具有患者特定呼吸模式的 Radixact Synchrony 跟踪系统相位移动对剂量的影响。

Dosimetric impact of phase shifts on Radixact Synchrony tracking system with patient-specific breathing patterns.

机构信息

Medical Physics Department, Hong Kong Sanatorium and Hospital, Hong Kong SAR, China.

出版信息

J Appl Clin Med Phys. 2022 Jun;23(6):e13600. doi: 10.1002/acm2.13600. Epub 2022 Apr 21.

DOI:10.1002/acm2.13600

PMID:35446474

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9195033/

Abstract

PURPOSE

The Synchrony tracking system of Radixact is capable of real-time tumor tracking by building a correlation model between external light-emitting diodes on the patient's chest and an internal marker. A phase shift between the chest wall and a lung tumor has been reported. Hence, this study focused on evaluating the accuracy of the tracking system, especially under a patient-specific breathing pattern with respiratory phase shifts.

METHODS

A phantom containing fiducial markers was placed on a moving platform. The intrinsic delivery accuracy was verified with a patient-specific breathing pattern. Three patient-specific breathing patterns were then implemented, for which phase shifts, φ, were introduced. Phase shifts with +0.3 s and +1 s were tested for dosimetric aspects, whereas ±0.3, ±0.6, and ±0.8 s shifts were used for tracking accuracy. The resultant dose distributions were analyzed by γ comparison. Dose profiles in the superior-inferior and lateral directions were compared. Logfiles of the tracking information were extracted from the system and compared with the input breathing pattern. The root mean square (RMS) difference was used to quantify the consistency.

RESULTS

When the φ value was as large as 1 s, a severe inconsistency was observed. The target was significantly underdosed, down to 89% of the originally planned dose. γ analysis revealed that the failed portion was concentrated in the target region. The RMS of the tracking difference was close to 1 mm when φ was ±0.3 s and approximately 4 mm when φ was ±0.8 s. Tracking errors increased with an increase in the degree of phase shifts.

CONCLUSION

Phase shifts between the patient chest wall and the internal target may hamper treatment delivery and jeopardize treatment using Synchrony Tracking. Hence, a larger planning target volume (PTV) may be necessary if a large phase shift is observed in a patient, especially when an external surrogate shows a lag in motion when compared with the tumor.

摘要

目的

Radixact 的 Synchrony 跟踪系统能够通过构建患者胸部外部发光二极管与内部标记之间的相关模型来实时跟踪肿瘤。已经报道了胸壁和肺肿瘤之间的相位移动。因此，本研究集中评估跟踪系统的准确性，特别是在具有呼吸相位移动的特定患者呼吸模式下。

方法

将包含基准标记的体模放置在移动平台上。使用特定于患者的呼吸模式验证固有输送精度。然后实施了三种特定于患者的呼吸模式，并引入了相位移动，φ。测试了+0.3 s 和+1 s 的相位移动以进行剂量学方面的测试，而使用±0.3、±0.6 和±0.8 s 的相位移动进行跟踪准确性测试。通过γ比较分析得到的剂量分布。比较了上下和侧向的剂量曲线。从系统中提取跟踪信息的日志文件，并与输入的呼吸模式进行比较。使用均方根（RMS）差异来量化一致性。

结果

当φ值高达 1 s 时，观察到严重的不一致性。目标明显剂量不足，降至原始计划剂量的 89%。γ分析表明，失败部分集中在目标区域。当φ为±0.3 s 时，跟踪差异的 RMS 接近 1mm，而当φ为±0.8 s 时，RMS 约为 4mm。随着相位移动程度的增加，跟踪误差增加。

结论

患者胸壁和内部目标之间的相位移动可能会妨碍治疗输送，并危及使用 Synchrony 跟踪的治疗。因此，如果在患者中观察到较大的相位移动，特别是当外部替代物的运动与肿瘤相比显示滞后时，可能需要更大的计划靶区（PTV）。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a478/9195033/a83bbd09a6b3/ACM2-23-e13600-g004.jpg

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具有患者特定呼吸模式的 Radixact Synchrony 跟踪系统相位移动对剂量的影响。

Dosimetric impact of phase shifts on Radixact Synchrony tracking system with patient-specific breathing patterns.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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