在弥漫性内生性桥脑胶质瘤患者中进行124I-奥武他滨的瘤内对流增强放射治疗:药代动力学和病灶剂量测定。

Neeta Pandit-Taskar, Pat B Zanzonico, Milan Grkovski, Maria Donzelli, Scott M Vietri, Christopher Horan, Brian Serencsits, Kavya Prasad, Serge Lyashchenko, Kim Kramer, Ira J Dunkel, Mark M Souweidane
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引用次数: 0

摘要

弥漫性桥脑胶质瘤(DIPG)是一种罕见的儿童恶性肿瘤,预后不良。除了体外放射治疗外,目前还没有其他有效的治疗方法。我们利用 124I-omburtamab 成像和治疗学作为一种治疗方法,采用局部对流增强递送(CED)技术给药放射性标记抗体,进行了一项首次人体试验研究。我们报告了124I-omburtamab瘤内给药的详细药代动力学和剂量测定结果。方法:45名DIPG患者通过CED接受了9.0-370.7 MBq的124I-omburtamab瘤内注射,在注射后3-5个时间点接受了连续的脑部和全身PET/CT成像,时间分别为输注结束后的4、24-48、72-96、120-144和168-240小时。连续采集血液样本进行动力学分析。使用 OLINDA 软件程序测量全身、血液、病灶和正常组织的活性,估算动力学参数(吸收和清除半衰期时间),并计算辐射吸收剂量。结果:所有患者的病灶内都显示出明显的活性,这种活性持续数天,直到成像的最后一个时间点都能检测到,病灶内124I的平均停留时间为24.9小时,剂量当量为353 ± 181 mSv/MBq。全身剂量较低,剂量当量为 0.69 ± 0.28 mSv/MBq。正常器官和血液中的全身分布和活性较低。血液中的辐射剂量非常低,平均值为 0.27 ± 0.21 mGy/MBq。全身清除率呈单指数分布,平均生物半衰期为 62.7 小时,有效半衰期为 37.9 小时;血液清除率呈双指数分布,快速 α 阶段的平均生物半衰期为 22.2 小时,慢速 β 阶段的平均生物半衰期为 155 小时。结论124I-omburtamab的瘤内CED是一种治疗DIPG的新型疗法。它能向 DIPG 病灶释放高剂量辐射,病灶活性高,全身活性低,肿瘤与正常组织比率高,安全系数大。对 124I-omburtamab 的实际治疗给药进行成像,可直接估算病灶和正常组织的治疗吸收剂量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Theranostic Intratumoral Convection-Enhanced Delivery of 124I-Omburtamab in Patients with Diffuse Intrinsic Pontine Glioma: Pharmacokinetics and Lesion Dosimetry.

Diffuse intrinsic pontine glioma (DIPG) is a rare childhood malignancy with poor prognosis. There are no effective treatment options other than external beam therapy. We conducted a pilot, first-in-human study using 124I-omburtamab imaging and theranostics as a therapeutic approach using a localized convection-enhanced delivery (CED) technique for administering radiolabeled antibody. We report the detailed pharmacokinetics and dosimetry results of intratumoral delivery of 124I-omburtamab. Methods: Forty-five DIPG patients who received 9.0-370.7 MBq of 124I-omburtamab intratumorally via CED underwent serial brain and whole-body PET/CT imaging at 3-5 time points after injection within 4, 24-48, 72-96, 120-144, and 168-240 h from the end of infusion. Serial blood samples were obtained for kinetic analysis. Whole-body, blood, lesion, and normal-tissue activities were measured, kinetic parameters (uptake and clearance half-life times) estimated, and radiation-absorbed doses calculated using the OLINDA software program. Results: All patients showed prominent activity within the lesion that was retained over several days and was detectable up to the last time point of imaging, with a mean 124I residence time in the lesion of 24.9 h and dose equivalent of 353 ± 181 mSv/MBq. Whole-body doses were low, with a dose equivalent of 0.69 ± 0.28 mSv/MBq. Systemic distribution and activities in normal organs and blood were low. Radiation dose to blood was very low, with a mean value of 0.27 ± 0.21 mGy/MBq. Whole-body clearance was monoexponential with a mean biologic half-life of 62.7 h and an effective half-life of 37.9 h. Blood clearance was biexponential, with a mean biologic half-life of 22.2 h for the rapid α phase and 155 h for the slower β phase. Conclusion: Intratumoral CED of 124I-omburtamab is a novel theranostics approach in DIPG. It allows for delivery of high radiation doses to the DIPG lesions, with high lesion activities and low systemic activities and high tumor-to-normal-tissue ratios and achieving a wide safety margin. Imaging of the actual therapeutic administration of 124I-omburtamab allows for direct estimation of the therapeutic lesion and normal-tissue-absorbed doses.

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