Department of Radiotherapy and Oncology, Comprehensive Cancer Center, Medical University of Vienna, Austria.
Radiother Oncol. 2013 Apr;107(1):20-5. doi: 10.1016/j.radonc.2013.01.012. Epub 2013 Apr 18.
To compare the dosimetric impact of organ and target variations relative to the applicator for intracavitary brachytherapy by a multicentre analysis with different application techniques and fractionation schemes.
DVH data from 363 image/contour sets (120 patients, 6 institutions) were included for 1-6 fractions per patient, with imaging intervals ranging from several hours to ∼20 days. Variations between images acquired within one (intra-application) or between consecutive applicator insertions (inter-application) were evaluated. Dose plans based on a reference MR or CT image series were superimposed onto subsequent image sets and D(2cm(3)) for the bladder, rectum and sigmoid and D(90) for HR CTV were recorded.
For the whole sample, the systematic dosimetric variations for all organs at risk, i.e. mean variations of D(2cm(3)), were found to be minor (<5%), while random variations, i.e. standard deviations were found to be high due to large variations in individual cases. The D(2cm(3)) variations (mean±1SD) were 0.6±19.5%, 4.1±21.7% and 1.6±26.8%, for the bladder, rectum and sigmoid. For HR CTV, the variations of D90 were found to be -1.1±13.1% for the whole sample. Grouping of the results by intra- and inter-application variations showed that random uncertainties for bladder and sigmoid were 3-7% larger when re-implanting the applicator for individual fractions. No statistically significant differences between the two groups were detected in dosimetric variations for the HR CTV. Using 20% uncertainty of physical dose for OAR and 10% for HR CTV, the effects on total treatment dose for a 4 fraction HDR schedule at clinically relevant dose levels were found to be 4-8 Gy EQD2 for OAR and 3 Gy EQD2 for HR CTV.
Substantial variations occur in fractionated cervix cancer BT with higher impact close to clinical threshold levels. The treatment approach has to balance uncertainties for individual cases against the use of repetitive imaging, adaptive planning and dose delivery.
通过多中心分析比较不同应用技术和分割方案的腔内近距离治疗中施源器相对于器官和靶区的剂量学影响。
共纳入 120 例患者(6 个中心)363 个图像/轮廓集的剂量体积直方图(DVH)数据,每个患者进行 1-6 次分割,成像间隔从数小时到约 20 天不等。评估了单次应用(同一次应用内)或连续应用(不同次应用间)时采集的图像之间的变化。将基于参考磁共振或 CT 图像序列的剂量计划叠加到后续图像集上,并记录膀胱、直肠和乙状结肠的 D(2cm(3))和 HR CTV 的 D(90)。
对于整个样本,所有危及器官的系统剂量学变化(即 D(2cm(3))的平均变化)较小(<5%),而随机变化(即标准差)由于个体病例的较大变化而较高。膀胱、直肠和乙状结肠的 D(2cm(3))变化(平均值±1SD)分别为 0.6±19.5%、4.1±21.7%和 1.6±26.8%。对于 HR CTV,整个样本的 D90 变化为-1.1±13.1%。按同次和不同次应用的变化对结果进行分组,发现当对每个分次重新植入施源器时,膀胱和乙状结肠的随机不确定性增加了 3-7%。在 HR CTV 的剂量学变化方面,两组之间没有检测到统计学上的显著差异。对于 OAR,使用 OAR 物理剂量 20%的不确定性和 HR CTV 10%的不确定性,在临床相关剂量水平下,对于 4 次分割 HDR 方案,对总治疗剂量的影响分别为 OAR 的 4-8 Gy EQD2 和 HR CTV 的 3 Gy EQD2。
宫颈癌 BT 分次治疗中会出现大量变化,在接近临床阈值水平时影响更大。治疗方法必须平衡个体病例的不确定性与重复成像、自适应计划和剂量传递的使用。
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