The Influence of the Minimum Dynamic Leaf Gap on VMAT Plans Quality

Open Access Library Journal Pub Date : 2021-04-02 DOI:10.4236/OALIB.1107378

C. F. D. Zamo, M. Moyo, A. Colliaux, V. Blot-Lafond

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Abstract

The aim of the present work is to investigate the influence of dynamic minimum leaf gap into Pinnacle3 on VMAT plans quality. Three treatment machines were modeled in our TPS with a different value of dynamic minimum leaf gap of 5, 10 and 20 mm. VMAT plans of AAPM TG-119 phantom and twenty clinical real cases were planned on each machine. Based on AAPM TG-119 guidelines, we compared the machine on their ability to fulfill the dose goals; the pretreatment quality assurance was done with COMPASS QA system (IBA dosimetry, Germany). In order to evaluate how the measured and the planned data from each machine are closed. The monitor units’ numbers for each site and machine were also compared. For simple plans, all the three machines easily meet the goals; however, for complex shape case, only the 5 and 10 mm minimum leaf gap machines allow the user to reach the goals. Otherwise, the 20 mm minimum leaf gap machine presents lower difference between planned and measured dose and the best gamma scores than the two others machines. It also has the lower MUs per clinical site. Based on this investigation, 10 mm is the best compromise value for the dynamic minimum leaf gap into Pinnacle. It allows the planner to reach high complex goals during planning process and in another hand gives good agreement between planned and measured doses.

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最小动态叶隙对VMAT方案质量的影响

本文旨在研究动态最小叶隙对Pinnacle3叶片质量的影响。在我们的TPS中，模拟了三种不同动态最小叶间隙值的处理机器，分别为5、10和20 mm。在每台机器上规划AAPM TG-119假体和20例临床真实病例的VMAT计划。根据AAPM TG-119指南，我们比较了机器实现剂量目标的能力;预处理质量保证采用COMPASS QA系统(德国IBA剂量测定)。为了评估来自每台机器的测量数据和计划数据是如何闭合的。还比较了每个站点和机器的监测单元数。对于简单的计划，三台机器都很容易达到目标;然而，对于复杂的形状情况下，只有5和10毫米的最小叶间隙机允许用户达到目标。另外，20 mm最小叶隙机的计划剂量与测量剂量之间的差异较小，伽玛评分最好。它也有较低的每个临床部位的MUs。在此基础上，10 mm是尖峰动态最小叶间隙的最佳折衷值。它允许计划者在计划过程中达到高度复杂的目标，另一方面在计划剂量和测量剂量之间提供良好的一致性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Open Access Library Journal

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