基于SAR单针反馈的2450MHz微波消融温度场仿真研究

    2 450 MHz Microwave Ablation Temperature Field Simulation Based on Single-needle SAR Feedback

    • 摘要: 比吸收率(SAR)的精确表征对于恒功率微波消融的温度场仿真至关重要.提出了2 450 MHz微波消融中SAR的单针反馈方法以及基于SAR反馈形式的温度场仿真技术.在具体实施中,首先利用离体猪肝实验获得SAR的空间分布函数,然后通过单针实测结果获得SAR随温度变化的精确表征形式,最后基于此SAR形式进行温度场仿真以验证温度预测精度.实验对比结果表明,仿真结果与实测温度具有较高的一致性,验证点的最大温度差的平均值约为2.805℃,平均温度差的平均值约为1.551℃,标准偏差的平均值约为1.121℃.因此基于SAR反馈形式的温度场仿真能有效地预测微波热消融中的温度分布,从而为临床热消融手术提供可靠的科学依据.

       

      Abstract: Accurate characterization of specific absorption rate (SAR) is critical to the temperature field simulation of constant-power microwave ablation (MWA). In this paper, a single-needle feedback method for SAR during 2 450 MHz MWA was proposed and a temperature field simulation technique based on SAR feedback was implemented. The spatial distribution functions of SAR were first obtained from the ex vivo porcine liver experiments. Second, the accurate characterization forms of SAR with temperature were acquired according to the single-needle measurements. Finally, temperature field simulation using SAR feedback was carried out to verify the temperature prediction accuracy. The experimental results show that the simulation data is in good agreement with the measured temperatures. For the verification points, the average maximum temperature error is about 2.805 ℃, the average temperature error is about 1.551 ℃ and the standard deviation is about 1.121 ℃. In conclusion, the temperature field simulation based on SAR feedback can effectively predict the temperature distributions during the MWA process, and thus provide a reliable reference for clinical MWA surgery.

       

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