利用 3D 徒手磁粒子成像技术提升术中磁性示踪。

Advancing intraoperative magnetic tracing using 3D freehand magnetic particle imaging.

机构信息

Interventional Molecular Imaging Laboratory, Department of Radiology, Leiden University Medical Center, Leiden, The Netherlands.

Magnetic Detection & Imaging Group, Technical Medical Centre, University of Twente, Enschede, The Netherlands.

出版信息

Int J Comput Assist Radiol Surg. 2022 Jan;17(1):211-218. doi: 10.1007/s11548-021-02458-2. Epub 2021 Jul 31.

DOI:10.1007/s11548-021-02458-2

PMID:34333740

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8738628/

Abstract

PURPOSE

Sentinel lymph node biopsy is a routine procedure for nodal staging in penile cancer. Most commonly, this procedure is guided by radioactive tracers, providing various forms of preoperative and intraoperative guidance. This is further extended with fluorescence imaging using hybrid radioactive-fluorescence tracers. Alternatively, a magnetic-based approach has become available using superparamagnetic iron-oxide nanoparticles (SPIONs). This study investigates a novel freehand magnetic particle imaging and navigation modality (fhMPI) for intraoperative localization, along with a hybrid approach, combining magnetic and fluorescence guidance.

MATERIALS AND METHODS

The fhMPI set-up was built with a surgical navigation device, optical tracking system and magnetometer probe. A dedicated reconstruction software based on a look-up-table method was used to reconstruct a superficial 3D volume of the SPION distribution in tissue. For fluorescence guidance, indocyanine green (ICG) was added to the SPIONs. The fhMPI modality was characterized in phantoms, ex vivo human skin and in vivo porcine surgery.

RESULTS

Phantom and human skin explants illustrated that the current fhMPI modality had a sensitivity of 2.2 × 10 mg/mL SPIONs, a resolving power of at least 7 mm and a depth penetration up to 1.5 cm. Evaluation during porcine surgery showed that fhMPI allowed for an augmented reality image overlay of the tracer distribution in tissue, as well as 3D virtual navigation. Besides, using the hybrid approach, fluorescence imaging provided a visual confirmation of localized nodes.

CONCLUSION

fhMPI is feasible in vivo, providing 3D imaging and navigation for magnetic nanoparticles in the operating room, expanding the guidance possibilities during magnetic sentinel lymph node procedures. Furthermore, the integration of ICG provides the ability to visually refine and confirm correct localization. Further clinical evaluation should verify these findings in human patients as well.

摘要

目的

前哨淋巴结活检是阴茎癌淋巴结分期的常规程序。最常见的是，该程序由放射性示踪剂引导，提供各种形式的术前和术中引导。这进一步通过使用放射性-荧光混合示踪剂的荧光成像得到扩展。或者，已经可以使用超顺磁氧化铁纳米颗粒（SPION）使用基于磁的方法。本研究调查了一种新的徒手磁共振粒子成像和导航方式（fhMPI）用于术中定位，以及一种结合磁性和荧光引导的混合方法。

材料和方法

fhMPI 设置使用手术导航设备、光学跟踪系统和磁力计探头构建。使用基于查找表方法的专用重建软件来重建组织中 SPION 分布的浅层 3D 体积。对于荧光引导，将吲哚菁绿（ICG）添加到 SPION 中。fhMPI 方式在体模、离体人皮和体内猪手术中进行了表征。

结果

体模和人体皮肤标本表明，当前的 fhMPI 方式具有 2.2×10mg/mL SPION 的灵敏度、至少 7mm 的分辨率和高达 1.5cm 的深度穿透能力。在猪手术中的评估表明，fhMPI 允许在组织中的示踪剂分布上进行增强现实图像叠加以及 3D 虚拟导航。此外，使用混合方法，荧光成像提供了对定位节点的可视化确认。

结论

fhMPI 在体内是可行的，在手术室中为磁性纳米粒子提供 3D 成像和导航，扩展了磁性前哨淋巴结手术期间的引导可能性。此外，ICG 的集成提供了视觉修正和确认正确定位的能力。进一步的临床评估应在人类患者中验证这些发现。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1c92/8738628/2d2c900faada/11548_2021_2458_Fig1_HTML.jpg

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利用 3D 徒手磁粒子成像技术提升术中磁性示踪。

Advancing intraoperative magnetic tracing using 3D freehand magnetic particle imaging.

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出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料和方法

结果

结论

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