高剂量率近距离放疗在妇科肿瘤中的腔内“体内”剂量测定

V. Bogacheva, V. Stepanenko, L. Krikunova, A. Petukhov, G. Kulieva, T.V. Kolyshenkov, E. Zharova, V. A. Korotkov, S. A. Ivanov, P. Shegay, A. Kaprin
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引用次数: 0

摘要

利用LiF:Mg,Ti微晶体(尺寸约为0.1 mm)构建和应用柔性剂量计组件的技术,用于离线测量肿瘤生态学中高剂量率近距离放射治疗中危险器官(直肠、尿道、阴道)内吸收剂量的空间分布。从使用宏观尺寸(大于1mm)的发光剂量计LiF:Mg,Ti转变为使用约0.1 mm尺寸的微剂量计,结合使用小当量(10mg)发光微剂量计的剂量估计方案,为提高高剂量率近距离妇科恶性肿瘤治疗剂量范围内剂量测量的准确性提供了可能。在妇科肿瘤的高剂量率近距离放射治疗(Ir-129源)中发展的腔内剂量测定技术在临床(25例患者)中进行了测试。结果发现,在有关地区,通常测量的剂量与计算的剂量是完全一致的。然而,在4例(占所有患者的16%)中,尿道和直肠(最大计算剂量的器官)的测量局部吸收剂量超过计算剂量(从0.6 Gy到1 Gy)。这些病例可作为治疗后患者病情监测的基础。然而,最大剂量值在可接受的剂量范围内,根据GEC-ESTRO推荐。发达的“体内”剂量测定技术允许在多段式高剂量率近距离治疗中调整剂量测量计划。“体内”剂量测定技术的临床批准结果表明,该技术作为保证妇科肿瘤近距离高剂量率放射治疗质量的剂量测定基本要素的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Intracavitary «in vivo» dosimetry at the high dose rate brachytherapy in oncogynecology
The technology for construction and application of flexible dosimetric assemblies with LiF:Mg,Ti microcrystals (sizes of about 0.1 mm) for off-line measurements of the spatial distribution of the absorbed dose inside organs at risk (rectum, urethra, vagina) at high dose rate brachytherapy in oncoginecology has been developed. The transfer from the usage of luminescent dosimeters LiF:Mg,Ti with macro sizes (more than 1 mm) to microdosimetrs with sizes of about 0.1 mm, in combination with the developed protocols of dose estimations using mini-aliquots (10 mg) of lu-minescent microdosimeters, provided possibility to increase the accuracy of dose measurements in the therapeutic dose range at high dose rate brachytherapy of gynecological malignancies. The developed technology of intracavitary dosimetry at a high dose rate brachytherapy (Ir-129 source) in oncogynecology was tested in the clinic (25 patients). It was found that, as a rule, the measured doses were in a good agreement with the calculated doses in the areas of interest. However, in four cases (16% of all patients) there was an excess of the measured local absorbed doses over the calculated ones (from 0.6 to 1 Gy) in the urethra and rectum (in the organs of maximum calculated doses). These cases may be considered as a basis for monitoring of the patients’ condition in the post-therapeutic period. However, the values of maximal dose were within acceptable dose range, as recommended by GEC-ESTRO. The developed technology of «in vivo» dosimetry allows to adjust the dosimetrical plans at multifractional high dose rate brachytherapy. The results of clinical approbation of the developed technology of «in vivo» dosimetry show the importance of this technology as an essential element of dosimetric assurance of the quality of high dose rate brachytherapy in oncogynecology.
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