Department of Radiation Oncology, Tufts University School of Medicine, Boston, MA, 02111, USA.
Unidad Mixta de Investigación en Radiofísica e Instrumentación Nuclear en Medicina (IRIMED), Instituto de Investigación Sanitaria La Fe (IIS-La Fe)-Universitat de Valéncia, Bujassot, 46100, Spain.
Med Phys. 2017 Sep;44(9):e297-e338. doi: 10.1002/mp.12430. Epub 2017 Aug 8.
Since the publication of the 2004 update to the American Association of Physicists in Medicine (AAPM) Task Group No. 43 Report (TG-43U1) and its 2007 supplement (TG-43U1S1), several new low-energy photon-emitting brachytherapy sources have become available. Many of these sources have satisfied the AAPM prerequisites for routine clinical purposes and are posted on the Brachytherapy Source Registry managed jointly by the AAPM and the Imaging and Radiation Oncology Core Houston Quality Assurance Center (IROC Houston). Given increasingly closer interactions among physicists in North America and Europe, the AAPM and the Groupe Européen de Curiethérapie-European Society for Radiotherapy & Oncology (GEC-ESTRO) have prepared another supplement containing recommended brachytherapy dosimetry parameters for eleven low-energy photon-emitting brachytherapy sources. The current report presents consensus datasets approved by the AAPM and GEC-ESTRO. The following sources are included: I sources (BEBIG model I25.S17, BEBIG model I25.S17plus, BEBIG model I25.S18, Elekta model 130.002, Oncura model 9011, and Theragenics model AgX100); Pd sources (CivaTech Oncology model CS10, IBt model 1031L, IBt model 1032P, and IsoAid model IAPd-103A); and Cs (IsoRay Medical model CS-1 Rev2). Observations are included on the behavior of these dosimetry parameters as a function of radionuclide. Recommendations are presented on the selection of dosimetry parameters, such as from societal reports issuing consensus datasets (e.g., TG-43U1, AAPM Report #229), the joint AAPM/IROC Houston Registry, the GEC-ESTRO website, the Carleton University website, and those included in software releases from vendors of treatment planning systems. Aspects such as timeliness, maintenance, and rigor of these resources are discussed. Links to reference data are provided for radionuclides (radiation spectra and half-lives) and dose scoring materials (compositions and mass densities). The recent literature is examined on photon energy response corrections for thermoluminescent dosimetry of low-energy photon-emitting brachytherapy sources. Depending upon the dosimetry parameters currently used by individual physicists, use of these recommended consensus datasets may result in changes to patient dose calculations. These changes must be carefully evaluated and reviewed with the radiation oncologist prior to their implementation.
自美国医学物理学家协会(AAPM)第 43 号工作组报告(TG-43U1)及其 2007 年补编(TG-43U1S1)发布以来,已经有几种新型低能光子发射近距离治疗源可供使用。其中许多源已满足 AAPM 常规临床应用的前提条件,并已在由 AAPM 和成像与放射肿瘤学核心休斯顿质量保证中心(IROC Houston)联合管理的近距离治疗源注册处发布。由于北美和欧洲的物理学家之间的互动越来越密切,AAPM 和欧洲近距离治疗和放射肿瘤学协会(GEC-ESTRO)已经编写了另一个补充文件,其中包含了 11 种低能光子发射近距离治疗源的推荐近距离治疗剂量学参数。本报告介绍了 AAPM 和 GEC-ESTRO 批准的共识数据集。以下来源包括:I 源(BEBIG 型号 I25.S17、BEBIG 型号 I25.S17plus、BEBIG 型号 I25.S18、Elekta 模型 130.002、Oncura 模型 9011 和 Theragenics 模型 AgX100);Pd 源(CivaTech Oncology 模型 CS10、IBt 模型 1031L、IBt 模型 1032P 和 IsoAid 模型 IAPd-103A);以及 Cs 源(IsoRay Medical 模型 CS-1 Rev2)。本报告中包括了这些剂量学参数随放射性核素变化的行为的观察结果。本报告还提出了关于选择剂量学参数的建议,例如来自社会报告(例如,TG-43U1、AAPM 报告 #229)、AAPM/IROC Houston 联合注册表、GEC-ESTRO 网站、卡尔顿大学网站以及治疗计划系统供应商发布的软件版本中的建议。还讨论了这些资源的及时性、维护和严格性等方面。为放射性核素(辐射谱和半衰期)和剂量评分材料(组成和质量密度)提供了参考数据的链接。本报告还研究了低能光子发射近距离治疗源的热释光剂量测定中的光子能量响应校正的最新文献。根据个别物理学家当前使用的剂量学参数,使用这些推荐的共识数据集可能会导致患者剂量计算发生变化。在实施这些变化之前,必须与放射肿瘤学家仔细评估和审查这些变化。
