Monitoring microwave ablation for liver tumors with electrode displacement strain imaging

2014 IEEE International Ultrasonics Symposium Pub Date : 2014-10-23 DOI:10.1109/ULTSYM.2014.0277

W. Yang, M. Alexander, N. Rubert, A. Ingle, M. Lubner, T. Ziemlewicz, J. Hinshaw, F. Lee, J. Zagzebski, T. Varghese

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引用次数: 12

Abstract

Minimally invasive ablative therapies have become important alternatives to surgical treatment of both hepatocellular carcinoma (HCC) and liver metastases. Image based guidance and monitoring are therefore essential. Although ultrasound (US) imaging suffers from inadequate echogenic contrast between ablated and normal tissue, US based elasticity imaging has shown remarkable ability to depict ablated regions and delineate margins. The purpose of this study is to apply “electrode displacement elastography,” or EDE for monitoring clinical microwave ablation (MWA) treatments for HCC and liver metastases. EDE images were acquired from 10 patients who underwent MWA for their liver tumors. The MWA system used was a Neuwave Medical Certus 140 (Madison, WI, USA) operating at 2.45 GHz. The MWA power and duration was adjusted for each patient, with typical values of 65 watts and 5 minutes. A Siemens S2000 scanner equipped with a curvilinear array transducer (VFX 6C1) pulsed at 4 MHz was used to acquire radiofrequency echo data. Electrode displacement was applied manually by the physician. A multi-seed two-dimensional tracking algorithm, with kernel dimensions of 0.096 mm × 3 A-lines was used to estimate local displacements between consecutive data frames. Strain images were computed as the gradient of the local displacement estimates. The average contrast of the ablated region was 0.23±0.07 (0.14-0.35) on B-mode images and 0.73±0.08 (0.56-0.82) on EDE. The average contrast improvement with EDE over B mode was about 230%. The average tumor size was 2.2±0.8 (0.7-3.5) cm on pre-treatment diagnostic images (CT or MRI). The average size of the ablated region was 3.8±0.7 (2.6-4.9) cm on EDE, with an average ablation margin of 1.6 cm which is within the clinically suggested ablated margin (>0.5 cm).

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电极位移应变成像监测肝脏肿瘤微波消融

微创消融治疗已成为肝细胞癌(HCC)和肝转移瘤手术治疗的重要选择。因此，基于图像的指导和监测是必不可少的。尽管超声(US)成像在消融组织和正常组织之间的回声对比不足，但基于US的弹性成像显示出描绘消融区域和描绘边缘的卓越能力。本研究的目的是应用“电极位移弹性成像”(EDE)来监测HCC和肝转移的临床微波消融(MWA)治疗。我们获得了10例肝脏肿瘤行MWA的患者的EDE图像。使用的MWA系统是工作在2.45 GHz的Neuwave Medical Certus 140 (Madison, WI, USA)。对每位患者的MWA功率和持续时间进行调整，典型值为65瓦和5分钟。采用西门子S2000扫描仪，配备脉冲频率为4 MHz的曲线阵列换能器(VFX 6C1)，采集射频回波数据。电极移位由医生手动应用。采用核维为0.096 mm × 3 A线的多种子二维跟踪算法估计连续数据帧之间的局部位移。应变图像作为局部位移估计的梯度计算。消融区b片平均对比度为0.23±0.07 (0.14 ~ 0.35)，EDE片平均对比度为0.73±0.08(0.56 ~ 0.82)。EDE在B模式下的平均对比度提高约为230%。术前诊断影像(CT或MRI)平均肿瘤大小为2.2±0.8 (0.7-3.5)cm。在EDE上消融区平均大小为3.8±0.7 (2.6-4.9)cm，平均消融边缘为1.6 cm，在临床建议的消融边缘(>0.5 cm)范围内。

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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2014 IEEE International Ultrasonics Symposium

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