不可逆电穿孔致肾组织消融：初步的猪模型研究结果。

Renal tissue ablation with irreversible electroporation: preliminary results in a porcine model.

机构信息

Interventional Radiology and Image Guided Therapies, Suite H118, Memorial Sloan Kettering Cancer Center, 1275 York Avenue, New York, NY 10065, USA.

出版信息

Urology. 2011 Mar;77(3):754-60. doi: 10.1016/j.urology.2010.08.036. Epub 2010 Dec 15.

DOI:10.1016/j.urology.2010.08.036

PMID:21111458

Abstract

OBJECTIVES

To evaluate the histopathologic and computed tomography imaging features associated with irreversible electroporation (IRE) ablation performed in normal porcine kidneys. IRE is a nonthermal ablative tool that uses direct electrical pulses to create permanent "pores" in cell membranes and cell death. It does not affect the extracellular matrix.

METHODS

Fifteen female swine were treated with IRE using acute (<24 hours), subacute (36 hours), and chronic (3 weeks) treatment settings. Unipolar IRE applicators were placed under CT guidance. The renal pelvis/calyx was included in 18 ablations. Imaging and histopathologic follow-up were performed.

RESULTS

A total of 29 ablations (19 acute, 4 subacute, and 6 chronic) were created. Acute/subacute ablations showed complete cortical necrosis without intervening live cells. The pelvic epithelium was necrotic with urothelial sloughing; pelvic extracellular matrix was intact. Chronic ablations showed cortical fibrosis, regenerating renal pelvic epithelium and intact pelvic extracellular matrix. No thermal injury, renal pelvic, or blood vessel injury was seen. Immediate postprocedure CT imaging demonstrated a hypodense nonenhancing lesion that persisted at 1 week. Of the 6 chronic lesions, 4 showed complete resolution at 3 weeks on imaging. No collecting system damage was seen.

CONCLUSIONS

This preliminary porcine study demonstrates the nonthermal and connective tissue sparing mechanism of action of IRE. These features may protect against collecting system damage after IRE ablation of renal tissue. IRE could therefore play an important role in ablation of centrally located renal tumors.

摘要

目的

评估不可逆电穿孔 (IRE) 消融在正常猪肾脏中的组织病理学和计算机断层成像 (CT) 影像学特征。IRE 是一种非热消融工具，它使用直接电脉冲在细胞膜上产生永久的“孔”，导致细胞死亡。IRE 不会影响细胞外基质。

方法

15 头雌性猪接受了 IRE 治疗，分为急性（<24 小时）、亚急性（36 小时）和慢性（3 周）治疗组。采用单极 IRE 施源器在 CT 引导下进行治疗。肾盂/肾盏包含在 18 次消融术中。进行了影像学和组织病理学随访。

结果

共进行了 29 次消融术（19 次急性、4 次亚急性和 6 次慢性）。急性/亚急性消融术显示皮质完全坏死，无存活细胞。肾盂上皮坏死，伴有尿路上皮脱落；肾盂细胞外基质完整。慢性消融术显示皮质纤维化、再生的肾盂上皮和完整的肾盂细胞外基质。未发现热损伤、肾盂或血管损伤。术后即刻 CT 成像显示为低密无强化病变，1 周时持续存在。在 6 个慢性病变中，有 4 个在 3 周时的影像学上完全消退。未发现集合系统损伤。

结论

这项初步的猪研究表明了 IRE 的非热和结缔组织保护作用机制。这些特征可能有助于防止 IRE 消融肾组织后发生集合系统损伤。因此，IRE 在中央型肾肿瘤的消融中可能发挥重要作用。

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不可逆电穿孔致肾组织消融：初步的猪模型研究结果。

Renal tissue ablation with irreversible electroporation: preliminary results in a porcine model.

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METHODS

RESULTS

CONCLUSIONS

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结果

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