Cancer Medicine (Mar 2024)
Ultrasound‐guided percutaneous high‐frequency irreversible electroporation in porcine livers using four electrode needles: A feasibility and safety study
Abstract
Abstract Background Malignant liver tumors seriously endanger human health. Among different therapeutic approaches, high‐frequency irreversible electroporation (H‐FIRE) is a recently emerging tumor ablation technique. The objective of this study was to evaluate the feasibility and safety of ultrasound‐guided percutaneous H‐FIRE using four electrode needles in porcine livers. Methods Twelve experimental pigs underwent percutaneous H‐FIRE ablation using a compound steep‐pulse therapeutic device. Liver tissues adjacent to the gallbladder, blood vessels, and bile ducts were selected as the ablation targets. Pigs were randomly divided into three groups: (1) immediately after ablation (N = 4), (2) 2 days after ablation (N = 4), and (3) 7 days after ablation (N = 4). Blood routine, liver and kidney function, and myocardial enzyme levels were measured before and after ablation. Ultrasound, contrast‐enhanced ultrasound (CEUS), contrast‐enhanced magnetic resonance imaging (MRI), and hematoxylin–eosin staining were performed to evaluate the ablation performance. Results Ultrasound‐guided percutaneous H‐FIRE ablations using four electrode needles were successfully performed in all 12 experimental pigs. The general conditions of the pigs, including postoperative activities and feeding behaviors, were normal, with no significant changes compared with the preoperative conditions. The imaging features of ultrasound, CEUS, and MRI demonstrated no significant changes in the gallbladder walls, bile ducts, or blood vessels close to the ablation areas. Laboratory tests showed that liver function indices and myocardial enzymes increased temporarily after H‐FIRE ablation, but decreased to normal levels at 7 days after ablation. Histopathological examinations of porcine liver specimens showed that this technique could effectively ablate the target areas without damaging the surrounding or internal vascular systems and gallbladder. Conclusions This study demonstrated the feasibility and safety of ultrasound‐guided percutaneous H‐FIRE ablation in porcine livers in vivo, and proposed a four‐needle method to optimize its clinical application.
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