Feasibility of real-time monitoring for administered activity during Lu-177 infusion by imaging the administration site using a pinhole gamma camera: a Monte Carlo study.

IF 1.3 4区医学 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

Nuclear Medicine Communications Pub Date : 2025-09-23 DOI:10.1097/MNM.0000000000002054

Kohei Nakanishi, Seiichi Yamamoto, Naotoshi Fujita, Kenta Miwa, Ryuichi Nishii

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引用次数: 0

Abstract

Objectives: Using personalized treatment with Lu-177-labeled radiopharmaceuticals, rather than using a fixed activity of 7.4 GBq, the administered radioactivity is adjusted in each patient. Achieving precise control of the administered activity would be possible during Lu-177 infusion if real-time monitoring techniques were possible. However, these techniques are not currently available. In this study, we used Monte Carlo simulations to simulate imaging of the administration site in an arm phantom with a pinhole gamma camera to explore the feasibility of achieving real-time monitoring and control of the administered activity during infusion.

Methods: We used the Geant4 toolkit to simulate a compact gamma camera. We simulated the basic performance of the camera within an energy window of 208 keV ± 10% and the imaging of an arm phantom to evaluate the feasibility of visualizing and quantifying the inflow of Lu-177-labeled radiopharmaceutical activity.

Results: The spatial resolution with the 1.0-mm pinhole collimator for Lu-177 was 1.8 mm full width at half maximum (FWHM) at 50 mm, whereas it was 1.2 mm FWHM for the 0.5-mm pinhole collimator. Our gamma camera captured the activity of Lu-177 in a 3.0-mm diameter vessel within the arm phantom, achieving measurements in only 1 min. The maximum values among the mean estimation errors of the administered activity were 0.73% and -3.53% for the 1.0 and 0.5-mm pinhole collimators, respectively, both occurring within the initial 1 min.

Conclusion: Monte Carlo simulations demonstrated the feasibility of real-time monitoring of administered activity during Lu-177 infusion by imaging the administration site with our pinhole gamma camera.

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通过针孔伽玛相机成像给药部位，实时监测Lu-177输注过程中给药活动的可行性：蒙特卡洛研究。

目的：使用lu177标记的放射性药物进行个性化治疗，而不是使用7.4 GBq的固定活度，在每个患者中调整给药的放射性。如果实时监测技术成为可能，则可以在Lu-177输注期间实现对给药活性的精确控制。然而，这些技术目前还不可用。在这项研究中，我们使用蒙特卡罗模拟，用针孔伽马相机模拟手臂幻影中给药部位的成像，以探索实现输液过程中给药活动实时监测和控制的可行性。方法：我们使用Geant4工具包模拟一个紧凑型伽马相机。我们模拟了相机在208 keV±10%的能量窗口内的基本性能和手臂幻像的成像，以评估可视化和量化lu -177标记放射性药物活性流入的可行性。结果：lu177的1.0 mm针孔准直器在50 mm处的空间分辨率为1.8 mm，而0.5 mm针孔准直器的空间分辨率为1.2 mm。我们的伽马相机在臂模体内直径3.0 mm的容器中捕获了Lu-177的活动，仅在1分钟内完成测量。1.0 mm针孔准直器和0.5 mm针孔准直器的平均估计误差最大值分别为0.73%和-3.53%，均发生在初始1 min内。结论：蒙特卡罗模拟表明，通过针孔伽玛相机对注射部位进行成像，可以实时监测Lu-177注射过程中的给药活动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nuclear Medicine Communications 医学-核医学

CiteScore

2.20

自引率

6.70%

发文量

212

审稿时长

3-8 weeks

期刊介绍： Nuclear Medicine Communications, the official journal of the British Nuclear Medicine Society, is a rapid communications journal covering nuclear medicine and molecular imaging with radionuclides, and the basic supporting sciences. As well as clinical research and commentary, manuscripts describing research on preclinical and basic sciences (radiochemistry, radiopharmacy, radiobiology, radiopharmacology, medical physics, computing and engineering, and technical and nursing professions involved in delivering nuclear medicine services) are welcomed, as the journal is intended to be of interest internationally to all members of the many medical and non-medical disciplines involved in nuclear medicine. In addition to papers reporting original studies, frankly written editorials and topical reviews are a regular feature of the journal.