016/S0360-3016(03)00073-7