Department of Radiology, Osaka City University Hospital, Osaka, Japan.
Phys Med Biol. 2011 Oct 21;56(20):N237-46. doi: 10.1088/0031-9155/56/20/N03. Epub 2011 Sep 30.
We propose a new method for analyzing the direct impact of multi-leaf collimator (MLC) leaf position errors on dose distributions in volumetric modulated arc therapy (VMAT). The technique makes use of the following processes. Systematic leaf position errors are generated by directly changing a leaf offset in a linac controller; dose distributions are measured by a two-dimensional diode array; pass rates of the dose difference between measured planar doses with and without the position errors are calculated as a function of the leaf position error. Three different treatment planning systems (TPSs) were employed to create VMAT plans for five prostate cancer cases and the pass rates were compared between the TPSs under various leaf position errors. The impact of the leaf position errors on dose distributions depended upon the final optimization result from each TPS, which was explained by the correlation between the dose error and the average leaf gap width. The presented method determines leaf position tolerances for VMAT delivery for each TPS, which may facilitate establishing a VMAT quality assurance program in a radiotherapy facility.
我们提出了一种新的方法来分析多叶准直器(MLC)叶片位置误差对容积调强弧形治疗(VMAT)中剂量分布的直接影响。该技术利用以下过程。通过直接改变直线加速器控制器中的叶片偏移量来产生系统的叶片位置误差;使用二维二极管阵列测量剂量分布;计算有和无位置误差的测量平面剂量之间的剂量差值的通过率作为叶片位置误差的函数。使用三种不同的治疗计划系统(TPS)为五个前列腺癌病例创建 VMAT 计划,并比较了不同叶片位置误差下 TPS 之间的通过率。叶片位置误差对剂量分布的影响取决于每个 TPS 的最终优化结果,这可以通过剂量误差与平均叶片间隙宽度之间的相关性来解释。所提出的方法确定了每个 TPS 的 VMAT 传输叶片位置容限,这可能有助于在放射治疗设施中建立 VMAT 质量保证计划。
