Department of Nuclear Medicine, Henri Becquerel Cancer Center and Rouen University Hospital, UFR de Médecine-Pharmacie, University of Rouen, France.
Radiother Oncol. 2012 Feb;102(2):251-7. doi: 10.1016/j.radonc.2011.07.023. Epub 2011 Aug 30.
The objectives were (i) to confirm that diagnostic FDG-PET images could be obtained during thoracic radiotherapy, (ii) to verify that significant changes in FDG uptake or volume could be measured early enough to adapt the radiotherapy plan and (iii) to determine an optimal time window during the radiotherapy course to acquire a single FDG-PET examination that would be representative of tumour response.
Ten non-small cell lung carcinoma (NSCLC) patients with significant PET/CT-FDG tumour radioactivity uptake (versus the background level), candidates for curative radiotherapy (RT, n=4; 60-70 Gy, 2 Gray per fraction, 5 fractions per week) or RT plus chemotherapy (CT-RT, n=6), were prospectively evaluated. Using a Siemens Biograph, 5 or 6 PET/CT scans (PET(n), n=0-5) were performed for each patient. Each acquisition included a 15-min thoracic PET with respiratory gating (RG) 60±5 min post-injection of the FDG (3.5 MBq/kg), followed by a standard, 5-min non-gated (STD) thoracic PET. PET(0) was performed before the first RT fraction. During RT, PET(1-5) were performed every 7 fractions, i.e., at 14 Gy total dose increment. FDG uptake was measured as the variation of SUV(max,PETn) versus SUV(max,PET0). Each lesions' volume was measured by (i) visual delineation by an experienced nuclear physician, (ii) 40% SUV(max) fixed threshold and (iii) a semi-automatic adaptive threshold method.
A total of 53 FDG-PET scans were acquired. Seventeen lesions (6 tumours and 11 nodes) were visible on PET(0) in the 10 patients. The lesions were located either in or near the mediastinum or in the apex, without significant respiratory displacements at visual inspection of the gated images. Healthy lung did not cause motion artefacts in the PET images. As measured on 89 lesions, both the absolute and relative SUV(max) values decreased as the RT dose increased. A 50% SUV(max) decrease was obtained around a total dose of 45 Gy. Out of the 89 lesions, 75 remained visually identifiable during the entire course of treatment. The 40% fixed threshold and adaptive threshold methods failed to delineate otherwise visible lesions in 16/33 (48%) and 3/33 (9%) lesions, respectively. The failure rate increased with increasing RT doses. Restricting the analysis to the manually-defined volumes in 89 visible lesions, the relative volumes decreased with increased dose.
FDG-PET images can be analysed during thoracic RT, given either alone or with chemotherapy, without disturbing radiation-induced artefacts. An average 50% decrease in SUV(max) was observed around 40-45 Gy (i.e., during week 5 of RT). The three delineation methods yielded consistent volume measurements before RT and during the first week of RT, while manual delineation appeared to be more reliable later on during RT.
(i)证实诊断 FDG-PET 图像可在胸部放疗期间获得,(ii)验证 FDG 摄取或体积的显著变化可在足够早的时间测量,以便调整放疗计划,以及(iii)确定放疗过程中的最佳时间窗口,以获取单次 FDG-PET 检查,该检查将代表肿瘤反应。
10 名非小细胞肺癌(NSCLC)患者具有显著的 PET/CT-FDG 肿瘤放射性摄取(相对于背景水平),是接受根治性放疗(RT,n=4;60-70Gy,2Gy/次,每周 5 次)或 RT 加化疗(CT-RT,n=6)的候选者,前瞻性评估了这些患者。使用西门子 Biograph,对每位患者进行了 5 或 6 次 PET/CT 扫描(PET(n),n=0-5)。每次采集包括胸部 15 分钟的 FDG 放射性配体(3.5MBq/kg)注射后 60±5 分钟的呼吸门控(RG)PET,随后进行标准的 5 分钟非门控(STD)胸部 PET。PET(0)在第一次 RT 剂量前进行。在 RT 期间,每隔 7 次 RT 剂量进行 PET(1-5),即每次 RT 剂量递增 14Gy。FDG 摄取通过 SUV(max,PETn)与 SUV(max,PET0)的变化来测量。每个病变的体积通过(i)有经验的核医学医师进行的视觉描绘,(ii)40%SUV(max)固定阈值和(iii)半自动自适应阈值方法来测量。
共采集了 53 次 FDG-PET 扫描。10 名患者中的 17 个病变(6 个肿瘤和 11 个淋巴结)在 PET(0)上可见。这些病变位于纵隔内或附近,或位于肺尖,在门控图像的视觉检查中没有明显的呼吸位移。健康的肺在 PET 图像中不会导致运动伪影。对 89 个病变进行测量,SUV(max)的绝对值和相对值随着 RT 剂量的增加而降低。在总剂量约为 45Gy 时,SUV(max)下降了 50%。在整个治疗过程中,89 个病变中有 75 个仍可在视觉上识别。在 33 个病变中(48%),40%的固定阈值和自适应阈值方法分别无法描绘否则可见的病变,在 3 个病变中(9%)无法描绘否则可见的病变。随着 RT 剂量的增加,失败率增加。在 89 个可见病变中,限制使用手动定义的体积进行分析,相对体积随着剂量的增加而减小。
在单独接受或联合化疗的胸部放疗期间,可以分析 FDG-PET 图像,而不会干扰放射诱导的伪影。在 40-45Gy(即 RT 第 5 周)左右观察到 SUV(max)平均下降 50%。三种描绘方法在 RT 前和 RT 第一周均能获得一致的体积测量值,而手动描绘方法在 RT 后期似乎更可靠。
