射频和微波消融后周边消融区有多大？两种目前使用的临床设备的基于计算机的比较研究。

How large is the periablational zone after radiofrequency and microwave ablation? Computer-based comparative study of two currently used clinical devices.

机构信息

BioMIT, Department of Applied Mathematics, Universitat Politècnica de València, Valencia, Spain.

Mike Wiegers Department of Electrical and Computer Engineering, Kansas State University, Manhattan, KS, USA.

出版信息

Int J Hyperthermia. 2020;37(1):1131-1138. doi: 10.1080/02656736.2020.1823022.

DOI:10.1080/02656736.2020.1823022

PMID:32996794

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7714001/

Abstract

PURPOSE

To compare the size of the coagulation (CZ) and periablational (PZ) zones created with two commercially available devices in clinical use for radiofrequency (RFA) and microwave ablation (MWA), respectively.

METHODS

Computer models were used to simulate RFA with a 3-cm Cool-tip applicator and MWA with an Amica-Gen applicator. The Arrhenius model was used to compute the damage index (). CZ was considered when > 4.6 (>99% of damaged cells). Regions with 0.6< < 2.1 were considered as the PZ (tissue that has undergone moderate sub-ablative hyperthermia). The ratio of PZ volume to CZ volume (PZ/CZ) was regarded as a measure of performance, since a low value implies achieving a large CZ while keeping the PZ small.

RESULTS

Ten-min RFA (51 W) created smaller periablational zones than 10-min MWA (11.3 cm vs. 17.2-22.9 cm, for 60-100 W MWA, respectively). Prolonging duration from 5 to 10 min increased the PZ in MWA more than in RFA (2.7 cm for RFA vs. 8.3-11.9 cm for 60-100 W MWA, respectively). PZ/CZ for RFA were relatively high (65-69%), regardless of ablation time, while those for MWA were highly dependent on the duration (increase of up to 25% between 5 and 10 min) and on the applied power (smaller values as power was raised, 102% for 60 W vs. 81% for 100 W, both for 10 min). The lowest PZ/CZ across all settings was 56%, obtained with 100 W-5 min MWA.

CONCLUSIONS

Although RFA creates smaller periablational zones than MWA, 100 W-5 min MWA provides the lowest PZ/CZ.

摘要

目的

比较两种市售的射频消融（RFA）和微波消融（MWA）设备所产生的凝固（CZ）和围消融（PZ）区域的大小。

方法

使用计算机模型模拟了 3cm 冷尖端应用器的 RFA 和 Amica-Gen 应用器的 MWA。使用阿累尼乌斯模型计算损伤指数（）。当 > 4.6（>99%的受损细胞）时，认为存在 CZ。0.6< < 2.1 的区域被认为是 PZ（经历中度亚消融性过热的组织）。PZ 体积与 CZ 体积的比值（PZ/CZ）被视为性能的衡量标准，因为低值意味着在保持 PZ 较小的同时实现较大的 CZ。

结果

10 分钟的 RFA（51 W）产生的围消融区小于 10 分钟的 MWA（分别为 60-100 W MWA 的 11.3 cm 与 17.2-22.9 cm）。将时间从 5 分钟延长至 10 分钟，MWA 中的 PZ 增加大于 RFA（分别为 RFA 的 2.7 cm 与 60-100 W MWA 的 8.3-11.9 cm）。RFA 的 PZ/CZ 相对较高（65-69%），无论消融时间如何，而 MWA 的 PZ/CZ 高度依赖于时间（5-10 分钟之间增加高达 25%）和应用功率（功率升高时，PZ/CZ 减小，60 W 时为 102%，100 W 时为 81%，均为 10 分钟）。所有设置中 PZ/CZ 最低的是 56%，这是在 100 W-5 分钟 MWA 时获得的。

结论

虽然 RFA 产生的围消融区小于 MWA，但 100 W-5 分钟 MWA 提供了最低的 PZ/CZ。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9568/7714001/62e1a636d5ac/nihms-1648247-f0001.jpg

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射频和微波消融后周边消融区有多大？两种目前使用的临床设备的基于计算机的比较研究。

How large is the periablational zone after radiofrequency and microwave ablation? Computer-based comparative study of two currently used clinical devices.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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