Commissioning and performance characteristics of a pre-clinical image-guided radiotherapy system.

Q3 Biochemistry, Genetics and Molecular Biology Australasian Physical & Engineering Sciences in Medicine Pub Date : 2019-06-01 Epub Date: 2019-04-15 DOI:10.1007/s13246-019-00755-4

Theresa V Feddersen, Pejman Rowshanfarzad, Tamara N Abel, Martin A Ebert

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Abstract

Characteristics of a small-animal radiotherapy device, the X-RAD SmART, are described following commissioning of the device for pre-clinical radiotherapy research. Performance characteristics were assessed using published standards and compared with previous results published for similar systems. Operational radiation safety was established. Device X-ray beam quality and output dose-rate were found to be consistent with those reported for similar devices. Output steadily declined over 18 months though remained within tolerance levels. There is considerable variation in output factor across the international installations for the smallest field size (varying by more than 30% for 2.5 mm diameter fields). Measured depth dose and profile data was mostly consistent with that published, with some differences in penumbrae and generally reduced flatness. Target localisation is achieved with an imaging panel and with automatic corrections for panel flex and device mechanical instability, targeting within 0.2 mm is achievable. The small-animal image-guided radiotherapy platform has been implemented and assessed and found to perform as specified. The combination of kV energy and high spatial precision make it suitable for replicating clinical dose distributions at the small-animal scale, though dosimetric uncertainties for the narrowest fields need to be acknowledged.

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临床前图像引导放射治疗系统的调试和性能特点。

X-RAD SmART 是一种小型动物放射治疗设备，该设备在投入临床前放射治疗研究后，对其特性进行了描述。使用已公布的标准对其性能特征进行了评估，并将其与以前公布的类似系统的结果进行了比较。确定了操作辐射安全。设备的 X 射线束质量和输出剂量率与类似设备的报告结果一致。输出量在 18 个月内稳步下降，但仍在容许范围内。对于最小的磁场尺寸，国际设备的输出因子差异很大（直径为 2.5 毫米的磁场差异超过 30%）。测量的深度剂量和剖面数据与公布的数据基本一致，只是在半影方面存在一些差异，平整度普遍降低。目标定位是通过成像面板实现的，并对面板弯曲和设备机械不稳定性进行了自动校正，可实现 0.2 毫米以内的目标定位。小动物图像引导放射治疗平台已投入使用并进行了评估，发现其性能符合规定。千伏能量和高空间精度的结合使其适合在小动物尺度上复制临床剂量分布，但需要承认最窄区域的剂量测定不确定性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Australasian Physical & Engineering Sciences in Medicine 工程技术-工程：生物医学

CiteScore

2.00

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Australasian Physical & Engineering Sciences in Medicine (APESM) is a multidisciplinary forum for information and research on the application of physics and engineering to medicine and human physiology. APESM covers a broad range of topics that include but is not limited to: - Medical physics in radiotherapy - Medical physics in diagnostic radiology - Medical physics in nuclear medicine - Mathematical modelling applied to medicine and human biology - Clinical biomedical engineering - Feature extraction, classification of EEG, ECG, EMG, EOG, and other biomedical signals; - Medical imaging - contributions to new and improved methods; - Modelling of physiological systems - Image processing to extract information from images, e.g. fMRI, CT, etc.; - Biomechanics, especially with applications to orthopaedics. - Nanotechnology in medicine APESM offers original reviews, scientific papers, scientific notes, technical papers, educational notes, book reviews and letters to the editor. APESM is the journal of the Australasian College of Physical Scientists and Engineers in Medicine, and also the official journal of the College of Biomedical Engineers, Engineers Australia and the Asia-Oceania Federation of Organizations for Medical Physics.