射波刀固定准直器和虹膜™定义的小辐射野：使用高分辨率固态探测器阵列进行评估。

CyberKnife fixed cone and Iris™ defined small radiation fields: Assessment with a high-resolution solid-state detector array.

作者信息

Biasi Giordano, Petasecca Marco, Guatelli Susanna, Martin Ebert A, Grogan Garry, Hug Benjamin, Lane Jonathan, Perevertaylo Vladimir, Kron Tomas, Rosenfeld Anatoly B

机构信息

Centre for Medical Radiation Physics, University of Wollongong, Wollongong, 2522 NSW, Australia.

Department of Radiation Oncology, Sir Charles Gairdner Hospital, Nedlands, WA, Australia.

出版信息

J Appl Clin Med Phys. 2018 Sep;19(5):547-557. doi: 10.1002/acm2.12414. Epub 2018 Jul 12.

DOI:10.1002/acm2.12414

PMID:29998618

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6123130/

Abstract

PURPOSE

The challenges of accurate dosimetry for stereotactic radiotherapy (SRT) with small unflattened radiation fields have been widely reported in the literature. In this case, suitable dosimeters would have to offer a submillimeter spatial resolution. The CyberKnife (Accuray Inc., Sunnyvale, CA, USA) is an SRT-dedicated linear accelerator (linac), which can deliver treatments with submillimeter positional accuracy using circular fields. Beams are delivered with the desired field size using fixed cones, the InCise™ multileaf collimator or a dynamic variable-aperture Iris™ collimator. The latter, allowing for field sizes to be varied during treatment delivery, has the potential to decrease treatment time, but its reproducibility in terms of output factors (OFs) and dose profiles (DPs) needs to be verified.

METHODS

A 2D monolithic silicon array detector, the "Octa", was evaluated for dosimetric quality assurance (QA) for a CyberKnife system. OFs, DPs, percentage depth-dose (PDD) and tissue maximum ratio (TMR) were investigated, and results were benchmarked against the PTW SRS diode. Cross-plane, in-plane and 2 diagonal dose profiles were measured simultaneously with high spatial resolution (0.3 mm). Monte Carlo (MC) simulations with a GEANT4 (GEometry ANd Tracking 4) tool-kit were added to the study to support the experimental characterization of the detector response.

RESULTS

For fixed cones and the Iris, for all field sizes investigated in the range between 5 and 60 mm diameter, OFs, PDDs, TMRs, and DPs in terms of FWHM measured by the Octa were accurate within 3% when benchmarked against the SRS diode and MC calculations.

CONCLUSIONS

The Octa was shown to be an accurate dosimeter for measurements with a 6 MV FFF beam delivered with a CyberKnife system. The detector enabled real-time dosimetric verification for the variable aperture Iris collimator, yielding OFs and DPs consistent with those obtained with alternative methods.

摘要

目的

文献中已广泛报道了针对具有小的未展平辐射野的立体定向放射治疗（SRT）进行精确剂量测定的挑战。在这种情况下，合适的剂量计必须具备亚毫米级的空间分辨率。射波刀（美国加利福尼亚州森尼韦尔市的Accuray公司）是一台专门用于SRT的直线加速器（linac），它能够使用圆形野以亚毫米级的位置精度进行治疗。使用固定准直器、InCise™多叶准直器或动态可变孔径Iris™准直器来提供具有所需野大小的射束。后者允许在治疗过程中改变野大小，有可能缩短治疗时间，但其在输出因子（OFs）和剂量分布（DPs）方面的可重复性需要得到验证。

方法

对一种二维单片硅阵列探测器“Octa”进行评估，用于射波刀系统的剂量质量保证（QA）。研究了OFs、DPs、百分深度剂量（PDD）和组织最大剂量比（TMR），并将结果与PTW SRS二极管进行基准对比。以高空间分辨率（0.3毫米）同时测量了跨平面、平面内和两条对角线剂量分布。研究中加入了使用GEANT4（几何与跟踪4）工具包的蒙特卡罗（MC）模拟，以支持探测器响应的实验表征。

结果

对于固定准直器和Iris准直器，在直径5至60毫米范围内研究的所有野大小，与SRS二极管和MC计算相比，Octa测量的OFs、PDDs、TMRs以及半高宽（FWHM）方面的DPs的准确度在3%以内。

结论

Octa被证明是一种用于射波刀系统所提供的6MV FFF射束测量的精确剂量计。该探测器能够对可变孔径Iris准直器进行实时剂量验证，产生的OFs和DPs与通过其他方法获得的结果一致。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8438/6123130/b751c01331d8/ACM2-19-547-g001.jpg

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射波刀固定准直器和虹膜™定义的小辐射野：使用高分辨率固态探测器阵列进行评估。

CyberKnife fixed cone and Iris™ defined small radiation fields: Assessment with a high-resolution solid-state detector array.

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