Meinan Yao , Zechen Feng , Bin Bai , Zhiqiang Xuan , Yongzhong Ma
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The system has a primary radiation beam self-shielding, and an isocenter dose rate of 800 cGy/min. For detection points in various planes, an <em>x, y, z</em> coordinate system was established with the isocenter as the origin. To simulate the situation of patient, water-equivalent phantom was employed. The ambient dose equivalent and ambient dose equivalent rate at detection points in the radiation field were measured using thermoluminescence dosimeters.</p></div><div><h3>Results</h3><p>The self-shielding area achieved a maximum dose of 114.0 mGy at 1 m distance from the target point after 3 min of cumulative irradiation. The leakage radiation ratios at all points remained below 0.5%, fulfilling the self-shielding design requirements. Regarding the couch, the highest radiation was observed in the opposite direction of the beam at the target point. The stray radiation on the treatment bed plane resulted in an ambient dose equivalent that did not exceed 0.5% of the ambient dose equivalent at the central point.</p></div><div><h3>Conclusion</h3><p>The levels and distribution patterns of stray and leakage radiation inside the TaiChi Pro treatment room meet the requirements of the relevant national standard. The measured values of indoor radiation levels and distribution are very useful for room shielding design and personnel protection.</p></div>","PeriodicalId":34051,"journal":{"name":"Radiation Medicine and Protection","volume":"4 4","pages":"Pages 236-243"},"PeriodicalIF":0.0000,"publicationDate":"2023-12-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S2666555723000606/pdfft?md5=826eaa2e3c5564fab880e7d0d364e420&pid=1-s2.0-S2666555723000606-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Measurement and analysis on distribution of radiation field dose inside the treatment room of TaiChi Pro multimodal integrated digital radiotherapy system\",\"authors\":\"Meinan Yao , Zechen Feng , Bin Bai , Zhiqiang Xuan , Yongzhong Ma\",\"doi\":\"10.1016/j.radmp.2023.10.008\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><h3>Objective</h3><p>To examine the leakage radiation dose from the accelerator module's primary beam self-shielding, as well as stray radiation levels and distribution in the treatment room across various planes for the innovative X/γ multimodal radiotherapy system, TaiChi Pro, which is the world's first digitally integrated system that combines a linear accelerator, multi-source rotational focused gamma knife, and multi-modal image guidance, in order to formulate treatment room safety strategies and estimate additional radiation doses to patients.</p></div><div><h3>Methods</h3><p>The TaiChi Pro multi-mode integrated radiotherapy system was utilized with a 6 MV X-ray accelerator in the flatten-filter free (FFF) treatment mode. The system has a primary radiation beam self-shielding, and an isocenter dose rate of 800 cGy/min. For detection points in various planes, an <em>x, y, z</em> coordinate system was established with the isocenter as the origin. To simulate the situation of patient, water-equivalent phantom was employed. The ambient dose equivalent and ambient dose equivalent rate at detection points in the radiation field were measured using thermoluminescence dosimeters.</p></div><div><h3>Results</h3><p>The self-shielding area achieved a maximum dose of 114.0 mGy at 1 m distance from the target point after 3 min of cumulative irradiation. The leakage radiation ratios at all points remained below 0.5%, fulfilling the self-shielding design requirements. Regarding the couch, the highest radiation was observed in the opposite direction of the beam at the target point. The stray radiation on the treatment bed plane resulted in an ambient dose equivalent that did not exceed 0.5% of the ambient dose equivalent at the central point.</p></div><div><h3>Conclusion</h3><p>The levels and distribution patterns of stray and leakage radiation inside the TaiChi Pro treatment room meet the requirements of the relevant national standard. 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引用次数: 0
摘要
目的研究创新的X/γ多模态放疗系统 "太极Pro"(世界上第一台集直线加速器、多源旋转聚焦伽玛刀和多模态图像引导于一体的数字集成系统)的加速器模块主射束自屏蔽产生的泄漏辐射剂量,以及治疗室的杂散辐射水平和在不同平面上的分布情况,以制定治疗室安全策略并估算患者的额外辐射剂量。方法:TaiChi Pro 多模式综合放射治疗系统配备了一台 6 MV X 射线加速器,采用无扁平过滤器(FFF)治疗模式。该系统具有主射线束自屏蔽功能,等中心剂量率为 800 cGy/min。对于不同平面上的检测点,建立了以等中心为原点的 x、y、z 坐标系。为了模拟病人的情况,采用了水等效模型。使用热释光剂量计测量了辐射场中各检测点的环境剂量当量和环境剂量当量率。所有点的泄漏辐射比均低于 0.5%,符合自屏蔽设计要求。在治疗床方面,目标点的光束反方向辐射最高。治疗床平面上的杂散辐射导致的环境剂量当量不超过中心点环境剂量当量的 0.5%。室内辐射水平和分布的测量值对房间屏蔽设计和人员防护非常有用。
Measurement and analysis on distribution of radiation field dose inside the treatment room of TaiChi Pro multimodal integrated digital radiotherapy system
Objective
To examine the leakage radiation dose from the accelerator module's primary beam self-shielding, as well as stray radiation levels and distribution in the treatment room across various planes for the innovative X/γ multimodal radiotherapy system, TaiChi Pro, which is the world's first digitally integrated system that combines a linear accelerator, multi-source rotational focused gamma knife, and multi-modal image guidance, in order to formulate treatment room safety strategies and estimate additional radiation doses to patients.
Methods
The TaiChi Pro multi-mode integrated radiotherapy system was utilized with a 6 MV X-ray accelerator in the flatten-filter free (FFF) treatment mode. The system has a primary radiation beam self-shielding, and an isocenter dose rate of 800 cGy/min. For detection points in various planes, an x, y, z coordinate system was established with the isocenter as the origin. To simulate the situation of patient, water-equivalent phantom was employed. The ambient dose equivalent and ambient dose equivalent rate at detection points in the radiation field were measured using thermoluminescence dosimeters.
Results
The self-shielding area achieved a maximum dose of 114.0 mGy at 1 m distance from the target point after 3 min of cumulative irradiation. The leakage radiation ratios at all points remained below 0.5%, fulfilling the self-shielding design requirements. Regarding the couch, the highest radiation was observed in the opposite direction of the beam at the target point. The stray radiation on the treatment bed plane resulted in an ambient dose equivalent that did not exceed 0.5% of the ambient dose equivalent at the central point.
Conclusion
The levels and distribution patterns of stray and leakage radiation inside the TaiChi Pro treatment room meet the requirements of the relevant national standard. The measured values of indoor radiation levels and distribution are very useful for room shielding design and personnel protection.
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