使用针对非骨髓靶向（90）Y抗体治疗的患者特异性成像剂量估计来改进对骨髓毒性的预测。

Improved prediction of myelotoxicity using a patient-specific imaging dose estimate for non-marrow-targeting (90)Y-antibody therapy.

作者信息

Shen Sui, Meredith Ruby F, Duan Jun, Macey Daniel J, Khazaeli M B, Robert Francisco, LoBuglio Albert F

机构信息

Department of Radiation Oncology, University of Alabama at Birmingham Comprehensive Cancer Center, Birmingham, Alabama 35249, USA.

出版信息

J Nucl Med. 2002 Sep;43(9):1245-53.

PMID:12215566

Abstract

UNLABELLED

For calculation of radiation dose to the marrow, standard dosimetry for radiopharmaceuticals that do not bind to the marrow includes dose contributions from radioactivity in blood and the remainder of the body. For a pure beta -emitter such as (90)Y, marrow dose is usually determined by the blood contribution. However, myelotoxicity from (90)Y-antibody therapy often correlates poorly with marrow dose estimated using the blood method. This study proposes a method to address 2 possible factors affecting marrow dose estimates. These include (a) recycled (90)Y in bone/marrow space after (90)Y-antibody has been processed in the liver and (b) use of the marrow mass of Reference Man for individual patients.

METHODS

Thirty-three patients with advanced non-small cell lung cancer were treated with (90)Y-anti-TAG-72 murine antibody (CC49). TAG-72 is often expressed in epithelial-derived tumors but not in normal marrow. (111)In-CC49 was used as a tracer. The marrow doses from blood were calculated on the basis of radioactivity concentrations in blood. Marrow dose in the lumbar vertebrae was estimated from images for (111)In-CC49 uptake in L2-L4. In 20 patients who had CT images, trabecular bone volumes of L2-L4 were measured from CT images to estimate patient-specific marrow mass in L2-L4. The fraction of baseline platelet counts at nadir was used as an indicator of myelotoxicity.

RESULTS

Marrow dose per unit injected radioactivity estimated from blood was lower than that from L2-L4 uptake values. Prediction of myelotoxicity using marrow dose estimated from blood was poorer than that using injected dose per body surface area (GBq/m(2)) (r = 0.31 vs. 0.51). Prediction was improved using marrow dose estimated from L2-L4 uptake, assuming the marrow mass of Reference Man (r = 0.67 for n = 33; r = 0.70 for n = 20). Prediction was worse if reference marrow mass was adjusted by body weight (r = 0.56 for n = 33; r = 0.63 for n = 20). Prediction was not improved if adjusted by body surface area or lean body mass but was improved if adjusted by height (r = 0.72 for n = 33; r = 0.78 for n = 20). The best prediction was obtained (r = 0.85 for n = 20) using patient-specific L2-L4 marrow mass estimated from CT.

CONCLUSION

Marrow dose estimated from the blood radioactivity method was not a good predictor of myelotoxicity for non-marrow-targeting (90)Y-antibody therapy. Thrombocytopenia in this group of patients correlated much better with dose estimated from lumbar vertebrae imaging and patient-specific marrow mass than with that estimated from GBq/m(2) or standard marrow dose based on blood.

摘要

未标注

为计算骨髓的辐射剂量，对于不与骨髓结合的放射性药物，其标准剂量测定包括血液和身体其他部位放射性的剂量贡献。对于纯β发射体，如（90）Y，骨髓剂量通常由血液贡献决定。然而，（90）Y抗体治疗引起的骨髓毒性与使用血液法估算的骨髓剂量之间的相关性往往较差。本研究提出一种方法来解决影响骨髓剂量估算的两个可能因素。这些因素包括：（a）（90）Y抗体在肝脏中被处理后，骨/骨髓空间中循环的（90）Y；（b）将参考人的骨髓质量用于个体患者。

方法

33例晚期非小细胞肺癌患者接受（90）Y抗TAG-72鼠抗体（CC49）治疗。TAG-72常在上皮来源的肿瘤中表达，而不在正常骨髓中表达。（111）In-CC49用作示踪剂。根据血液中的放射性浓度计算血液的骨髓剂量。根据L2-L4中（111）In-CC49摄取的图像估算腰椎的骨髓剂量。在20例有CT图像的患者中，从CT图像测量L2-L4的小梁骨体积，以估算L2-L4中患者特异性的骨髓质量。最低点时基线血小板计数的分数用作骨髓毒性的指标。

结果

根据血液估算的每单位注入放射性的骨髓剂量低于根据L2-L4摄取值估算的剂量。用血液估算的骨髓剂量预测骨髓毒性比用每体表面积注入剂量（GBq/m²）预测的效果差（r = 0.31对0.51）。假设参考人的骨髓质量，使用根据L2-L4摄取估算的骨髓剂量可改善预测效果（n = 33时r = 0.67；n = 20时r = 0.70）。如果根据体重调整参考骨髓质量，预测效果会变差（n = 33时r = 0.56；n = 20时r = 0.63）。如果根据体表面积或瘦体重调整，预测效果没有改善，但根据身高调整则会改善（n = 33时r = 0.72；n = 20时r = 0.78）。使用根据CT估算的患者特异性L2-L4骨髓质量可获得最佳预测效果（n = 20时r = 0.85）。