Medical Physics Department, Hong Kong Sanatorium & Hospital, 2 Village Road, Happy Valley, Hong Kong, China.
Comprehensive Oncology Centre, Hong Kong Sanatorium & Hospital, 2 Village Road, Happy Valley, Hong Kong, China.
Phys Eng Sci Med. 2022 Sep;45(3):915-924. doi: 10.1007/s13246-022-01162-y. Epub 2022 Aug 4.
A helical fan-beam kilovoltage computed tomography (kVCT) was recently introduced into Tomotherapy units. This study aims to share the initial experience of kVCT in clinical workflow, compare its performance with that of the existing megavoltage computed tomography (MVCT), and explore its potential in adaptive planning. We retrospectively enrolled 23 patients who underwent both MVCT and kVCT scans. The clinical performance data regarding image acquisition time, nominal dose length product (DLP), registration time and registration corrections were extracted and compared. Image quality was scored by six experienced radiation therapists and quantified based on phantom measurements. CT number stability and the implementation of adaptive radiotherapy were dosimetrically evaluated by performing the dose recalculation on kVCT. Compared to MVCT, kVCT significantly reduced DLP (except the highest kVp protocol), image acquisition and registration time. KVCT obtained higher scores than MVCT on all criteria except artifacts. Phantom measurements also revealed a better image performance characterization of kVCT except for image uniformity. The CT number variation could lead to a dose difference of 0.5% for D95% of target and D of organ-at-risk. For the treatment planning with kVCT, a systematic dose difference (> 1%) in PTV dose metrics was observed at regions with large longitudinal density discontinuities compared to the reference plans. The new kVCT imaging provides enhanced soft-tissue visualization. The improved efficiency with kVCT-guided treatment will allow more patients to be treated each day. In most cases, the dose calculation accuracy of kVCT images is acceptable except for regions with severe artifacts.
最近,螺旋扇束千伏级计算机断层扫描(kVCT)已被引入到 Tomotherapy 设备中。本研究旨在分享 kVCT 在临床工作流程中的初步经验,比较其与现有兆伏级计算机断层扫描(MVCT)的性能,并探讨其在自适应计划中的潜力。我们回顾性地招募了 23 名同时接受 MVCT 和 kVCT 扫描的患者。提取并比较了关于图像采集时间、名义剂量长度乘积(DLP)、配准时间和配准校正的临床性能数据。六位有经验的放射治疗师对图像质量进行了评分,并基于体模测量进行了量化。通过在 kVCT 上进行剂量重新计算,对 CT 数稳定性和自适应放疗的实施进行了剂量学评估。与 MVCT 相比,kVCT 显著降低了 DLP(最高 kVp 方案除外)、图像采集和配准时间。kVCT 在除伪影外的所有标准上的评分均高于 MVCT。体模测量也显示出 kVCT 的图像性能特征除了图像均匀性之外都更好。CT 数的变化可能导致靶区 D95%和危及器官 D 的剂量差异为 0.5%。对于使用 kVCT 进行的治疗计划,与参考计划相比,在具有较大纵向密度不连续性的区域中,PTV 剂量指标会出现系统剂量差异(>1%)。新的 kVCT 成像提供了增强的软组织可视化。kVCT 引导治疗的效率提高将使每天能够治疗更多的患者。在大多数情况下,kVCT 图像的剂量计算精度是可以接受的,除了有严重伪影的区域。
