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体外肝脏、肾脏和肺脏射频热消融的光纤布拉格光栅测温及治疗后消融尺寸分析

Fiber Bragg Grating Thermometry and Post-Treatment Ablation Size Analysis of Radiofrequency Thermal Ablation on Ex Vivo Liver, Kidney and Lung.

作者信息

Korganbayev Sanzhar, Bianchi Leonardo, Girgi Clara, Vergantino Elva, Santucci Domiziana, Faiella Eliodoro, Saccomandi Paola

机构信息

Department of Mechanical Engineering, Politecnico di Milano, Via Giuseppe La Masa 1, 20156 Milan, Italy.

Operative Research Unit of Radiology and Interventional Radiology, Fondazione Policlinico Universitario Campus Bio-Medico, Via Alvaro del Portillo 200, 00128 Rome, Italy.

出版信息

Sensors (Basel). 2025 Jan 3;25(1):245. doi: 10.3390/s25010245.

DOI:10.3390/s25010245
PMID:39797036
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11723473/
Abstract

Radiofrequency ablation (RFA) is a minimally invasive procedure that utilizes localized heat to treat tumors by inducing localized tissue thermal damage. The present study aimed to evaluate the temperature evolution and spatial distribution, ablation size, and reproducibility of ablation zones in ex vivo liver, kidney, and lung using a commercial device, i.e., Dophi™ R150E RFA system (Surgnova, Beijing, China), and to compare the results with the manufacturer's specifications. Optical fibers embedding arrays of fiber Bragg grating (FBG) sensors, characterized by 0.1 °C accuracy and 1.2 mm spatial resolution, were employed for thermometry during the procedures. Experiments were conducted for all the organs in two different configurations: single-electrode (200 W for 12 min) and double-electrode (200 W for 9 min). Results demonstrated consistent and reproducible ablation zones across all organ types, with variations in temperature distribution and ablation size influenced by tissue characteristics and RFA settings. Higher temperatures were achieved in the liver; conversely, the lung exhibited the smallest ablation zone and the lowest maximum temperatures. The study found that using two electrodes for 9 min produced larger, more rounded ablation areas compared to a single electrode for 12 min. Our findings support the efficacy of the RFA system and highlight the need for tailored RFA parameters based on organ type and tumor properties. This research provides insights into the characterization of RFA systems for optimizing RFA techniques and underscores the importance of accurate thermometry and precise procedural planning to enhance clinical outcomes.

摘要

射频消融(RFA)是一种微创手术,通过诱导局部组织热损伤利用局部热量来治疗肿瘤。本研究旨在使用商用设备,即多菲™R150E射频消融系统(中国北京 Surgnova)评估离体肝脏、肾脏和肺中温度的演变和空间分布、消融大小以及消融区的可重复性,并将结果与制造商的规格进行比较。在手术过程中,使用了嵌入光纤布拉格光栅(FBG)传感器阵列的光纤进行温度测量,其精度为0.1℃,空间分辨率为1.2毫米。对所有器官在两种不同配置下进行了实验:单电极(200瓦,持续12分钟)和双电极(200瓦,持续9分钟)。结果表明,所有器官类型的消融区一致且可重复,温度分布和消融大小的变化受组织特征和射频消融设置的影响。肝脏达到的温度更高;相反,肺的消融区最小,最高温度最低。研究发现,与单电极持续12分钟相比,双电极持续9分钟产生的消融区域更大、更圆。我们的研究结果支持了射频消融系统的有效性,并强调了根据器官类型和肿瘤特性调整射频消融参数的必要性。这项研究为优化射频消融技术的射频消融系统特性提供了见解,并强调了准确测温及精确手术规划对提高临床疗效的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c857/11723473/290706f03286/sensors-25-00245-g008.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c857/11723473/290706f03286/sensors-25-00245-g008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c857/11723473/f7a2e8cec6cd/sensors-25-00245-g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c857/11723473/ba76bcfd3f4f/sensors-25-00245-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c857/11723473/290706f03286/sensors-25-00245-g008.jpg

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An anthropomorphic thyroid phantom for ultrasound-guided radiofrequency ablation of nodules.
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