Microwave Ablation: Comparison of Simultaneous and Sequential Activation of Multiple Antennas in Liver Model Systems

Harari, Colin; Magagna, Michelle; Bedoya, Mariajose; Lee, Fred T.; Lubner, Meghan G.; Hinshaw, J. Louis; Ziemlewicz, Timothy J.; Brace, Christopher L.

doi:10.1148/radiol.2015142151

Cited by 73 publications

(74 citation statements)

References 29 publications

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“…Thus, our results are difficult to generalize to clinical trials that use singleantenna systems and deliver less energy to target tissues (28,29). There are methods to quantify thermal dose response in ex-vivo tissue to account for different energy delivery approaches, but data on the relationship with blood vessels are limited (30).…”

Section: Discussionmentioning

confidence: 99%

Effects of Microwave Ablation on Arterial and Venous Vasculature after Treatment of Hepatocellular Carcinoma

Chiang¹,

Cristescu²,

Lee³

et al. 2016

Radiology

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Purpose:To characterize vessel occlusion rates and their role in local tumor progression in patients with hepatocellular carcinoma (HCC) who underwent microwave tumor ablation. Materials and Methods:This Results:Occlusion was identified in 39.7% of portal veins (29 of 73), 15.0% of hepatic veins (six of 40), and 14.2% of hepatic arteries (10 of 70) encompassed within the ablation zone. Hepatic vein occlusion was significantly correlated with a smaller vessel size (P = .036) and vessel-antenna spacing (P = .006). Portal vein occlusion was only significantly correlated with a smaller vessel size (P = .001), particularly in vessels that were less than 3 mm in diameter. Local tumor progression rates were significantly correlated with patent hepatic arteries within the ablation zone (P = .02) but not with patent hepatic (P = .57) or portal (P = .14) veins. Conclusion:During microwave ablation of HCC, hepatic veins and arteries were resistant to vessel occlusion compared with portal veins, and only arterial patency within an ablation zone was related to local tumor progression.q RSNA, 2016

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Section: Discussionmentioning

confidence: 99%

Effects of Microwave Ablation on Arterial and Venous Vasculature after Treatment of Hepatocellular Carcinoma

Chiang¹,

Cristescu²,

Lee³

et al. 2016

Radiology

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“…High-powered microwave ablation systems can create ablation zones exceeding 4 cm with internal temperature exceeding 150 °C, especially systems with multiple-antenna capability (15,31,60). These high temperatures and large sizes can inadvertently damage non-target structures, especially in peripheral hepatic tumors that often lay adjacent to the bowel, abdominal wall or diaphragm.…”

Section: Current Techniques For Treating Liver Cancer Using Microwavementioning

confidence: 99%

“…Prior ablations create charring, bleeding, tissue contraction and gas bubbles, which can make visualization of the remaining tumor and margins difficult. Simultaneous antenna activation using multiple antennas has been demonstrated to create larger, rounder and more confluent ablation zones in a fraction of the time due to the higher heating rate compared to sequentially activated antennas (60). This effect was seen even when controlled for total energy delivery over the ablation period.…”

Section: Current Techniques For Treating Liver Cancer Using Microwavementioning

confidence: 99%

Microwave ablation in primary and secondary liver tumours: technical and clinical approaches

Meloni¹,

Chiang

Laeseke

et al. 2016

International Journal of Hyperthermia

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Thermal ablation is increasingly utilized in the treatment of primary and metastatic liver tumors, both as curative therapy and as a bridge to transplantation. Recent advances in high-powered microwave ablation systems have allowed physicians to realize the theoretical heating advantages of microwave energy compared to other ablation modalities. As a result, there is a growing body of literature detailing the effects of microwave energy on tissue heating, as well as its effect on clinical outcomes. This article will discuss the relevant physics, review current clinical outcomes and then describe the current techniques used to optimize patient care when using microwave ablation systems.

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“…MWA can be performed with multiple antennas simultaneously to cover larger treated volumes, with additional benefits such as an improved heating rate while avoiding the risk of skin burns caused by the grounding pad used in radiofrequency ablation (RFA) procedures (Liang and Wang 2007; Qian et al 2012; Lubner et al 2013; Wells et al 2015; Harari et al 2016; Ziemlewicz et al 2016). Promising treatment outcomes were reported for solitary tumors less than 2 cm in diameter (Lencioni and Crocetti 2012; Shiina et al 2012), while more recent studies demonstrate that MWA was successful in treating tumors larger than 3 cm (Ziemlewicz et al 2015; Thamtorawat et al 2016; Ziemlewicz et al 2016).…”

Section: Introductionmentioning

confidence: 99%

Delineation of Post-Procedure Ablation Regions with Electrode Displacement Elastography with a Comparison to Acoustic Radiation Force Impulse Imaging

Yang

Varghese

Ziemlewicz

et al. 2017

Ultrasound in Medicine & Biology

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We compared a quasi-static ultrasound elastography technique, referred to as electrode displacement elastography (EDE), with acoustic radiation force impulse imaging (ARFI) for monitoring microwave ablation (MWA) procedures on patients diagnosed with liver neoplasms. Forty-nine patients recruited to this study underwent EDE and ARFI using a Siemens Acuson S2000 system after an MWA procedure. Based on visualization results from two observers, the ablated region in ARFI images was recognizable on 20 patients on an average in conjunction with B-mode imaging, while delineable ablation boundaries could be generated on 4 patients on average. With EDE, the ablated region was delineable on 40 patients on average, with less imaging depth dependence. Study of tissue mimicking phantoms demonstrated that the ablation region dimensions measured on EDE and ARFI images were within 8%, while the image contrast and contrast to noise ratio with EDE was 2 – 3 times higher than that obtained with ARFI. This study showed that EDE provided improved monitoring results for minimally invasive MWA in clinical procedures for liver cancer and metastases.

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Microwave Ablation: Comparison of Simultaneous and Sequential Activation of Multiple Antennas in Liver Model Systems

Cited by 73 publications

References 29 publications

Effects of Microwave Ablation on Arterial and Venous Vasculature after Treatment of Hepatocellular Carcinoma

Effects of Microwave Ablation on Arterial and Venous Vasculature after Treatment of Hepatocellular Carcinoma

Microwave ablation in primary and secondary liver tumours: technical and clinical approaches

Delineation of Post-Procedure Ablation Regions with Electrode Displacement Elastography with a Comparison to Acoustic Radiation Force Impulse Imaging

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