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Chinese Journal of Medical Instrumentation 2025 年 第49卷 第2期
研 究 与 论 著
[10] OH S, JOO Y H, LEE E, et al. Left atrial wall thickness meabilization[J]. IEEE Trans Biomed Eng, 2005, 52(5):
and its relationship with reconnection after pulmonary 816-827.
vein isolation in patients with atrial fibrillation evaluated [18] BELALCAZAR A. Safety and efficacy aspects of pulsed
using a three-dimensional wall thickness map[J]. Int J field ablation catheters as a function of electrode
Arrhythm, 2021, 22(1): 16. proximity to blood and energy delivery method[J]. Heart
2
[11] WITTKAMPF F H M, VONKEN E J, DERKSEN R, et Rhythm O , 2021, 2(6Part A): 560-569.
al. Pulmonary vein ostium geometry: analysis by [19] RAMIREZ F D, REDDY V Y, VISWANATHAN R,
magnetic resonance angiography[J]. Circulation, 2003, et al. Emerging technologies for pulmonary vein
107(1): 21-23. isolation[J]. Circ Res, 2020, 127(1): 170-183.
[12] VISWANATHAN R, LONG G, et al. Systems, devices, [20] YAN S J, GU K H, WU X M, et al. Computer simulation
and methods for focal ablation: EP20200827145[P]. study on the effect of electrode–tissue contact force on
2022-04-27. thermal lesion size in cardiac radiofrequency ablation[J].
[13] GABRIEL S, LAU R W, GABRIEL C. The dielectric Int J Hyperthermia, 2020, 37(1): 37-48.
properties of biological tissues: Ⅱ. Measurements in the [21] 唐潇, 姚陈果, 郑爽, 等. 不可逆电穿孔多因素动态电导
frequency range 10 Hz to 20 GHz[J]. Phys Med Biol, 率模型的研究与分析[J]. 电工技术学报, 2020, 36(14):
1996, 41(11): 2251-2269. 2912-2921.
[14] GABRIEL S, LAU R W, GABRIEL C. The dielectric [22] WOOD M, GOLDBERG S, LAU M, et al. Direct
properties of biological tissues: Ⅲ. Parametric models for measurement of the lethal isotherm for radiofrequency
the dielectric spectrum of tissues[J]. Phys Med Biol, ablation of myocardial tissue[J]. Circ Arrhythm
1996, 41(11): 2271-2293. Electrophysiol, 2011, 4(3): 373-378.
[15] KASAP S, KOUGHIA C, RUDA H E. Electrical [23] IVORRA A, MIR L M, RUBINSKY B. Electric field
conduction in metals and semiconductors[M]//KASAP S, redistribution due to conductivity changes during tissue
CAPPER P. Springer Handbook of Electronic and electroporation: experiments with a simple vegetal
Photonic Materials. Springer Cham, 2017. model[A]//IFMBE Proceedings, World Congress on
[16] ZHAO Y J, BHONSLE S, DONG S L, et al. Medical Physics and Biomedical Engineering, September
Characterization of conductivity changes during high- 7 - 12, 2009, Munich, Germany[M]. 2009: 59-62.
frequency irreversible electroporation for treatment [24] GASPERETTI A, ASSIS F, TRIPATHI H, et al.
planning[J]. IEEE Trans Biomed Eng, 2018, 65(8): 1810- Determinants of acute irreversible electroporation lesion
1819. characteristics after pulsed field ablation: the role of
[17] SEL D, CUKJATI D, BATIUSKAITE D, et al. voltage, contact, and adipose interference[J]. Europace,
Sequential finite element model of tissue electroper- 2023, 25(9): euad257.
133