确定在敏捷型多叶准直器上输送的6FFF射束的一个潜在误差源。

Identification of a potential source of error for 6FFF beams delivered on an Agility multileaf collimator.

作者信息

Lorenz Friedlieb H, Paris Matthew I

机构信息

Department of Radiation Oncology, Southern District Health Board, Dunedin, New Zealand.

出版信息

J Appl Clin Med Phys. 2021 Apr;22(4):92-98. doi: 10.1002/acm2.13212. Epub 2021 Mar 6.

DOI:10.1002/acm2.13212

PMID:33675145

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8035561/

Abstract

PURPOSE

The performance of the Agility multileaf collimator was investigated with a focus on dynamic, small fields for flattening filter free (FFF) beams.

METHODS

In this study we have developed a simple tool to test the robustness of the control mechanisms during dynamic beam delivery for Elekta's VersaHD linear accelerator with Integrity 4.0.4 control software. We have programed the planning system to calculate dose for delivery of sweeping gaps. These sweeping gaps have a constant speed, constant size, and are delivered at a constant dose rate. Therefore they specifically identify delivery problems in dynamic mode.

RESULTS

The Elekta Agility control mechanism fails to maintain accurate delivery for small, dynamic sweeping gaps. For small gap sizes, the Agility control mechanism delivers a field that is more than four times the size of the planned field width without generating an interlock. This has dosimetric implications: The discrepancy between calculated and measured doses increases with decreasing gap size and exceeds 10% and 60% at isocenter for a 3.5 mm and 1 mm gap size, respectively.

CONCLUSION

A deficiency of the Agility control system was identified in this study. This deficiency is a potential source of error for volumetric modulated arc therapy fields and could therefore contribute to relatively high failure rates in quality assurance measurements, especially for FFF beams.

摘要

目的

研究敏捷型多叶准直器的性能，重点关注无 flattening 滤波器（FFF）束流的动态小射野。

方法

在本研究中，我们开发了一种简单工具，用于测试配备 Integrity 4.0.4 控制软件的医科达 VersaHD 直线加速器在动态束流传输过程中控制机制的稳健性。我们已对计划系统进行编程，以计算用于扫描间隙传输的剂量。这些扫描间隙具有恒定速度、恒定尺寸，并以恒定剂量率传输。因此，它们能特别识别动态模式下的传输问题。

结果

医科达敏捷型控制机制在小的动态扫描间隙中无法维持精确传输。对于小间隙尺寸，敏捷型控制机制传输的射野比计划射野宽度大四倍多，且未产生联锁。这具有剂量学意义：计算剂量与测量剂量之间的差异随间隙尺寸减小而增加，在等中心处，对于 3.5 毫米和 1 毫米的间隙尺寸，分别超过 10%和 60%。

结论

本研究中识别出了敏捷型控制系统的一个缺陷。该缺陷是容积调强弧形治疗射野潜在的误差来源，因此可能导致质量保证测量中的相对高故障率，尤其是对于 FFF 束流。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/abc6/8035561/fea1c1bb0cd0/ACM2-22-92-g003.jpg

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确定在敏捷型多叶准直器上输送的6FFF射束的一个潜在误差源。

Identification of a potential source of error for 6FFF beams delivered on an Agility multileaf collimator.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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