Microwave ablation on ex vivo porcine pancreas: The influence of ablation parameters on ablation results and fat liquefaction.

IF 1.7 4区 医学 Q3 ENGINEERING, BIOMEDICAL
Yubo Zhang, Hongjian Gao, Huijing He, Ju Liu, Fan Xu, Shuicai Wu, Jie Zhou, Zhigang Cheng
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Abstract

The pancreas is adjacent to critical organs; excessive microwave ablation (MWA) can result in serious complications. The purpose of this paper is to provide the reference data of pancreas MWA for clinicians, analyze the ablation outcomes under different ablation parameters, and determine the critical temperature of pancreatic surface fat liquefaction outflow. Combinations of two power levels (30 W and 55 W), three antenna diameters (1.3 mm, 1.6 mm, and 1.9 mm), and three ablation times (1 min, 1.5 min, and 2 min) were applied to an ex vivo pig pancreas. Temperature measurements were taken at four thermocouple points. The center point is located 5 mm horizontally from the antenna slot, with a temperature measurement point located 5 mm above, below, and to the right of the center point. Main effect analysis and variance analysis were used to quantify the influences of each factor on the ablation outcomes. At 30 W, the antenna diameter contributing the most at 48.5%. At 30 W-1.3 mm-1 min, the spherical index (1.41) is closest to 1. At 55 W, the coagulation zone size was almost only affected by the ablation time, with a contribution rate of 28.7%, the temperature at point C exceeds point B. On the surface of the ex vivo porcine pancreas, the fat outflow temperature was 54ã. Ablation combinations with low power, short duration, and small antenna diameter results in a more nearly spherical coagulation zone. When performing MWA on the pancreas, it is advisable to avoid areas with higher fat content, while keeping the pancreatic surface temperature below 54°C.

体外猪胰腺微波消融:消融参数对消融结果和脂肪液化的影响
胰腺毗邻重要器官,过度的微波消融(MWA)会导致严重的并发症。本文旨在为临床医生提供胰腺微波消融的参考数据,分析不同消融参数下的消融效果,确定胰腺表面脂肪液化流出的临界温度。在体外猪胰腺上应用了两种功率水平(30 瓦和 55 瓦)、三种天线直径(1.3 毫米、1.6 毫米和 1.9 毫米)和三种消融时间(1 分钟、1.5 分钟和 2 分钟)的组合。温度测量在四个热电偶点进行。中心点位于天线槽水平方向 5 毫米处,温度测量点分别位于中心点上方、下方和右侧 5 毫米处。主效应分析和方差分析用于量化各因素对烧蚀结果的影响。在 30 W 条件下,天线直径的影响最大,占 48.5%。在 30 W-1.3 mm-1 min 时,球形指数(1.41)最接近 1。在 55 W 时,凝固区的大小几乎只受消融时间的影响,贡献率为 28.7%,C 点的温度超过了 B 点。低功率、短持续时间和小天线直径的消融组合可产生更接近球形的凝固区。在胰腺上进行 MWA 时,最好避开脂肪含量较高的区域,同时将胰腺表面温度保持在 54°C 以下。
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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来源期刊
CiteScore
3.60
自引率
5.60%
发文量
122
审稿时长
6 months
期刊介绍: The Journal of Engineering in Medicine is an interdisciplinary journal encompassing all aspects of engineering in medicine. The Journal is a vital tool for maintaining an understanding of the newest techniques and research in medical engineering.
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