Multi-Source E-Beam kV X-Ray Tube for Image-Guided Radiotherapy

用于图像引导放射治疗的多源电子束 kV X 射线管

基本信息

批准号：
8832656
负责人：
DOUGLAS P BOYD
金额：
$ 29.95万
依托单位：
TELESECURITY SCIENCES, INC.
依托单位国家：
美国
项目类别：
财政年份：
2015
资助国家：
美国
起止时间：
2015-01-01 至 2015-09-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8832656
关键词：
Abdomen Accounting Address Algorithms Am 80 Anodes Breathing Chest Clinical Collaborations Collimator Colon Carcinoma Development Dose Dose-Rate Electron Beam Engineering Ensure Exposure to Eye Financial compensation Funding Future Geometry Goals Health Image Industry Lead Letters Lung Lung Neoplasms Malignant - descriptor Malignant neoplasm of lung Malignant neoplasm of prostate Methods Modification Motion Normal tissue morphology Operative Surgical Procedures Patients Performance Phase Plant Leaves Positioning Attribute Procedures Process Radiation Radiation therapy Rectal Cancer Reporting Resolution Risk Roentgen Rays Safety Scanning Science Scientist Security Series Shapes Source Speed Spottings Structure Surface System Testing Time Toxic effect Tube Tungsten Update Vendor Work arm authority base cancer imaging commercialization cone-beam computed tomography contrast imaging cost design digital empowered image guided radiation therapy imaging system improved malignant breast neoplasm meetings millimeter millisecond novel operation programs prototype public health relevance reconstruction treatment planning tumor

项目摘要

DESCRIPTION (provided by applicant): This project will lead to the development of an optimized X-ray tube with 19 focal spots that can be placed immediately below and around the multi-leaf collimator (MLC) of a radiotherapy system. By steering a focused electron beam (e-beam) on a series of 19 cooled tungsten targets in sequence, this system will provide a set of projection images that can be reconstructed into a 20 cm 20 cm 20 cm digital tomosynthesis (DTS) volume image that surrounds the radiation target. The projection X-rays are captured by a universal kV-MV imager that can record portal MV images interlaced with the sequence of tomographic kV images. Since the sources are positioned around the perimeter of the MLC, the resulting tomographic cross section images are aligned perpendicular to the axis of the therapy beam. This geometry is referred to as "Beam's Eye View" imaging. The DTS images will be used to provide precise reference coordinates of a tumor surface for programming of the MLC, in near real-time. The preliminary specifications for the system indicate that a repetition rate of1 volume image per second with near 1 mm spatial resolution will be possible. The multi-source e-beam X-ray tube will be developed by substantially the same premier team who developed the original Imatron EBCT scanners and the more recent e-beam luggage scanner. The e-beam team consisting of TeleSecurity Sciences, Inc. scientists, consultants, and vendors has partnered with the premier cone beam CT team at UC Davis along with a key Varian consultant, who are authorities on flat panel X-ray imagers, and in particular the kV-MV imager that will be used in this project to provide simultaneous MV portal imaging with interlaced kV DTS imaging of the tumor position. Phase 1 of the project will extend the preliminary work to more precisely define the final design specifications for a future commercial system that will be appropriate for the entire radiotherapy industry. Phase 2 funding will develop a suitable prototype of the multi-source e- beam X-ray tube which will demonstrate the feasibility and performance of the commercial system. The majority of radiotherapy vendors have provided guidance and letters of support for this project. The commercial implementation of the proposed system in future radiotherapy systems will permit treatment plans that will have far improved localization of radiation exposure within reduced margins beyond the apparent boundaries of a malignant mass with a corresponding reduction in exposure to surrounding normal structures. This will be especially important in treating tumors of the chest and upper abdomen during free breathing where periodic motion in the range of 2 cm to 5 cm is often encountered. [1]

描述（由申请人提供）：该项目将开发一种具有 19 个焦点的优化 X 射线管，可以放置在放射治疗系统的多叶准直器 (MLC) 的正下方和周围。通过按顺序将聚焦电子束 (e-beam) 控制在一系列 19 个冷却钨靶上，该系统将提供一组投影图像，这些图像可重建为 20 cm × 20 cm × 20 cm 数字断层合成 (DTS) 体积图像围绕辐射目标。投影 X 射线由通用 kV-MV 成像仪捕获，该成像仪可以记录与层析 kV 图像序列交错的射野 MV 图像。由于源位于 MLC 周边，因此生成的断层扫描横截面图像垂直于治疗光束的轴对齐。这种几何形状被称为“束眼视图”成像。 DTS 图像将用于近乎实时地为 MLC 编程提供肿瘤表面的精确参考坐标。该系统的初步规格表明，每秒 1 个体积图像的重复率和接近 1 毫米的空间分辨率将是可能的。多源电子束 X 射线管将由开发原始 Imatron EBCT 扫描仪和更新的电子束行李扫描仪的一流团队开发。由 TeleSecurity Sciences, Inc. 的科学家、顾问和供应商组成的电子束团队与加州大学戴维斯分校的一流锥形束 CT 团队以及瓦里安的重要顾问（平板 X 射线成像仪方面的权威）合作，并在特别是本项目中将使用的 kV-MV 成像仪，可提供同步 MV 射野成像和肿瘤位置的隔行 kV DTS 成像。该项目的第一阶段将扩展前期工作，以更精确地定义适合整个放射治疗行业的未来商业系统的最终设计规范。第二阶段的资金将开发合适的多源电子束 X 射线管原型，该原型将证明商业系统的可行性和性能。大多数放射治疗供应商都为该项目提供了指导和支持信。所提出的系统在未来放射治疗系统中的商业实施将允许治疗计划，该治疗计划将在超出恶性肿块的明显边界的减少的边缘内大大改善辐射暴露的定位，并相应减少对周围正常结构的暴露。这对于治疗自由呼吸时经常遇到 2 厘米至 5 厘米范围内的周期性运动的胸部和上腹部肿瘤尤其重要。 [1]