用于监测电穿孔治疗期间组织阻抗、温度和治疗效果的快速阻抗谱。

Rapid Impedance Spectroscopy for Monitoring Tissue Impedance, Temperature, and Treatment Outcome During Electroporation-Based Therapies.

出版信息

IEEE Trans Biomed Eng. 2021 May;68(5):1536-1546. doi: 10.1109/TBME.2020.3036535. Epub 2021 Apr 21.

DOI:10.1109/TBME.2020.3036535

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8127872/

Abstract

OBJECTIVE

Electroporation-based therapies (EBTs) employ high voltage pulsed electric fields (PEFs) to permeabilize tumor tissue; this results in changes in electrical properties detectable using electrical impedance spectroscopy (EIS). Currently, commercial potentiostats for EIS are limited by impedance spectrum acquisition time ( ∼ 10 s); this timeframe is much larger than pulse periods used with EBTs ( ∼ 1 s). In this study, we utilize rapid EIS techniques to develop a methodology for characterizing electroporation (EP) and thermal effects associated with high-frequency irreversible EP (H-FIRE) in real-time by monitoring inter-burst impedance changes.

METHODS

A charge-balanced, bipolar rectangular chirp signal is proposed for rapid EIS. Validation of rapid EIS measurements against a commercial potentiostat was conducted in potato tissue using flat-plate electrodes and thereafter for the measurement of impedance changes throughout IRE treatment. Flat-plate electrodes were then utilized to uniformly heat potato tissue; throughout high-voltage H-FIRE treatment, low-voltage inter-burst impedance measurements were used to continually monitor impedance change and to identify a frequency at which thermal effects are delineated from EP effects.

RESULTS

Inter-burst impedance measurements (1.8 kHz - 4.93 MHz) were accomplished at 216 discrete frequencies. Impedance measurements at frequencies above ∼ 1 MHz served to delineate thermal and EP effects in measured impedance.

CONCLUSION

We demonstrate rapid-capture ( 1 s) EIS which enables monitoring of inter-burst impedance in real-time. For the first time, we show impedance analysis at high frequencies can delineate thermal effects from EP effects in measured impedance.

SIGNIFICANCE

The proposed waveform demonstrates the potential to perform inter-burst EIS using PEFs compatible with existing pulse generator topologies.

摘要

目的

基于电穿孔的治疗（EBTs）采用高压脉冲电场（PEFs）使肿瘤组织穿孔；这会导致使用阻抗谱（EIS）可检测到的电特性发生变化。目前，EIS 的商业恒电位仪受到阻抗谱采集时间（约 10 s）的限制；这个时间框架比 EBTs 所用的脉冲周期（约 1 s）长得多。在这项研究中，我们利用快速 EIS 技术，通过监测脉冲间阻抗变化，实时开发一种用于表征电穿孔（EP）和与高频不可逆电穿孔（H-FIRE）相关的热效应的方法。

方法

提出了一种电荷平衡的双极矩形啁啾信号，用于快速 EIS。在使用平板电极的马铃薯组织中，通过与商业恒电位仪进行快速 EIS 测量验证，此后用于测量 IRE 治疗过程中的阻抗变化。然后利用平板电极均匀加热马铃薯组织；在高压 H-FIRE 治疗过程中，使用低压脉冲间阻抗测量来连续监测阻抗变化，并确定一个频率，在该频率下，热效应与 EP 效应区分开来。

结果

在 216 个离散频率上完成了脉冲间阻抗测量（1.8 kHz - 4.93 MHz）。在高于约 1 MHz 的频率上的阻抗测量用于区分测量阻抗中的热效应和 EP 效应。

结论

我们演示了快速捕获（1 s）EIS，能够实时监测脉冲间阻抗。我们首次表明，在测量阻抗中，高频阻抗分析可以区分热效应和 EP 效应。

意义

所提出的波形展示了使用与现有脉冲发生器拓扑兼容的 PEFs 进行脉冲间 EIS 的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c361/8127872/359fe7c7e8c3/nihms-1696161-f0001.jpg

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用于监测电穿孔治疗期间组织阻抗、温度和治疗效果的快速阻抗谱。

Rapid Impedance Spectroscopy for Monitoring Tissue Impedance, Temperature, and Treatment Outcome During Electroporation-Based Therapies.

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

SIGNIFICANCE

目的

方法

结果

结论

意义

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