Development and validation of an innovative administration system to facilitate controlled holmium-166 microsphere administration during TARE.

IF 3 2区 医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Meike W M van Wijk, Gerhard van Wolfswinkel, Mark J Arntz, Marcel J R Janssen, Joey Roosen, J Frank W Nijsen
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引用次数: 0

Abstract

Background: To develop and validate a novel administration device for holmium-166 transarterial radioembolisation (TARE) with the purpose of facilitating controlled fractional microsphere administration for a more flexible and image-guided TARE procedure.

Methods: A Controlled Administration Device (CAD) was developed using MR-conditional materials. The CAD contains a rotating syringe to keep the microspheres in suspension during administration. Different rotational speeds were tested ex vivo to optimise the homogeneity of microsphere fractions administered from the device. The technical performance, accuracy, and safety was validated in three patients in a clinical TARE setting by administering a standard clinical dose in 5 fractions (identifier: NCT05183776). MRI-based dosimetry was used to validate the homogeneity of the given fractions in vivo, and serious adverse device event ((S)A(D)E) reporting was performed to assess safety of the CAD.

Results: A rotational speed of 30 rpm resulted in the most homogeneous microsphere fractions with a relative mean deviation of 1.1% (range: -9.1-8.0%). The first and last fraction showed the largest deviation with a mean of -26% (std. 16%) and 7% (std. 13%). respectively. In the three patient cases the homogeneity of the microsphere fractions was confirmed given that MRI-based dosimetry showed near linear increase of mean absorbed target liver dose over the given fractions with R2 values of 0.98, 0.97 and 0.99. No (S)A(D)E's could be contributed to the use of the CAD.

Conclusions: The newly developed CAD facilitates safe and accurate fractional microsphere administration during TARE, and can be used for multiple applications in the current and future workflows of TARE.

开发并验证一种创新的给药系统,以便在 TARE 期间控制钬-166 微球的给药。
背景:开发并验证用于钬-166 经动脉放射栓塞术(TARE)的新型给药装置,目的是促进可控微球给药,使 TARE 手术更加灵活,并在图像引导下进行:方法:使用磁共振条件材料开发了一种可控给药装置(CAD)。CAD包含一个旋转注射器,可在给药过程中保持微球悬浮。在体内测试了不同的旋转速度,以优化从该装置给药的微球的均匀性。在临床 TARE 环境中,通过分 5 次给药标准临床剂量,对三名患者的技术性能、准确性和安全性进行了验证(标识符:NCT05183776)。采用基于核磁共振成像的剂量测定验证了体内给定分量的均匀性,并进行了严重不良装置事件((S)A(D)E)报告,以评估 CAD 的安全性:结果:旋转速度为 30 rpm 时,微球馏分最均匀,相对平均偏差为 1.1%(范围:-9.1-8.0%)。第一个和最后一个馏分的偏差最大,平均值分别为-26%(标准偏差16%)和7%(标准偏差13%)。在这三个病人的病例中,微球馏分的均匀性得到了证实,因为基于核磁共振成像的剂量测定显示,肝脏平均吸收靶剂量在给定馏分上接近线性增长,R2 值分别为 0.98、0.97 和 0.99。结论:新开发的计算机辅助放射成像系统有助于安全、有效地进行放射治疗:新开发的计算机辅助诊断系统有助于在 TARE 过程中安全、准确地进行微球分次给药,可在当前和未来的 TARE 工作流程中进行多种应用。
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
EJNMMI Physics
EJNMMI Physics Physics and Astronomy-Radiation
CiteScore
6.70
自引率
10.00%
发文量
78
审稿时长
13 weeks
期刊介绍: EJNMMI Physics is an international platform for scientists, users and adopters of nuclear medicine with a particular interest in physics matters. As a companion journal to the European Journal of Nuclear Medicine and Molecular Imaging, this journal has a multi-disciplinary approach and welcomes original materials and studies with a focus on applied physics and mathematics as well as imaging systems engineering and prototyping in nuclear medicine. This includes physics-driven approaches or algorithms supported by physics that foster early clinical adoption of nuclear medicine imaging and therapy.
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