A dosimetry technique for measuring kilovoltage cone‐beam CT dose on a linear accelerator using radiotherapy equipment

机译：使用放射治疗设备在线性加速器上测量千伏锥束CT剂量的剂量学技术

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摘要

This work develops a technique for kilovoltage cone‐beam CT (CBCT) dosimetry that incorporates both point dose and integral dose in the form of dose length product, and uses readily available radiotherapy equipment. The dose from imaging protocols for a range of imaging parameters and treatment sites was evaluated. Conventional CT dosimetry using 100 mm long pencil chambers has been shown to be inadequate for the large fields in CBCT and has been replaced in this work by a combination of point dose and integral dose. Absolute dose measurements were made with a small volume ion chamber at the central slice of a radiotherapy phantom. Beam profiles were measured using a linear diode array large enough to capture the entire imaging field. These profiles were normalized to absolute dose to form dose line integrals, which were then weighted with radial depth to form the DLPCBCT. This metric is analogous to the standard dose length product (DLP), but derived differently to suit the unique properties of CBCT. Imaging protocols for head and neck, chest, and prostate sites delivered absolute doses of 0.9, 2.2, and 2.9 cGy to the center of the phantom, and

{DLP}_{CBCT}

of 28.2, 665.1, and 565.3 mGy.cm, respectively. Results are displayed as dose per 100 mAs and as a function of key imaging parameters such as kVp, mAs, and collimator selection in a summary table.

{DLP}_{CBCT}

was found to correlate closely with the dimension of the imaging region and provided a good indication of integral dose. It is important to assess integral dose when determining radiation doses to patients using CBCT. By incorporating measured beam profiles and DLP, this technique provides a CBCT dosimetry in radiotherapy phantoms and allows the prediction of imaging dose for new CBCT protocols.PACS number: 87.57.uq

机译：这项工作开发了一种千伏锥束CT（CBCT）剂量测定技术，该技术以剂量长度乘积的形式结合了点剂量和积分剂量，并使用了现成的放射治疗设备。评估了一系列成像参数和治疗部位的成像方案剂量。已经证明，使用100 mm长的笔形腔室进行的常规CT剂量测定不足以应对CBCT中的大视野，并且在这项工作中已被点剂量和积分剂量的组合所代替。绝对剂量测量是在放射治疗体模的中央切片上使用小体积离子室进行的。使用足够大以捕获整个成像场的线性二极管阵列来测量光束轮廓。将这些曲线归一化为绝对剂量以形成剂量线积分，然后用径向深度加权以形成DLPCBCT。该度量类似于标准剂量长度乘积（DLP），但采用不同的方法得出以适合CBCT的独特属性。头，颈，胸和前列腺部位的成像协议将幻影中心的绝对剂量分别为0.9、2.2和2.9 cGy，并且

DLPCBCT的28.2，665.1 ，分别为565.3mGy.cm。在汇总表中，结果显示为每100 mAs的剂量以及关键成像参数（例如kVp，mAs和准直仪选择）的函数。DLP<发现mtext> CBCT与成像区域的尺寸密切相关，并提供了积分剂量的良好指示。在确定使用CBCT对患者的放射剂量时，评估积分剂量很重要。通过结合测量的光束轮廓和DLP，该技术为放射治疗体模提供了CBCT剂量测定，并允许预测新CBCT方案的成像剂量.PACS编号：87.57.uq

著录项

期刊名称 Journal of Applied Clinical Medical Physics
作者
Daniel Scandurra; Catherine E. Lawford;
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作者单位

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年(卷),期 2014(15),4
年度 2014
页码 80–92
总页数 13
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
CBCT dose length product dose length integral DLP;

机译：CBCT;剂量长度乘积;剂量长度积分;DLP;

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专利

1. A dosimetry technique for measuring kilovoltage cone‐beam CT dose on a linear accelerator using radiotherapy equipment [J] . Scandurra Daniel, Lawford Catherine E. Journal of applied clinical medical physics / . 2014,第4期

机译：使用放射治疗仪在线性加速器上测量千伏锥束CT剂量的剂量学技术
2. A dosimetry technique for measuring kilovoltage cone‐beam CT dose on a linear accelerator using radiotherapy equipment [J] . Scandurra Daniel, Lawford Catherine E. Journal of applied clinical medical physics / . 2014,第4期

机译：使用放射治疗仪在线性加速器上测量千伏锥束CT剂量的剂量学技术
3. Theoretical aspects of implementation of kilovoltage cone-beam ct onboard linear accelerator for image-guided radiotherapy [J] . CordónM.R., CarlosFerrerAlbiachDepartmentofRadiationOncologyInstituteofOncology Clinical & translational oncology : . 2009,第8期

机译：用于图像引导放射治疗的千伏锥束ct机载线性加速器实施的理论方面
4. Cone-beam computed tomography (CT) for a megavoltage linear accelerator (LINAC) using an electronic portal imaging device (EPID) and the algebraic reconstruction technique (ART) [C] . Mueller, K., Chang, Engineering in Medicine and Biology Society, 2000. Proceedings of the 22nd Annual International Conference of the IEEE . 2000

机译：使用电子门禁成像设备（EPID）和代数重建技术（ART）的兆电压线性加速器（LINAC）的锥形束计算机断层扫描（CT）
5. Development of Kilovoltage X-ray Dosimetry Methods and Their Application to Cone Beam Computed Tomography. [D] . Lawless, Michael J. 2016

机译：千伏X射线剂量学方法的发展及其在锥束计算机断层扫描中的应用。
6. Linear Accelerator-Based Radiotherapy Simulation Using On-Board Kilovoltage Cone-Beam Computed Tomography for 3-Dimensional Volumetric Planning and Rapid Treatment in the Palliative Setting [O] . Brandon A. Dyer, Chithra K. Nair, Charles E. Deardorff, 2019

机译：基于线性加速器的放射治疗模拟使用机载千伏锥束计算机断层扫描进行三维体积规划和姑息治疗中的快速治疗
7. A dosimetry technique for measuring kilovoltage cone‐beam CT dose on a linear accelerator using radiotherapy equipment [O] . Daniel Scandurra, Catherine E. Lawford 2014

机译：使用放射疗法设备测量线性加速器窑锥梁CT剂量的剂量测定技术
8. Development of Prior Image-Based, High-Quality, Low-Dose Kilovoltage Cone Beam CT for Use in Adaptive Radiotherapy of Prostate Cancer. [R] . Han, X. 2013

机译：用于前列腺癌自适应放射治疗的先前基于图像的高质量低剂量Kilovoltage锥形束CT的开发。

A dosimetry technique for measuring kilovoltage cone‐beam CT dose on a linear accelerator using radiotherapy equipment

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