Servei d'Oncologia Radioteràpica (ICAMS), Hospital Clínic de Barcelona, Barcelona, Spain.
Servei d'Oncologia Radioteràpica (ICAMS), Hospital Clínic de Barcelona, Barcelona, Spain.
Radiother Oncol. 2024 Dec;201:110580. doi: 10.1016/j.radonc.2024.110580. Epub 2024 Oct 10.
Transit-Guided Radiation Therapy (TGRT) is a novel technique that uses the transit portal images (TPIs) acquired with Electronic Portal Image Devices (EPID) to quantify patient position errors during the treatment. It has been validated using anthropomorphic phantoms but a validation in a clinical setting was lacking. A pilot clinical study is presented to confirm our previous results.
A prospective study was conducted between June and December 2022 with patients who received whole-brain or breast radiotherapy treatments. The selected treatments were composed of radiation fields using skin-flash, where the body contour projected a sharp edge on the EPID which has been used as a surrogate of the true patient position. Daily imaging procedures were applied as scheduled before running the one- and two-parameter model (1PM and 2PM) of the TGRT formalism on the acquired TPIs to independently estimate the patient position errors.
43 patients and 1015 TPIs have been assessed. The 2PM showed a better correlation with the true position errors (R = 0.76 vs. 0.73), a lower detection threshold (0.77 mm vs. 1.24 mm), and a lower overcorrection risk above the detection threshold (7.0 % vs. 11.1 %) than the 1PM. Overall, the 2PM would have significantly reduced the true position errors by a factor of 0.58 (0.49 - 1.27) (p < 0.0001).
The TGRT technique has confirmed the ability to reduce the position errors in a clinical setting, demonstrating the potential to enhance the patient position monitoring without increasing treatment time or patient dose.
经隧引导放疗(TGRT)是一种新颖的技术,它利用电子射野影像装置(EPID)采集的经隧透视图像(TPIs)来量化治疗过程中的患者位置误差。该技术已在人体模型上得到验证,但在临床环境中缺乏验证。本研究开展了一项临床初步研究,旨在确认我们之前的研究结果。
2022 年 6 月至 12 月期间,对接受全脑或乳腺癌放疗的患者进行了一项前瞻性研究。选择的治疗方案包括使用皮肤闪光的放射野,体表轮廓在 EPID 上投射出清晰的边缘,该边缘已被用作真实患者位置的替代物。根据计划进行每日成像程序,然后在采集的 TPIs 上运行 TGRT 公式的单参数和双参数模型(1PM 和 2PM),以独立估计患者位置误差。
共评估了 43 例患者和 1015 个 TPIs。与真实位置误差的相关性,2PM 更好(R=0.76 比 0.73),检测阈值更低(0.77mm 比 1.24mm),检测阈值以上的过校正风险更低(7.0%比 11.1%)。总体而言,2PM 会将真实位置误差显著降低 0.58 倍(0.49-1.27)(p<0.0001)。
TGRT 技术在临床环境中已证实有减少位置误差的能力,这表明该技术有可能在不增加治疗时间或患者剂量的情况下增强患者位置监测。
