在标准治疗计划系统中使用倒置剂量处方图进行数字式剂量描绘。

Dose painting by numbers in a standard treatment planning system using inverted dose prescription maps.

作者信息

Arnesen Marius Røthe, Knudtsen Ingerid Skjei, Rekstad Bernt Louni, Eilertsen Karsten, Dale Einar, Bruheim Kjersti, Helland Åslaug, Løndalen Ayca Muftuler, Hellebust Taran Paulsen, Malinen Eirik

机构信息

a Department of Medical Physics , The Norwegian Radium Hospital, Oslo University Hospital , Oslo , Norway.

b Department of Physics , University of Oslo , Oslo , Norway.

出版信息

Acta Oncol. 2015;54(9):1607-13. doi: 10.3109/0284186X.2015.1061690. Epub 2015 Jul 27.

DOI:10.3109/0284186X.2015.1061690

PMID:26213311

Abstract

BACKGROUND

Dose painting by numbers (DPBN) is a method to deliver an inhomogeneous tumor dose voxel-by-voxel with a prescription based on biological medical images. However, planning of DPBN is not supported by commercial treatment planning systems (TPS) today. Here, a straightforward method for DPBN with a standard TPS is presented.

MATERIAL AND METHODS

DPBN tumor dose prescription maps were generated from (18)F-FDG-PET images applying a linear relationship between image voxel value and dose. An inverted DPBN prescription map was created and imported into a standard TPS where it was defined as a mock pre-treated dose. Using inverse optimization for the summed dose, a planned DPBN dose distribution was created. The procedure was tested in standard TPS for three different tumor cases; cervix, lung and head and neck. The treatment plans were compared to the prescribed DPBN dose distribution by three-dimensional (3D) gamma analysis and quality factors (QFs). Delivery of the DPBN plans was assessed with portal dosimetry (PD).

RESULTS

Maximum tumor doses of 149%, 140% and 151% relative to the minimum tumor dose were prescribed for the cervix, lung and head and neck case, respectively. DPBN distributions were well achieved within the tumor whilst normal tissue doses were within constraints. Generally, high gamma pass rates (> 89% at 2%/2 mm) and low QFs (< 2.6%) were found. PD showed that all DPBN plans could be successfully delivered.

CONCLUSIONS

The presented methodology enables the use of currently available TPSs for DPBN planning and delivery and may therefore pave the way for clinical implementation.

摘要

背景

数字式剂量描绘（DPBN）是一种基于生物医学图像的处方，逐体素递送不均匀肿瘤剂量的方法。然而，目前商业治疗计划系统（TPS）不支持DPBN计划。在此，提出了一种使用标准TPS进行DPBN的简单方法。

材料与方法

利用图像体素值与剂量之间的线性关系，从（18）F-FDG-PET图像生成DPBN肿瘤剂量处方图。创建一个倒置的DPBN处方图并导入标准TPS，在其中将其定义为模拟预处理剂量。通过对总剂量进行逆向优化，创建计划的DPBN剂量分布。该程序在标准TPS中针对三种不同的肿瘤病例进行了测试；宫颈癌、肺癌和头颈部癌。通过三维（3D）伽马分析和质量因子（QFs）将治疗计划与规定的DPBN剂量分布进行比较。使用门静脉剂量测定法（PD）评估DPBN计划的实施情况。

结果

宫颈癌、肺癌和头颈部癌病例相对于最小肿瘤剂量的最大肿瘤剂量分别规定为149%、140%和151%。在肿瘤内很好地实现了DPBN分布，而正常组织剂量在限制范围内。一般来说，发现高伽马通过率（在2%/2毫米时>89%）和低QFs（<2.6%）。PD表明所有DPBN计划都能成功实施。

结论

所提出的方法能够使用当前可用的TPS进行DPBN计划和实施，因此可能为临床应用铺平道路。

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在标准治疗计划系统中使用倒置剂量处方图进行数字式剂量描绘。

Dose painting by numbers in a standard treatment planning system using inverted dose prescription maps.

作者信息

机构信息

出版信息

BACKGROUND

MATERIAL AND METHODS

RESULTS

CONCLUSIONS

背景

材料与方法

结果

结论

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