个体化 Lu-octreotate 肽受体放射性核素治疗神经内分泌肿瘤:一项模拟研究。
Personalized Lu-octreotate peptide receptor radionuclide therapy of neuroendocrine tumours: a simulation study.
机构信息
Department of Radiology and Nuclear Medicine, and Cancer Research Center, Université Laval, Quebec City, Canada.
Department of Medical Imaging, and Oncology Branch of Research Center, CHU de Québec - Université Laval, 11 côte du Palais, Quebec City (QC), G1R 2J6, Canada.
出版信息
Eur J Nucl Med Mol Imaging. 2017 Aug;44(9):1490-1500. doi: 10.1007/s00259-017-3688-2. Epub 2017 Mar 31.
PURPOSE
Peptide receptor radionuclide therapy (PRRT) with Lu-octreotate is commonly administered at empiric, fixed amounts of injected radioactivity (IA). This results in highly variable absorbed doses to critical organs and suboptimal treatment of most patients. The primary aims of this study were to design a personalized PRRT (P-PRRT) protocol based on dosimetry, and to perform a simulation of this protocol in a retrospective cohort of patients with neuroendocrine tumours, in order to assess the potential of P-PRRT to safely increase the absorbed dose to the tumour during a four-cycle induction course.
METHODS
Thirty-six patients underwent 122 fixed-IA Lu-octreotate PRRT cycles with quantitative SPECT/CT-based dosimetry. Twenty-two patients completed a four-cycle induction course (29.6 ± 2.4 GBq cumulative IA), with kidney, bone marrow and maximum tumour absorbed doses of 16.2 ± 5.5, 1.3 ± 0.8, and 114 ± 66 Gy, respectively. We simulated a P-PRRT regime in which the renal absorbed dose per IA was predicted by the body surface area and glomerular filtration rate for the first cycle, and by renal dosimetry of the previous cycle(s) for the following cycles. Personalized IA was adjusted at each cycle in order to reach the prescribed renal absorbed dose of 23 Gy over four cycles (with a 25-50% reduction when renal or bone marrow function was impaired). Simulated IA and absorbed doses were based on actual patient characteristics, laboratory values and absorbed doses per IA delivered at each cycle.
RESULTS
In the P-PRRT regime, cumulative IA could have been increased to 43.7 ± 16.5 GBq over four induction cycles (10.9 ± 5.0 GBq per cycle), yielding cumulative kidney, bone marrow and maximum tumour absorbed doses of 21.5 ± 2.5, 1.63 ± 0.61, and 163.4 ± 85.9 Gy, respectively. This resulted in an average 1.48-fold increase in cumulative maximum tumour absorbed dose over empiric PRRT (range, 0.68-2.64-fold; P = 0.0013).
CONCLUSION
By standardizing the renal absorbed dose delivered during the induction course, P-PRRT has the potential to significantly increase tumour absorbed dose, thus to augment the therapeutic benefit while limiting toxicity.
目的
肽受体放射性核素治疗(PRRT)用 Lu-奥曲肽通常以经验性的、固定的放射性活度(IA)给予。这导致关键器官的吸收剂量变化很大,大多数患者的治疗效果不理想。本研究的主要目的是设计一种基于剂量学的个体化 PRRT(P-PRRT)方案,并在神经内分泌肿瘤患者的回顾性队列中模拟该方案,以评估在四个诱导周期中安全增加肿瘤吸收剂量的潜力。
方法
36 名患者接受了 122 次固定 IA Lu-奥曲肽 PRRT 循环,进行了定量 SPECT/CT 剂量学检查。22 名患者完成了四个诱导周期(累积 IA 为 29.6 ± 2.4GBq),肾脏、骨髓和最大肿瘤吸收剂量分别为 16.2 ± 5.5、1.3 ± 0.8 和 114 ± 66Gy。我们模拟了一种 P-PRRT 方案,其中第一个周期的 IA 每单位的肾吸收剂量由体表面积和肾小球滤过率预测,后续周期的肾吸收剂量由前几个周期的肾剂量预测。在每个周期中,根据个人化 IA 调整以达到四个周期内规定的 23Gy 肾吸收剂量(当肾功能受损时减少 25-50%)。模拟的 IA 和吸收剂量基于每个周期实际患者的特征、实验室值和 IA 每单位的吸收剂量。
结果
在 P-PRRT 方案中,四个诱导周期内累积 IA 可增加至 43.7 ± 16.5GBq(每个周期 10.9 ± 5.0GBq),累积肾、骨髓和最大肿瘤吸收剂量分别为 21.5 ± 2.5、1.63 ± 0.61 和 163.4 ± 85.9Gy。这导致累积最大肿瘤吸收剂量相对于经验性 PRRT 平均增加 1.48 倍(范围为 0.68-2.64 倍;P=0.0013)。
结论
通过标准化诱导过程中给予的肾吸收剂量,P-PRRT 有可能显著增加肿瘤吸收剂量,从而提高治疗效果,同时限制毒性。
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