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Pharmacokinetic characterization in xenografted mice of a series of first-generation mimics for HLA-DR antibody, Lym-1, as carrier molecules to image and treat lymphoma.一系列作为载体分子用于成像和治疗淋巴瘤的第一代HLA-DR抗体模拟物Lym-1在异种移植小鼠中的药代动力学特征。
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Novel radiolabeled antibody conjugates.新型放射性标记抗体偶联物。
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Radioiodinated versus radiometal-labeled anti-carcinoembryonic antigen single-chain Fv-Fc antibody fragments: optimal pharmacokinetics for therapy.放射性碘化与放射性金属标记的抗癌胚抗原单链Fv-Fc抗体片段:治疗的最佳药代动力学
Cancer Res. 2007 Jan 15;67(2):718-26. doi: 10.1158/0008-5472.CAN-06-0454.
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Successful radiotherapy of tumor in pretargeted mice by 188Re-radiolabeled phosphorodiamidate morpholino oligomer, a synthetic DNA analogue.通过188Re标记的磷二酰胺吗啉代寡聚物(一种合成DNA类似物)对预靶向小鼠体内的肿瘤进行成功放疗。
Clin Cancer Res. 2006 Aug 15;12(16):4958-64. doi: 10.1158/1078-0432.CCR-06-0844.
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Tumor targeting by an aptamer.适配体对肿瘤的靶向作用。
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90Y microsphere (TheraSphere) treatment for unresectable colorectal cancer metastases of the liver: response to treatment at targeted doses of 135-150 Gy as measured by [18F]fluorodeoxyglucose positron emission tomography and computed tomographic imaging.90Y微球(TheraSphere)治疗不可切除的结直肠癌肝转移:通过[18F]氟脱氧葡萄糖正电子发射断层扫描和计算机断层成像测量在135 - 150 Gy靶向剂量下的治疗反应。
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靶向放射性核素治疗

Targeted radionuclide therapy.

作者信息

Williams Lawrence E, DeNardo Gerald L, Meredith Ruby F

机构信息

Radiology Division, City of Hope National Medical Center, Duarte, California 91010, USA.

出版信息

Med Phys. 2008 Jul;35(7):3062-8. doi: 10.1118/1.2938520.

DOI:10.1118/1.2938520
PMID:18697529
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2673558/
Abstract

Targeted radionuclide therapy (TRT) seeks molecular and functional targets within patient tumor sites. A number of agents have been constructed and labeled with beta, alpha, and Auger emitters. Radionuclide carriers spanning a broad range of sizes; e.g., antibodies, liposomes, and constructs such as nanoparticles have been used in these studies. Uptake, in percent-injected dose per gram of malignant tissue, is used to evaluate the specificity of the targeting vehicle. Lymphoma (B-cell) has been the primary clinical application. Extension to solid tumors will require raising the macroscopic absorbed dose by several-fold over values found in present technology. Methods that may effect such changes include multistep targeting, simultaneous chemotherapy, and external sequestration of the agent. Toxicity has primarily involved red marrow so that marrow replacement can also be used to enhance future TRT treatments. Correlation of toxicities and treatment efficiency has been limited by relatively poor absorbed dose estimates partly because of using standard (phantom) organ sizes. These associations will be improved in the future by obtaining patient-specific organ size and activity data with hybrid SPECT/CT and PET/CT scanners.

摘要

靶向放射性核素治疗(TRT)旨在寻找患者肿瘤部位内的分子和功能靶点。已经构建了多种试剂并用β、α和俄歇发射体进行标记。在这些研究中使用了各种大小的放射性核素载体,例如抗体、脂质体以及纳米颗粒等构建体。摄取量以每克恶性组织注射剂量的百分比来衡量,用于评估靶向载体的特异性。淋巴瘤(B细胞)一直是主要的临床应用。将其扩展到实体瘤将需要将宏观吸收剂量提高到比现有技术中发现的值高出几倍。可能实现这种变化的方法包括多步靶向、同步化疗以及试剂的外部螯合。毒性主要涉及红骨髓,因此骨髓置换也可用于增强未来的TRT治疗。毒性与治疗效率之间的相关性一直受到相对较差的吸收剂量估计的限制,部分原因是使用标准(体模)器官大小。通过使用混合SPECT/CT和PET/CT扫描仪获取患者特异性器官大小和活性数据,未来这些关联将得到改善。