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Image-guided interventions: technology review and clinical applications.影像引导介入技术:技术评价与临床应用
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Electromagnetic tracking for thermal ablation and biopsy guidance: clinical evaluation of spatial accuracy.用于热消融和活检引导的电磁跟踪:空间准确性的临床评估
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A continuous 4D motion model from multiple respiratory cycles for use in lung radiotherapy.一种用于肺部放射治疗的来自多个呼吸周期的连续4D运动模型。
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MRI-based measurements of respiratory motion variability and assessment of imaging strategies for radiotherapy planning.基于磁共振成像(MRI)的呼吸运动变异性测量及放射治疗计划成像策略评估。
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Precision targeting of liver lesions using a novel electromagnetic navigation device in physiologic phantom and swine.在生理模型和猪中使用新型电磁导航设备对肝脏病变进行精准靶向。
Med Phys. 2005 Aug;32(8):2698-705. doi: 10.1118/1.1992267.
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CT imaging findings of pulmonary neoplasms after treatment with radiofrequency ablation: results in 32 tumors.经射频消融治疗后肺部肿瘤的CT影像表现:32例肿瘤的结果
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导航设备辅助下经术前容积规划行射频消融治疗猪肺部肿瘤。

Radiofrequency ablation of lung tumors in swine assisted by a navigation device with preprocedural volumetric planning.

机构信息

Imaging Science and Information Systems (ISIS) Center, Georgetown University Hospital, CG 201, 3800 Reservior Rd NW, Washington, DC 20007, USA.

出版信息

J Vasc Interv Radiol. 2010 Jan;21(1):122-9. doi: 10.1016/j.jvir.2009.09.012. Epub 2009 Nov 25.

DOI:10.1016/j.jvir.2009.09.012
PMID:19939704
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2818540/
Abstract

PURPOSE

To develop an image guidance system that incorporates volumetric planning of spherical ablations and electromagnetic tracking of radiofrequency (RF) electrodes during insertion.

MATERIALS AND METHODS

Simulated tumors were created in three live swine by percutaneously injecting agar nodules into the lung. A treatment plan was devised for each tumor with optimization software to solve the planning problem. The desired output was the minimum number of overlapping ablation spheres necessary to ablate each tumor and the margin. The insertion plan was executed with use of the electromagnetic tracking system that guided the insertion of the probe into precomputed locations. After a 72-hour survival period, animals were killed and histopathologic sections of the tissue were examined for cell viability and burn pattern analysis.

RESULTS

A planning algorithm to spherically cover the tumors and the margin was computed. Electromagnetic tracking allowed successful insertion of the instrument, and impedance roll-off was reached in all ablations. Depending on their size, the tumors and the tumor margins were successfully covered with two to four ablation spheres. The image registration error was 1.0 mm +/- 0.64. The overall error of probe insertion was 9.4 mm +/- 3.0 (N = 8). Analysis of histopathologic sections confirmed successful ablations of the tissue.

CONCLUSIONS

Computer-assisted RF ablation planning and electromagnetically tracked probe insertion were successful in three swine, validating the feasibility of electromagnetic tracking-assisted tumor targeting. Image misregistration caused by respiratory motion and tissue deformation contributed to the overall error of probe insertion.

摘要

目的

开发一种图像引导系统,该系统将球形消融的容积规划与插入过程中射频 (RF) 电极的电磁跟踪相结合。

材料与方法

通过经皮将琼脂结节注入肺中来在三只活猪中创建模拟肿瘤。使用优化软件为每个肿瘤设计治疗计划,以解决规划问题。期望的输出是消融每个肿瘤和边缘所需的最小重叠消融球数量。使用电磁跟踪系统执行插入计划,该系统引导探针插入预先计算的位置。在 72 小时的存活期后,杀死动物并检查组织的组织病理学切片以进行细胞活力和烧伤模式分析。

结果

计算了用于球形覆盖肿瘤和边缘的规划算法。电磁跟踪允许仪器成功插入,并且在所有消融中都达到了阻抗下降。根据其大小,成功地用两个到四个消融球覆盖了肿瘤和肿瘤边缘。图像配准误差为 1.0 毫米 +/- 0.64。探针插入的总误差为 9.4 毫米 +/- 3.0(N = 8)。组织病理学切片分析证实了组织的成功消融。

结论

计算机辅助 RF 消融规划和电磁跟踪探针插入在三只猪中取得了成功,验证了电磁跟踪辅助肿瘤靶向的可行性。由呼吸运动和组织变形引起的图像配准错误导致了探针插入的总误差。