| 马桥,刘冉,刘德明,胡波,罗素明.四川省调强放疗光子线束吸收剂量和二维剂量分布验证研究[J].中华放射医学与防护杂志,2018,38(2):134-137 |
| 四川省调强放疗光子线束吸收剂量和二维剂量分布验证研究 |
| Verification of photon beam field absorbed dose and two-dimensional dose distribution in intensity modulated radiotherapy in Sichuan province |
| 投稿时间:2017-07-26 |
| DOI:10.3760/cma.j.issn.0254-5098.2018.02.011 |
| 中文关键词: 热释光剂量计 胶片 调强放疗 吸收剂量 二维剂量分布 |
| 英文关键词:Thermoluminescent dosimeter Film Intensity modulated radiotherapy Absorbed dose Two-dimensional dose distribution |
| 基金项目:IAEA资助项目(17821/CRP);四川省科技支撑计划项目(2012SZ0179) |
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| 中文摘要: |
| 目的 用粉末热释光剂量计(TLD)和胶片测量调强放疗(IMRT)光子线束吸收剂量和二维剂量分布验证研究。方法 用国际原子能机构(IAEA)提供的聚苯乙烯固体模体,经CT扫描,影像传给放射治疗计划系统(TPS)制定放疗计划,源皮距90 cm,深度10 cm,照射野5 cm×5 cm,计算吸收剂量6 Gy相应的监督单位(MU)。根据四川省各个地域医疗水平、放射治疗开展情况和物理师技术力量等因素选择了7家三级甲等医院,每家医院选取1台常用的加速器,7台加速器生产厂家分别为瓦里安、医科达和西门子,并分别实施调强放疗计划。医院使用的均质固体模体,尺寸30 cm×30 cm,25 cm×25 cm的胶片放在模体上,厚度>20 cm的固体模体板覆盖在胶片上面,射线束中心对准胶片中心,实施调强放疗计划的验证。结果 7台加速器中,TLD吸收剂量与TPS计划剂量相对偏差分别为1.4%、3.7%、-2.5%、-0.3%、4.9%、4.9%和5.0%,满足IAEA要求的±5%以内;胶片吸收剂量与TPS计划剂量相对偏差分别为4.7%、4.3%、1.5%、3.9%、-1.6%、3.3%和-1.3%,满足IAEA要求的±5%以内;5台加速器胶片二维剂量分布3 mm/3%通过率分别为99.9%、98.5%、98.5%、97.9%和70.0%,其中4台加速器满足IAEA要求的通过率为90%以上,1台不满足要求。结论 用TLD和胶片测量调强放疗光子线束野吸收剂量和二维剂量分布验证,科学实用,经济方便,可为放射治疗计划提供质量保证。 |
| 英文摘要: |
| Objective To measure absorbed dose and verify two-dimensional dose distribution from IMRT MLC using thermoluminescence dosimeters (TLDs) and films. Methods The teflon phantom was scanned by CT and its images were transmitted to TPS for planning. The 6 Gy-corresponding MUs were calculated at 90 cm SSD and 10 cm depth and on 5 cm×5 cm radiation field. All the plans were implemented at 7 medical linear accelerators, which were produced by Varian, Elekta and Siemens and selected from 7 third-grade first-class hospitals according to the technical conditions of various regions in Sichuan province. The homogeneous solid phantoms used in hospitals were covered by 30 cm×30 cm and 25 cm×25 cm films. Then, the films were covered by thicker-than-20 cm phantoms. Finally, the plans were implemented by aligning the center of beams to the films center. Results The relative deviations of the measured absorbed dose to TPS-planned dose were 1.4%, 3.7%, -2.5%, -0.3%, 4.9%, 4.9%, 5.0% for TLDs and 4.7%, 4.3%, 1.5%, 3.9%, -1.6%, 3.3%, -1.3% for films, respectively, all consistent with the limit of less than 5%. The passing rates of 2D dose distribution (3 mm/3%) were 99.9%, 98.5%, 98.5%, 97.9% and 70.0% for 5 accelerators, with only one not consistent with the requirements. Conclusions It is convenient to measure the absorbed dose to photon beam field and verify two-dimensional dose distribution using TLDs and films, which can provide quality assurance for radiation treatment plans. |
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