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乳腺癌仿真模体术后胸壁放疗方法的比较研究 被引量:2

Study on radiotherapy method with simulation phantom for breast cancer after radical mastectomy
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摘要 目的 使用MOSTET探测器观察分析乳腺癌术后5种常用放疗技术在模体中的剂量分布特点,同时验证TPS计划剂量准确性,为临床治疗方案及技术选择提供剂量学依据.方法 使用高仿真模体模拟成年女子左侧乳腺癌术后患者.对患侧胸壁靶区的代表测量点及其不同深度测量点进行标记定位后,在TPS上分别设计正向IMRT、逆向IMRT、3DCRT、6 MeV电子线、9 MeV电子线照射方案.最后对模体进行模拟照射,并对各点进行实时测量.采用方差分析检验5种方法间总差异.结果 正向IMRT、逆向IMRT、3DCRT、6 MeV电子线、9 MeV电子线实测平均剂量在表面的分别为74.32、69.21、73.97、75.86、81.41 cGy (F=3.36,P<0.05),0.5cm深度的分别为95.59、93.37、96.78、99.63、94.97 cGy(F=2.40,P>0.05),1.0cm深度的分别为103.42、102.53、103.48、88.89、101.36 cGy (F=7.19,P<0.05),近胸壁肺的分别为82.74、68.24、85.34、21.49、75.02 cGy (F=46.43,P<0.05).5种方法的平均剂量偏差在表面的为-8.04%(-6.57% --11.93%),0.5 cm深度的为-1.95%(2.15%--5.90%),1.0 cm深度的为0.65%(-2.87% - 3.22%),近胸壁肺的为-3.53%(3.90%--8.93%).结论 MOSFET探测器配以相应的仿真模体可以测量体内某部位的实际剂量,对放疗QA与QC提供了一种较好方法,亦可用于评价不同放疗技术的剂量学特点.MOSFET探测器适用于乳腺癌放疗的在体剂量监测,指导补偿膜的间隔使用以调整剂量,纠正误差,提高靶区吸收剂量的准确性. Objective To study the dose distribution of five clinical technologies commonly used in simulation phantom of breast cancer after radical mastectomy are observed and analyzed by using MOSFET detector.The dose validation from TPS plan is tested for clinical treatment.Methods High simulation inhomogeneous equivalent phantom of human body is used to simulate the typical patient after the operation of left breast cancer.The kay points and other points on behalf of depth to the region of interest with side of the chest wall are marked.Five radiotherapy plans (FIF-IMRT、IMRT、3DCRT、6 MeV-electron beam,9 MeV-electron beam) were designed separately on TPS based on phantom image series.After confirmed,the plans are delivered to the phantom and the dosimetrical quantities are measured.Using analysis of variance test the difference in the five methods.Results FIF-IMRT,IMRT,3DCRT,6 MeV-electron beam,9 MeV-electron beam,Five method actual measured doses respectively:Surface 74.32 cGy,69.21 cGy,73.97 cGy,75.86 cGy,81.4 1 cGy (F =3.36,P 〈 0.05);0.5 cm Depth 95.59 cGy,93.37 cGy,96.78 cGy,99.63 cGy,94.97 cGy (F =2.40,P 〉 0.05);1.0 cm Depth 103.42 cGy,102.53 cGy,103.48 cGy,88.89 cGy,101.36 cGy (F =7.19,P 〈 0.05);Nearly chest wall of lung 82.74 cGy,68.24 c Gy,85.34 cGy,21.49 cGy,75.02 cGy (F =46.43,P 〈 0.05).Compared to the dose value in TPS,dose delivered to Surface is lower at 8.04% (-6.57% to-11.93%),points at 0.5 cm is lower at 1.95% (2.15% to-5.90%),points at 1 cm is higher at0.65% (-2.87% to3.22%),lungislowerat3.53% (3.90% to-8.93%).Conclusions MOSFET detector with the corresponding simulation phantom can be used to measure the actual dose in a portion of body,and to evaluate the dosimetrical characteristics of different radiotherapy techniques.MOSFET detector is suitable for real-time,in vivo measurement of radiation dose during radiotherapy in breast cancer patients,so that the physicians are able to change treatment plan in time to ensure the accuracy of target dose.
出处 《中华放射肿瘤学杂志》 CSCD 北大核心 2015年第3期335-339,共5页 Chinese Journal of Radiation Oncology
关键词 剂量监测 MOSFET探测器 仿真模体 乳腺癌根治术后 放射疗法 Dose monitoring MOSFET detector Simulation phantom Breast cancer after radical mastectomy Radiotherapy
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参考文献11

