磁共振导航引导下用于靶向肝脏化疗栓塞的治疗性磁性微载体的磁共振成像

MR imaging of therapeutic magnetic microcarriers guided by magnetic resonance navigation for targeted liver chemoembolization.

作者信息

Pouponneau Pierre, Soulez Gilles, Beaudoin Gilles, Leroux Jean-Christophe, Martel Sylvain

机构信息

NanoRobotics Laboratory, Department of Computer and Software Engineering and Institute of Biomedical Engineering, Ecole Polytechnique de Montréal (EPM), C.P. 6079, Succursale Centre-ville, Montreal, QC, H3C 3A7, Canada,

出版信息

Cardiovasc Intervent Radiol. 2014 Jun;37(3):784-90. doi: 10.1007/s00270-013-0770-4. Epub 2013 Nov 7.

DOI:10.1007/s00270-013-0770-4

PMID:24196271

Abstract

PURPOSE

Magnetic resonance navigation (MRN), achieved with an upgraded MRI scanner, aims to guide new therapeutic magnetic microcarriers (TMMC) from their release in the hepatic vascular network to liver tumor. In this technical note, in vitro and in vivo MRI properties of TMMC, loaded with iron-cobalt nanoparticles and doxorubicin, are reported by following three objectives: (1) to evaluate the lengthening of echo-time (TE) on nano/microparticle imaging; (2) to characterize by MRI TMMC distribution in the liver; and (3) to confirm the feasibility of monitoring particle distribution in real time.

METHODS

Phantom studies were conducted to analyze nano/microparticle signals on T 2*-weighted gradient-echo (GRE) MR images according to sample weight and TE. Twelve animal experiments were used to determine in vivo MRI parameters. TMMC tracking was evaluated by magnetic resonance imaging (MRI) in four rabbits, which underwent MRN in the hepatic artery, three without steering, two in real-time, and three as blank controls. TMMC distribution in the right and left liver lobes, determined by ex vivo MR image analysis, was compared to the one obtained by cobalt level analysis.

RESULTS

TMMC induced a hypointense signal that overran the physical size of the sample on MR images. This signal, due to the nanoparticles embedded into the microparticles, increased significantly with echo-time and sample amount (p < 0.05). In vivo, without steering, contrast-to-noise ratio (CNR) values for the right and left lobes were similar. With MRN, the CNR in the targeted lobe was different from that in the untargeted lobe (p = 0.003). Ex vivo, TMMC distribution, based on MRI signal loss volume measurement, was correlated with that quantified by Co level analysis (r = 0.92). TMMC accumulation was tracked in real time with an 8-s GRE sequence.

CONCLUSIONS

MRI signal loss induced by TMMC can serve to track particle accumulation and to assess MRN efficiency.

摘要

目的

通过升级后的磁共振成像（MRI）扫描仪实现的磁共振导航（MRN），旨在引导新型治疗性磁性微载体（TMMC）从其在肝血管网络中的释放部位到达肝肿瘤。在本技术说明中，通过以下三个目标报告了负载铁钴纳米颗粒和阿霉素的TMMC的体外和体内MRI特性：（1）评估纳米/微粒成像中回波时间（TE）的延长；（2）通过MRI表征TMMC在肝脏中的分布；（3）确认实时监测颗粒分布的可行性。

方法

进行体模研究以根据样品重量和TE分析T2*加权梯度回波（GRE）MR图像上的纳米/微粒信号。十二项动物实验用于确定体内MRI参数。通过磁共振成像（MRI）评估了四只在肝动脉中接受MRN的兔子的TMMC追踪情况，其中三只无引导，两只实时引导，三只作为空白对照。通过离体MR图像分析确定的TMMC在左右肝叶中的分布与通过钴水平分析获得的分布进行了比较。

结果

TMMC在MR图像上诱导出一个低信号，其范围超过了样品的实际大小。由于嵌入微粒中的纳米颗粒，该信号随回波时间和样品量显著增加（p < 0.05）。在体内，无引导时，左右叶的对比噪声比（CNR）值相似。通过MRN，目标叶中的CNR与非目标叶中的CNR不同（p = 0.003）。离体时，基于MRI信号损失体积测量的TMMC分布与通过钴水平分析量化的分布相关（r = 0.92）。使用8秒GRE序列实时追踪TMMC的聚集情况。

结论

TMMC引起的MRI信号损失可用于追踪颗粒聚集并评估MRN效率。

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磁共振导航引导下用于靶向肝脏化疗栓塞的治疗性磁性微载体的磁共振成像

MR imaging of therapeutic magnetic microcarriers guided by magnetic resonance navigation for targeted liver chemoembolization.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

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方法

结果

结论

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