术中放疗设备的功能比较——光子放射外科系统。

Functional intercomparison of intraoperative radiotherapy equipment - Photon Radiosurgery System.

机构信息

Department of Medical Physics, Ninewells Hospital and Medical School, Tayside University Hospitals NHS Trust, Dundee, UK.

出版信息

Radiat Oncol. 2007 Feb 27;2:11. doi: 10.1186/1748-717X-2-11.

DOI:10.1186/1748-717X-2-11

PMID:17326838

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1808461/

Abstract

BACKGROUND

Intraoperative Radiotherapy (IORT) is a method by which a critical radiation dose is delivered to the tumour bed immediately after surgical excision. It is being investigated whether a single high dose of radiation will impart the same clinical benefit as a standard course of external beam therapy. Our centre has four Photon Radiosurgery Systems (PRS) currently used to irradiate breast and neurological sites.

MATERIALS AND METHODS

The PRS comprises an x-ray generator, control console, quality assurance tools and a mobile gantry. We investigated the dosimetric characteristics of each source and its performance stability over a period of time. We investigated half value layer, output diminution factor, internal radiation monitor (IRM) reproducibility and depth-doses in water. The half value layer was determined in air by the broad beam method, using high purity aluminium attenuators. To quantify beam hardening at clinical depths, solid water attenuators of 5 and 10 mm were placed between the x-ray probe and attenuators. The ion chamber current was monitored over 30 minutes to deduce an output diminution factor. IRM reproducibility was investigated under various exposures. Depth-dose curves in water were obtained at distances up to 35 mm from the probe.

RESULTS

The mean energies for the beam attenuated by 5 and 10 mm of solid water were derived from ICRU Report 17 and found to be 18 and 24 keV. The average output level over a period of 30 minutes was found to be 99.12%. The average difference between the preset IRM limit and the total IRM count was less than 0.5%. For three x-ray sources, the average difference between the calculated and actual treatment times was found to be 0.62% (n = 30). The beam attenuation in water varied by approximately 1/r(3).

CONCLUSION

The x-ray sources are stable over time. Most measurements were found to lie within the manufacturer's tolerances and an intercomparison of these checks suggests that the four x-ray sources have similar performance characteristics.

摘要

背景

术中放射治疗（IORT）是一种在手术切除后立即向肿瘤床递送临界辐射剂量的方法。目前正在研究单次高剂量辐射是否会带来与标准疗程的外部束治疗相同的临床益处。我们中心目前有四个光子放射外科系统（PRS）用于照射乳房和神经部位。

材料和方法

PRS 由 X 射线发生器、控制台、质量保证工具和移动龙门架组成。我们研究了每个源的剂量学特性及其在一段时间内的性能稳定性。我们研究了半价层、输出衰减因子、内部辐射监测器（IRM）的重现性和水中的深度剂量。通过使用高纯铝衰减器的宽束方法在空气中确定半价层。为了量化临床深度的束硬化，在 X 射线探头和衰减器之间放置 5 和 10 毫米的实心水衰减器。监测离子室电流 30 分钟以得出输出衰减因子。在各种曝光下研究了 IRM 重现性。在距离探头 35 毫米以内的距离获得水中的深度剂量曲线。

结果

从 ICRU 报告 17 中得出，被 5 和 10 毫米实心水衰减的光束的平均能量分别为 18 和 24 keV。在 30 分钟的时间段内，平均输出水平被发现为 99.12%。预设 IRM 限制与总 IRM 计数之间的平均差异小于 0.5%。对于三个 X 射线源，计算出的和实际治疗时间之间的平均差异被发现为 0.62%（n = 30）。水的束衰减大约遵循 1/r(3)。

结论

X 射线源随时间稳定。大多数测量值均落在制造商的公差范围内，并且这些检查的相互比较表明四个 X 射线源具有相似的性能特征。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a68f/1808461/0c5d49950285/1748-717X-2-11-1.jpg

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术中放疗设备的功能比较——光子放射外科系统。

Functional intercomparison of intraoperative radiotherapy equipment - Photon Radiosurgery System.

机构信息

出版信息

BACKGROUND

MATERIALS AND METHODS

RESULTS

CONCLUSION

背景

材料和方法

结果

结论

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