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大功率气体冷却微波消融:轴冷却创造了有效的棒功能,而不会改变消融区。

High-powered gas-cooled microwave ablation: shaft cooling creates an effective stick function without altering the ablation zone.

机构信息

Department of Radiology, University of Wisconsin, E3/311 CSC, 600 Highland Ave, Madison, WI 53792, USA.

出版信息

AJR Am J Roentgenol. 2012 Mar;198(3):W260-5. doi: 10.2214/AJR.11.6503.

DOI:10.2214/AJR.11.6503
PMID:22358023
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3298039/
Abstract

OBJECTIVE

The purpose of our study was to validate the ability of a new gas-cooled microwave device to secure antennas into tissue before ablation via shaft cooling and to verify that such cooling does not compromise the intended ablation.

MATERIALS AND METHODS

The force required to extract several types of applicators from ex vivo bovine liver before and after ablation was measured. Six groups were compared: cooled needle and multitined radiofrequency electrodes, secured and unsecured cryoprobes, and gas-cooled microwave antennas (n = 6 each). Ablations were next created in in vivo porcine livers for 2 and 10 minutes (n = 6 each) using the gas-cooled microwave system at 140 W. Extraction force was again measured before and after ablation and compared between groups using analysis of variance with post hoc Student t tests. Histologic analysis of the ablation zone was performed to evaluate cellular necrosis along the antenna shaft.

RESULTS

Ex vivo, the secured cryoprobe and microwave antenna required significantly more force to remove than unsecured radiofrequency, cryoprobe, and microwave applicators (p < 0.05, all comparisons). The multitined radiofrequency electrode and cooled radiofrequency electrode required significantly more force to remove after ablation than before ablation (p = 0.006 and 0.02, respectively). In vivo, the secured antenna required significantly more force to remove before ablation than after ablation at both 2 (p < 0.0001) and 10 minutes (p < 0.0001). There was no histologic evidence of cell preservation along the antenna shaft.

CONCLUSION

The gas cooling used in this microwave device can effectively secure antennas into tissue without altering ablation shape or reducing the intended thermal damage.

摘要

目的

本研究的目的是验证一种新型气冷微波设备通过轴冷却将天线固定在组织内以进行消融的能力,并验证这种冷却不会影响预期的消融效果。

材料和方法

测量了在消融前后从牛肝的离体标本中提取几种类型的天线所需的力。比较了 6 组:冷却针和多齿射频电极、固定和未固定的冷冻探针以及气冷微波天线(每组各 6 个)。接下来,使用气冷微波系统在 140 W 下在猪的活体肝脏中进行 2 分钟和 10 分钟的消融(每组各 6 个)。再次在消融前后测量提取力,并使用方差分析和事后学生 t 检验比较组间差异。对消融区域进行组织学分析,以评估天线轴周围的细胞坏死情况。

结果

离体时,与未固定的射频、冷冻探针和微波天线相比,固定的冷冻探针和微波天线需要更大的力才能取出(p < 0.05,所有比较)。多齿射频电极和冷却射频电极在消融后比消融前需要更大的力才能取出(p = 0.006 和 0.02)。在体内,在 2 分钟(p < 0.0001)和 10 分钟(p < 0.0001)时,固定天线在消融前需要更大的力才能取出。在天线轴周围没有发现细胞保存的组织学证据。

结论

该微波设备中使用的气体冷却可以有效地将天线固定在组织内,而不会改变消融形状或减少预期的热损伤。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/da88/3298039/04f349593a1a/nihms359754f1.jpg

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