TiGRT治疗计划系统在放射治疗中对射野外剂量计算准确性的评估。

Assessment of accuracy of out-of-field dose calculations by TiGRT treatment planning system in radiotherapy.

作者信息

Bahreyni Toossi Mohammad Taghi, Soleymanifard Shokouhozaman, Farhood Bagher, Mohebbi Shokoufeh, Davenport David

机构信息

Medical Physics Research Center, Mashhad, Iran.

Department of Medical Physics, Faculty of Medicine, Mashhad University of Medical Sciences, Mashhad, Iran.

出版信息

J Cancer Res Ther. 2018 Apr-Jun;14(3):634-639. doi: 10.4103/0973-1482.176423.

DOI:10.4103/0973-1482.176423

PMID:29893331

Abstract

AIM

The objective was to quantify the accuracy of dose calculation for out-of-field regions by the commercially available TiGRT version 1.2 (LinaTech, Sunnyvale, CA, USA) treatment planning system (TPS) for a clinical treatment delivered on a Siemens Primus with the single energy of 6 MV.

MATERIALS AND METHODS

Two tangential open fields were planned by TiGRT TPS to irradiate the left breast of a RANDO phantom. Dose values to out-of-field points were calculated by TiGRT TPS. A RANDO phantom was then irradiated, and dose values at set points were measured using thermoluminescent detectors-100 (TLDs-100) which were located within the phantom. Finally, the TLD-measured dose was compared to the TPS-calculated dose and the accuracy of TPS calculations at different distances from the field edge was quantified.

RESULTS

The measurements showed that TiGRT TPS generally underestimated the dose of out-of-field points and this underestimation worsened for regions relatively close to the treatment field edge. The mean underestimation of out-of-field doses was 39%. Nevertheless, the accuracy of dose calculation by this TPS for most in-field regions was within tolerance.

CONCLUSION

This study highlights the limitations of TiGRT TPSs in calculating of the out-of-field dose. It should be noted that out-of-field data for this TPS should only be applied with a certain understanding of the accuracy of calculated dose outside the treatment field. Therefore, using the TPS-calculated dose could lead to an underestimation of secondary cancer risk as well as a weak clinical decision for patients with implantable cardiac pacemakers or pregnant patients.

摘要

目的

本研究旨在量化美国加利福尼亚州桑尼维尔市LinaTech公司生产的TiGRT版本1.2治疗计划系统（TPS），针对西门子Primus直线加速器6兆伏单能临床治疗中射野外区域剂量计算的准确性。

材料与方法

利用TiGRT TPS规划两个切线野，用于照射RANDO体模的左乳。通过TiGRT TPS计算射野外点的剂量值。然后对RANDO体模进行照射，并使用位于体模内的热释光探测器-100（TLD-100）测量设定点处的剂量值。最后，将TLD测量的剂量与TPS计算的剂量进行比较，并量化TPS在距射野边缘不同距离处计算的准确性。

结果

测量结果表明，TiGRT TPS通常会低估射野外点的剂量，并且对于相对靠近治疗射野边缘的区域，这种低估情况会更严重。射野外剂量的平均低估率为39%。然而，该TPS对大多数射野内区域的剂量计算准确性在公差范围内。

结论

本研究突出了TiGRT TPS在计算射野外剂量方面的局限性。应当注意，对于该TPS的射野外数据，仅在对治疗野外计算剂量的准确性有一定了解的情况下应用。因此，使用TPS计算的剂量可能会低估继发癌症风险，同时对于植入心脏起搏器的患者或孕妇而言，可能导致临床决策薄弱。

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TiGRT治疗计划系统在放射治疗中对射野外剂量计算准确性的评估。

Assessment of accuracy of out-of-field dose calculations by TiGRT treatment planning system in radiotherapy.

作者信息

机构信息

出版信息

AIM

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料与方法

结果

结论

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