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Measurement and Monte Carlo simulation for energy‐ and intensity‐modulated electron radiotherapy delivered by a computer‐controlled electron multileaf collimator

机译：由计算机控制的电子多叶准直仪进行的能量和强度调制电子放疗的测量和蒙特卡洛模拟

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The dosimetric advantage of modulated electron radiotherapy (MERT) has been explored by many investigators and is considered to be an advanced radiation therapy technique in the utilization of electrons. A computer‐controlled electron multileaf collimator (MLC) prototype, newly designed to be added onto a Varian linac to deliver MERT, was investigated both experimentally and by Monte Carlo simulations. Four different electron energies, 6, 9, 12, and 15 MeV, were employed for this investigation. To ensure that this device was capable of delivering the electron beams properly, measurements were performed to examine the electron MLC (eMLC) leaf leakage and to determine the appropriate jaw positioning for an eMLC‐shaped field in order to eliminate a secondary radiation peak that could otherwise appear outside of an intended radiation field in the case of inappropriate jaw positioning due to insufficient radiation blockage from the jaws. Phase space data were obtained by Monte Carlo (MC) simulation and recorded at the plane just above the jaws for each of the energies (6, 9, 12, and 15 MeV). As an input source, phase space data were used in MC dose calculations for various sizes of the eMLC shaped field (

10 \times 10 {cm}^{2}

3.4 \times 3.4 {cm}^{2}

, and

2 \times 2 {cm}^{2}

) with respect to a water phantom at source‐to‐surface distance

(SSD) = 94 cm

, while the jaws, eMLC leaves, and some accessories associated with the eMLC assembly as well were modeled as modifiers in the calculations. The calculated results were then compared with measurements from a water scanning system. The results showed that jaw settings with 5 mm margins beyond the field shaped by the eMLC were appropriate to eliminate the secondary radiation peak while not widening the beam penumbra; the eMLC leaf leakage measurements ranged from 0.3% to 1.8% for different energies based on in‐phantom measurements, which should be quite acceptable for MERT. Comparisons between MC dose calculations and measurements showed agreement within

1 % / 1 mm

based on percentage depth doses (PDDs) and off‐axis dose profiles for a range of field sizes for each of the electron energies. Our current work has demonstrated that the eMLC and other relevant components in the linac were correctly modeled and simulated via our in‐house MC codes, and the eMLC is capable of accurately delivering electron beams for various eMLC‐shaped field sizes with appropriate jaw settings. In the next stage, patient‐specific verification with a full MERT plan should be performed.PACS number: 87.55.ne

机译：调制电子放射疗法（MERT）的剂量优势已被许多研究者探索，并被认为是利用电子技术的先进放射疗法技术。通过计算机仿真和蒙特卡洛仿真研究了一种计算机控制的电子多叶准直仪（MLC）原型，该原型是新设计添加到Varian直线加速器上以提供MERT的。这项研究采用了四种不同的电子能量6、9、12和15 MeV。为了确保该设备能够正确传送电子束，进行了测量以检查电子MLC（eMLC）叶片泄漏，并确定eMLC形场的适当钳口位置，以消除可能造成电子辐射的二次辐射峰。如果由于颚板的辐射阻挡不足而导致颚板位置不合适，则会出现在预期的辐射场之外。通过蒙特卡洛（MC）模拟获得相空间数据，并记录在每种能量（6、9、12和15 MeV）的钳口正上方的平面上。作为输入源，相空间数据用于各种尺寸的eMLC成形场的MC剂量计算中（ 10 × 10 cm < / mtext> 2 ，

3.4\times3.4cm2和2\times2cm2）相对于水体模型的源到地距离（SSD）=94

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期刊名称 Journal of Applied Clinical Medical Physics
作者
Lihui Jin; Ahmed Eldib; Jinsheng Li; Ismail Emam; Jiajin Fan; Lu Wang; C‐M Ma;
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作者单位

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年(卷),期 2014(15),1
年度 2014
页码 177–186
总页数 10
原文格式 PDF
正文语种
中图分类放射医学;影像诊断学;
关键词
Monte Carlo simulation modulated electron radiotherapy (MERT) eMLC;

机译：蒙特卡罗模拟;调制电子放射疗法（MERT）;eMLC;

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专利

1. Measurement and Monte Carlo simulation for energy‐ and intensity‐modulated electron radiotherapy delivered by a computer‐controlled electron multileaf collimator [J] . Jin Lihui, Eldib Ahmed, Li Jinsheng, Journal of applied clinical medical physics / . 2014,第1期

机译：电脑控制电子多叶准直器输送的能量和强度调制电子放射疗法的测量和蒙特卡罗模拟
2. Monte Carlo simulations of electron beams collimated with a dual electron multileaf collimator: a feasibility study. [J] . Inyang SO, Chamberlain AC Radiological physics and technology . 2009,第2期

机译：用双电子多叶准直仪准直的电子束的蒙特卡罗模拟：可行性研究。
3. Monte Carlo simulations of electron beams collimated with a dual electron multileaf collimator: a feasibility study [J] . S. O. Inyang, A. C. Chamberlain Radiological Physics and Technology . 2009,第2期

机译：双电子多叶准直器准直的电子束的蒙特卡罗模拟：可行性研究
4. Thomson scattering measurement and Monte-Carlo simulation of electron energy distribution in a planar surface wave plasma [C] . A. Kono, M. Aramaki, J. Kobayashi International Conference on Phenomena in Ionized Gases;ICPIG 2005 . 2005

机译：汤姆逊散射测量和平面波等离子体中电子能量分布的蒙特卡罗模拟
5. Application of Monte Carlo simulations to the development of energy- and intensity-modulated electron beam radiation therapy [D] . Lee, Michael Chun-chieh 2002

机译：蒙特卡罗模拟在能量和强度调制电子束放射疗法发展中的应用
6. Suggesting a new design for multileaf collimator leaves based on Monte Carlo simulation of two commercial systems [O] . Sanaz Hariri, Majid Shahriari 2010

机译：根据两个商业系统的蒙特卡洛模拟提出一种多叶准直器叶片的新设计
7. Dosimetry of very high energy electrons (VHEE) for radiotherapy applications : using radiochromic film measurements and Monte Carlo simulations [O] . Subiel Anna, Moskvin V., Welsh Gregor H., 2014

机译：用于放射治疗的极高能量电子（VHEE）的剂量测定法：使用放射致变色膜测量和蒙特卡洛模拟
8. Multileaf Collimator for Modulated Electron Radiation Therapy for Breast Cancer [R] . Song, Y. 2003

机译：多叶准直器用于调节电子辐射治疗乳腺癌

Measurement and Monte Carlo simulation for energy‐ and intensity‐modulated electron radiotherapy delivered by a computer‐controlled electron multileaf collimator

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