4DCT 调试和定期 QA 的全面质量保证程序。

A comprehensive quality assurance procedure for 4D CT commissioning and periodic QA.

机构信息

Department of Radiation Oncology, Virginia Commonwealth University, Richmond, Virginia, USA.

出版信息

J Appl Clin Med Phys. 2022 Nov;23(11):e13764. doi: 10.1002/acm2.13764. Epub 2022 Sep 4.

DOI:10.1002/acm2.13764

PMID:36057944

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9680562/

Abstract

PURPOSE

The 4D computed tomography (CT) simulation is an essential procedure for tumors exhibiting breathing-induced motion. However, to date there are no established guidelines to assess the characteristics of existing systems and to describe meaningful performance. We propose a commissioning quality assurance (QA) protocol consisting of measurements and acquisitions that assess the mechanical and computational operation for 4D CT with both phase and amplitude-based reconstructions, for regular and irregular respiratory patterns.

METHODS

The 4D CT scans of a QUASAR motion phantom were acquired for both regular and irregular breathing patterns. The hardware consisted of the Canon Aquilion Exceed LB CT scanner used in conjunction with the Anzai laser motion monitoring system. The nominal machine performance and reconstruction were demonstrated with measurements using regular breathing patterns. For irregular breathing patterns the performance was quantified through the analysis of the target motion in the superior and inferior directions, and the volume of the internal target volume (ITV). Acquisitions were performed using multiple pitches and the reconstructions were performed using both phase and amplitude-based binning.

RESULTS

The target was accurately captured during regular breathing. For the irregular breathing, the measured ITV exceeded the nominal ITV parameters in all scenarios, but all deviations were less than the reconstructed slice thickness. The mismatch between the nominal pitch and the actual breathing rate did not affect markedly the size of the ITV. Phase and normalized amplitude binning performed similarly.

CONCLUSIONS

We demonstrated a framework for measuring and quantifying the initial performance of 4D CT simulation scans that can also be applied during periodic QAs. The regular breathing provided confidence that the hardware and the software between the systems performs adequately. The irregular breathing data suggest that the system may be expected to capture in excess the target motion and geometry, but the deviation is expected to be within the slice thickness.

摘要

目的

对于呼吸运动导致的肿瘤，4D 计算机断层扫描（CT）模拟是一种必不可少的方法。然而，目前还没有建立评估现有系统特性和描述有意义的性能的既定指南。我们提出了一个包含测量和采集的委托质量保证（QA）协议，用于评估基于相位和基于幅度的重建的 4D CT 的机械和计算操作，包括规则和不规则的呼吸模式。

方法

使用常规和不规则呼吸模式对 QUASAR 运动体模进行了 4D CT 扫描。硬件由佳能 Aquilion Exceed LB CT 扫描仪与 Anzai 激光运动监测系统结合使用。使用常规呼吸模式的测量演示了标称机器性能和重建。对于不规则呼吸模式，通过分析上下方向的目标运动和内部靶区体积（ITV）的体积来量化性能。使用多个螺距进行采集，并使用基于相位和基于幅度的 binning 进行重建。

结果

在常规呼吸期间，目标被准确捕获。对于不规则呼吸，在所有情况下，测量的 ITV 都超过了标称 ITV 参数，但所有偏差都小于重建的切片厚度。标称螺距与实际呼吸率之间的不匹配并未显著影响 ITV 的大小。相位和归一化幅度 binning 表现相似。

结论

我们展示了一种用于测量和量化 4D CT 模拟扫描初始性能的框架，也可在定期 QA 期间应用。常规呼吸为硬件和系统之间的软件提供了足够性能的信心。不规则呼吸数据表明，系统可能预期会捕获超出目标运动和几何形状的范围，但偏差预计在切片厚度范围内。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b9a0/9680562/35d3499db984/ACM2-23-e13764-g007.jpg

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4DCT 调试和定期 QA 的全面质量保证程序。

A comprehensive quality assurance procedure for 4D CT commissioning and periodic QA.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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