Turner J H, Martindale A A, Sorby P, Hetherington E L, Fleay R F, Hoffman R F, Claringbold P G
Department of Nuclear Medicine, Fremantle Hospital, Western Australia.
Eur J Nucl Med. 1989;15(12):784-95. doi: 10.1007/BF00255498.
153Sm-EDTMP (ethylenediaminetetramethylene phosphonate), prepared from a kit, was administered to 28 patients in a clinical trial of therapy for painful skeletal metastases unresponsive to all conventional treatment. The 103 keV gamma emission of 153Sm was utilized for prospective individual estimation of beta radiation absorbed dose to red marrow to minimize myelotoxicity and provide optimum internal radiotherapy to skeletal metastases in each patient. Pain relief occurred within 14 days of administration of 153Sm-EDTMP in 15 of 19 patients (79%) who could be evaluated at 6 weeks, when clinical response was maximal. Duration of response ranged from 4 to 35 weeks. Recurrence of pain responded to retreatment with 153Sm-EDTMP in five of eight cases. No dose-response relationship was apparent for pain relief but reversible myelotoxicity was frequently observed at radiation absorbed doses to bone marrow greater than or equal to 270 cGy. Dosimetry calculation was based on pharmacokinetic studies of a tracer administration of 153Sm-EDTMP in each patient. Assumptions inherent in this prospective method of predicting dose to bone marrow were validated experimentally. Biodistribution studies in rats demonstrated rapid skeletal uptake and long term retention of 153Sm-EDTMP in bone over 5 days. Urinary clearance accounted for 40% of injected dose, and less than 1.0% of administered activity was retained in non osseous tissue. Microdensitometry of autoradiographs of sheep vertebra and femur confirmed surface uptake of 153Sm-EDTMP in cortical bone and demonstrated relatively high trabecular bone activity which is the major component of radiation absorbed dose to bone marrow. Haematological studies in rabbits showed 153Sm-EDTMP-induced myelotoxicity to be transient and no histopathological abnormalities were demonstrable with doses ten times greater than those administered to patients.
从试剂盒制备的153钐-乙二胺四亚甲基膦酸盐(153Sm-EDTMP),在一项针对所有传统治疗均无效的疼痛性骨转移瘤治疗的临床试验中,被给予了28例患者。利用153Sm的103千电子伏特γ发射,对每位患者红骨髓的β辐射吸收剂量进行前瞻性个体估计,以尽量减少骨髓毒性,并为骨骼转移瘤提供最佳的内照射放疗。在19例可在6周时进行评估的患者中,有15例(79%)在给予153Sm-EDTMP后14天内疼痛缓解,此时临床反应最大。反应持续时间为4至35周。8例复发性疼痛患者中有5例对再次给予153Sm-EDTMP治疗有反应。疼痛缓解方面未显示出剂量反应关系,但在骨髓辐射吸收剂量大于或等于270厘戈瑞时,经常观察到可逆性骨髓毒性。剂量测定计算基于对每位患者进行的153Sm-EDTMP示踪剂给药的药代动力学研究。这种预测骨髓剂量的前瞻性方法中固有的假设通过实验得到了验证。在大鼠身上进行的生物分布研究表明,153Sm-EDTMP在5天内迅速被骨骼摄取并长期保留在骨骼中。尿清除率占注射剂量的40%,且非骨组织中保留的给药活性小于1.0%。绵羊椎骨和股骨放射自显影片的显微密度测定证实了153Sm-EDTMP在皮质骨表面的摄取,并显示出相对较高的小梁骨活性,这是骨髓辐射吸收剂量的主要组成部分。对兔子的血液学研究表明,153Sm-EDTMP诱导的骨髓毒性是短暂的,并且在给予比患者剂量大10倍的情况下,未发现组织病理学异常。
