不可逆电穿孔:治疗效果易受局部环境和组织特性的影响。
Irreversible electroporation: treatment effect is susceptible to local environment and tissue properties.
机构信息
From the Department of Radiology, Hadassah Medical Organization, Hadassah Campus, POB 12000, Jerusalem 91120, Israel.
出版信息
Radiology. 2013 Dec;269(3):738-47. doi: 10.1148/radiol.13122590. Epub 2013 Oct 28.
PURPOSE
To study the effects of the surrounding electrical microenvironment and local tissue parameters on the electrical parameters and outcome of irreversible electroporation (IRE) ablation in porcine muscle, kidney, and liver tissue.
MATERIALS AND METHODS
Animal Care and Use Committee approval was obtained, and National Institutes of Health guidelines were followed. IRE ablation (n = 90) was applied in muscle (n = 44), kidney (n = 28), and liver (n = 18) tissue in 18 pigs. Two electrodes with tip exposure of 1.5-2 cm were used at varying voltages (1500-3000 V), pulse repetitions (n = 70-100), pulse length (70-100 µsec), and electrode spacing (1.5-2 cm). In muscle tissue, electrodes were placed exactly parallel, in plane, or perpendicular to paraspinal muscle fibers; in kidney tissue, in the cortex or adjacent to the renal medulla; and in liver tissue, with and without metallic or plastic plates placed 1-2 cm from electrodes. Ablation zones were determined at gross pathologic (90-120 minutes after IRE) and immunohistopathologic examination (6 hours after) for apoptosis and heat-shock protein markers. Multivariate analysis of variance with multiple comparisons and/or paired t tests and regression analysis were used for analysis.
RESULTS
Mean (± standard deviation) ablation zones in muscle were 6.2 cm ± 0.3 × 4.2 cm ± 0.3 for parallel electrodes and 4.2 cm ± 0.8 × 3.0 cm ± 0.5 for in-plane application. Perpendicular orientation resulted in a cross-shaped zone. Orientation significantly affected IRE current applied (28.5-31.7A for parallel, 29.5-39.7A for perpendicular; P = .003). For kidney cortex, ovoid zones of 1.5 cm ± 0.1 × 0.5 cm ± 0.0 to 2.5 cm ± 0.1 × 1.3 cm ± 0.1 were seen. Placement of electrodes less than 5 mm from the medullary pyramids resulted in treatment effect arcing into the collecting system. For liver tissue, symmetric 2.7 cm ± 0.2 × 1.4 cm ± 0.3 coagulation areas were seen without the metallic plate but asymmetric coagulation was seen with the metallic plate.
CONCLUSION
IRE treatment zones are sensitive to varying electrical conductivity in tissues. Electrode location, orientation, and heterogeneities in local environment must be considered in planning ablation treatment. Online supplemental material is available for this article.
目的
研究周围电微环境和局部组织参数对猪肌肉、肾脏和肝脏组织不可逆电穿孔(IRE)消融的电参数和结果的影响。
材料与方法
本研究获得了动物护理和使用委员会的批准,并遵循了美国国立卫生研究院的指导方针。在 18 头猪中,IRE 消融(n=90)应用于肌肉(n=44)、肾脏(n=28)和肝脏(n=18)组织。使用两个尖端暴露为 1.5-2cm 的电极,在不同的电压(1500-3000V)、脉冲重复次数(n=70-100)、脉冲长度(70-100µsec)和电极间距(1.5-2cm)下进行消融。在肌肉组织中,电极被放置成完全平行、平面或垂直于脊柱旁肌肉纤维;在肾脏组织中,电极被放置在皮质或靠近肾髓质;在肝脏组织中,将金属或塑料板放置在离电极 1-2cm 处。在 IRE 后 90-120 分钟进行大体病理检查和免疫组化检查(IRE 后 6 小时)以确定细胞凋亡和热休克蛋白标志物,从而确定消融区域。使用方差分析和多重比较或配对 t 检验以及回归分析进行分析。
结果
平行电极的平均(±标准差)消融区域为 6.2cm±0.3×4.2cm±0.3,平面应用的为 4.2cm±0.8×3.0cm±0.5。垂直方向导致出现十字形区域。方向显著影响 IRE 施加的电流(平行电极为 28.5-31.7A,垂直电极为 29.5-39.7A;P=0.003)。对于肾脏皮质,观察到 1.5cm±0.1×0.5cm±0.0 到 2.5cm±0.1×1.3cm±0.1 的椭圆形区域。将电极放置在离髓质锥体小于 5mm 的位置会导致治疗效果电弧进入收集系统。对于肝脏组织,没有金属板时可以看到对称的 2.7cm±0.2×1.4cm±0.3 凝固区域,而有金属板时则可以看到不对称的凝固区域。
结论
IRE 治疗区域对组织中不同的电导率敏感。在规划消融治疗时,必须考虑电极位置、方向和局部环境的不均匀性。本文提供了在线补充材料。
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