Department of Radiation Oncology, Medical College of Wisconsin, Milwaukee, WI 53226, USA.
Int J Radiat Oncol Biol Phys. 2010 Apr;76(5):1592-8. doi: 10.1016/j.ijrobp.2009.08.005. Epub 2010 Feb 3.
To develop and clinically demonstrate the use of on-line real-time megavoltage (MV) fluoroscopy for gated treatment delivery verification.
Megavoltage fluoroscopy (MVF) image sequences were acquired using a flat panel equipped for MV cone-beam CT in synchrony with the respiratory signal obtained from the Anzai gating device. The MVF images can be obtained immediately before or during gated treatment delivery. A prototype software tool (named RTReg4D) was developed to register MVF images with phase-sequenced digitally reconstructed radiograph images generated from the treatment planning system based on four-dimensional CT. The image registration can be used to reposition the patient before or during treatment delivery. To demonstrate the reliability and clinical usefulness, the system was first tested using a thoracic phantom and then prospectively in actual patient treatments under an institutional review board-approved protocol.
The quality of the MVF images for lung tumors is adequate for image registration with phase-sequenced digitally reconstructed radiographs. The MVF was found to be useful for monitoring inter- and intrafractional variations of tumor positions. With the planning target volume contour displayed on the MVF images, the system can verify whether the moving target stays within the planning target volume margin during gated delivery.
The use of MVF images was found to be clinically effective in detecting discrepancies in tumor location before and during respiration-gated treatment delivery. The tools and process developed can be useful for gated treatment delivery verification.
开发并临床验证在线实时兆伏级(MV)透视技术在门控治疗中的应用,以验证其治疗效果。
使用配备 MV 锥形束 CT 的平板探测器,在安财门控装置获得呼吸信号的同时获取 MV 透视图像序列。MVF 图像可以在门控治疗输送之前或期间获得。开发了一个原型软件工具(命名为 RTReg4D),用于根据四维 CT 从治疗计划系统生成的相位序列数字重建射线照片图像对 MVF 图像进行配准。图像配准可用于在治疗输送之前或期间重新定位患者。为了验证其可靠性和临床实用性,该系统首先在胸部体模中进行了测试,然后在机构审查委员会批准的方案下,对实际患者进行了前瞻性治疗。
肺部肿瘤的 MVF 图像质量足以与相位序列数字重建射线照片进行图像配准。MVF 被发现可用于监测肿瘤位置的内外部分变异性。通过在 MVF 图像上显示计划靶区轮廓,该系统可以验证移动目标在门控输送期间是否保持在计划靶区边缘内。
MVF 图像的使用在检测呼吸门控治疗输送前后肿瘤位置差异方面具有临床有效性。所开发的工具和流程可用于门控治疗输送验证。
