Erridge Sara C, Seppenwoolde Yvette, Muller Sara H, van Herk Marcel, De Jaeger Katrien, Belderbos José S A, Boersma Liesbeth J, Lebesque Joos V
Edinburgh Cancer Centre, Western General Hospital, Crewe Road South, Edinburgh, UK.
Radiother Oncol. 2003 Jan;66(1):75-85. doi: 10.1016/s0167-8140(02)00287-6.
To investigate patient set-up, tumor movement and shrinkage during 3D conformal radiotherapy for non-small cell lung cancer.
In 97 patients, electronic portal images (EPIs) were acquired and corrected for set-up using an off-line correction protocol based on a shrinking action level. For 25 selected patients, the orthogonal EPIs (taken at random points in the breathing cycle) throughout the 6-7 week course of treatment were assessed to establish the tumor position in each image using both an overlay and a delineation technique. The range of movement in each direction was calculated. The position of the tumor in the digitally reconstructed radiograph (DRR) was compared to the average position of the lesion in the EPIs. In addition, tumor shrinkage was assessed.
The mean overall set-up errors after correction were 0, 0.6 and 0.2 mm in the x (left-right), y (cranial-caudal) and z (anterior-posterior) directions, respectively. After correction, the standard deviations (SDs) of systematic errors were 1.4, 1.5 and 1.3 mm and the SDs of random errors were 2.9, 3.1 and 2.0 mm in the x-, y- and z-directions, respectively. Without correction, 41% of patients had a set-up error of more than 5 mm vector length, but with the set-up correction protocol this percentage was reduced to 1%. The mean amplitude of tumor motion was 7.3 (SD 2.7), 12.5 (SD 7.3) and 9.4 mm (SD 5.2) in the x-, y- and z-directions, respectively. Tumor motion was greatest in the y-direction and in particular for lower lobe tumors. In 40% of the patients, the projected area of the tumor regressed by more than 20% during treatment in at least one projection. In 16 patients it was possible to define the position of the center of the tumor in the DRR. There was a mean difference of 6 mm vector length between the tumor position in the DRR and the average position in the portal images.
The application of the correction protocol resulted in a significant improvement in the set-up accuracy. There was wide variation in the observed tumor motion with more movement of lower lobe lesions. Tumor shrinkage was observed. The position of the tumor on the planning CT scan did not always coincide with the average position as measured during treatment.
研究非小细胞肺癌三维适形放疗期间患者的摆位、肿瘤运动及缩小情况。
对97例患者采集电子射野影像(EPI),并使用基于收缩作用水平的离线校正方案进行摆位校正。对25例选定患者,在6 - 7周的治疗过程中,评估整个呼吸周期随机点采集的正交EPI,采用叠加和勾画技术确定每张影像中肿瘤的位置。计算每个方向的运动范围。将数字重建射线影像(DRR)中肿瘤的位置与EPI中病变的平均位置进行比较。此外,评估肿瘤缩小情况。
校正后x(左右)、y(头脚)和z(前后)方向的平均总体摆位误差分别为0、0.6和0.2 mm。校正后,系统误差的标准差(SD)在x、y和z方向分别为1.4、1.5和1.3 mm,随机误差的SD分别为2.9、3.1和2.0 mm。未校正时,41%的患者摆位误差向量长度超过5 mm,但采用摆位校正方案后,该比例降至1%。肿瘤在x、y和z方向的平均运动幅度分别为7.3(SD 2.7)、12.5(SD 7.3)和9.4 mm(SD 5.2)。肿瘤运动在y方向最大,尤其是下叶肿瘤。40%的患者中,至少在一个投影方向上,肿瘤的投影面积在治疗期间缩小超过20%。在16例患者中,可以确定DRR中肿瘤中心的位置。DRR中肿瘤位置与射野影像中平均位置的向量长度平均差异为6 mm。
校正方案的应用显著提高了摆位精度。观察到的肿瘤运动差异很大,下叶病变运动更多。观察到肿瘤缩小。规划CT扫描上肿瘤的位置并不总是与治疗期间测量的平均位置一致。
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