Properties of tissue within prostate tumors and treatment planning implications for ablation therapies

不可逆电穿孔 前列腺 烧蚀 前列腺癌 肿瘤消融 医学 生物医学工程 病理 电穿孔 癌症 生物 内科学 生物化学 基因
作者
Natalie Beitel-White,Kenneth N. Aycock,Navid Manuchehrabadi,Yajun Zhao,Khan Mohammad Imran,Sheryl Coutermarsh‐Ott,Irving C. Allen,Melvin F. Lorenzo,Rafael V. Davalos
出处
期刊: 卷期号:: 1539-1542 被引量:1
标识
DOI:10.1109/embc46164.2021.9630534
摘要

Irreversible electroporation (IRE) is a promising alternative therapy for the local treatment of prostate tumors. The procedure involves the direct insertion of needle electrodes into the target zone, and subsequent delivery of short but high-voltage pulses. Successful outcomes rely on adequate exposure of the tumor to a threshold electrical field. To aid in predicting this exposure, computational models have been developed, yet often do not incorporate the appropriate tissue-specific properties. This work aims to quantify electrical conductivity behavior during IRE for three types of tissue present in the target area of a prostate cancer ablation: the tumor tissue itself, the surrounding healthy tissue, and potential areas of necrosis within the tumor. Animal tissues were used as a stand-in for primary samples. The patient-derived prostate tumor tissue showed very similar responses to healthy porcine prostate tissue. An examination of necrotic tissue inside the tumors revealed a large difference, however, and a computational model showed that a necrotic core with differing electrical properties can cause unexpected inhomogeneities within the treatment region.
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