  • 1Rutqvist LE, RoseC, Cavallin-Staid E. A systematic overview of ra- diation therapy efects in breast cancer [ J]. Acta Onco1,2003,42 (5-6) :532-545.
  • 2Van de Steene J, Soete G, Storme G. Adjuvant radiotherapy for breast cancer significantly impmvos overan survival: the missing link [ J]. Radiother Onco1,2000,55 (3) :263-272.
  • 3Kry SF, Price M, Wang Z, et al. Investigation into the use of a MOSFET dosimeter as an implantable fidueial marker [ J]. J Appl Clin Med Phys,2009,10( 1 ) :2893.
  • 4祁振宇,邓小武,黄劭敏,康德华,Anatoly Rosenfeld.新型金属氧化物半导体场效应晶体管探测器在放疗剂量监控中的应用[J].中华放射肿瘤学杂志,2006,15(4):329-334. 被引量:8
  • 5Physical aspect of quality assurance in radiation therapy. Radiation therapy committee task group No. 24 [ A]//American association of physicists in medicine. AAPM Report No. 13 [ M]. New York: The American Institute of Physics Inc,1984:23-29.
  • 6张永谦,戴建荣.器官运动对剂量分布的影响[J].中华放射医学与防护杂志,2007,27(2):206-208. 被引量:4
  • 7Bortfeld T, Jiang SB, Rietzel E. Effects of motion on the total dose distribution [ J ]. Semin Radiat 0ncol,2004,14 (1) :41-51.
  • 8黄晓波,蒋国樑,陈佳艺,陈兰飞,胡伟刚.乳腺癌调强放射治疗和常规切线野治疗的三维剂量学研究[J].癌症,2006,25(7):855-860. 被引量:62
  • 9Pierce LJ, Butler JB, Martel MK, et al. Postmastectomy radiother- apy of the chest wall : dosimetric comparison of common techniques [ J]. Int J Radiat Oncol Biol Phys,2002,52 (5) :1220-1230.
  • 10成芳,王霞,艾秀清,木妮热,许素玲,司马义,贺春钰.Ⅱ、Ⅲ期乳腺癌术后三种放疗方式的比较研究[J].现代肿瘤医学,2010,18(8):1538-1540. 被引量:4

二级参考文献64

  • 1金大伟,戴建荣,余子豪,惠周光,王淑莲,耿辉.乳腺癌五种照射技术比较研究[J].医学研究杂志,2006,35(6):10-13. 被引量:23
  • 2谷铣之,殷蔚伯,徐国镇,等.肿瘤放射治疗学[M].北京;中国协和医科大学出版社,2002:537.
  • 3Abram Recht,Stephen B E,Law rence.J,et al.Post mastectomy radiotherapy:clinical prance guidelines of the American Society of Clinical Oncology[J].J Clin Oncol,2001,19(5):1539.
  • 4Beth strauss BS MS.Best hope or last hope aceess tO phase 111 clinical trials of HER-2/neu for advanced stage breast cancer patients[J].J Advanced Nursing,2000,31(2):259-266.
  • 5Physical aspect of quality assurance in radiation therapy.Radiation Therapy Committee Task Group No.24.In:American Association of Physicists in Medicine,eds.AAPM Report No.13.New York:The American Institute of Physics Inc,1984.23-29.
  • 6Kron T.Chapter 3:dosimetry of therapeutic X-rays.In:Metcalfe P,Kron T,eds.The physics of radiotherapy X-rays.Oxford:Oxford University Press,2000.158-159.
  • 7Soubra M,Cygler J,Mackay G.Evaluation of a dual bias dual metal oxide-silicon semiconductor field effect transistor detector as radiation dosimeter.Med Phys,1994,21:567-572.
  • 8Absorbed dose determination in photon and electron beams:an international code of practice.In:International Atomic Energy Agency,eds.IAEA Report No.277.Vienna:International Atomic Energy Agency,1987.42-59.
  • 9The use of plane parallel ionization chamber in high energy electron and photon beams:an international code of practice.In:International Atomic Energy Agency,eds.IAEA Report No.381.Vienna:International Atomic Energy Agency,1997.38-47.
  • 10Kron T,Duggan L,Smith T,et al.Dose response of various radiation detectors to synchrotron radiation.Phys Med Biol,1998,43:3235-3259.

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