Pan Patrick J, Bansal Anshuman K, Genshaft Scott J, Kim Grace H, Suh Robert D, Abtin Fereidoun
Division of Thoracic Imaging and Interventional Services, Department of Radiology, UCLA Medical Center, David Geffen School of Medicine at UCLA, 757 Westwood Plaza, Room 1621, Los Angeles, CA 90095-1721.
Division of Thoracic Imaging and Interventional Services, Department of Radiology, UCLA Medical Center, David Geffen School of Medicine at UCLA, 757 Westwood Plaza, Room 1621, Los Angeles, CA 90095-1721.
J Vasc Interv Radiol. 2018 May;29(5):722-728. doi: 10.1016/j.jvir.2017.11.016. Epub 2018 Mar 3.
To determine size of ablation zone and pulmonary hemorrhage in double-freeze (DF) vs modified triple-freeze (mTF) cryoablation protocols with different probe sizes in porcine lung.
In 10 healthy adult pigs, 20 pulmonary cryoablations were performed using either a 2.4-mm or a 1.7-mm probe. Either conventional DF or mTF protocol was used. Serial noncontrast CT scans were performed during ablations. Ablation iceball and hemorrhage volumes were measured and compared between protocols and probe sizes.
With 1.7-mm probe, greater peak iceball volume was observed with DF compared with mTF, although difference was not statistically significant (16.1 mL ± 1.9 vs 8.8 mL ± 3.6, P = .07). With 2.4-mm probe, DF and mTF produced similar peak iceball volumes (14.0 mL ± 2.8 vs 14.6 mL ± 2.7, P = .88). Midcycle hemorrhage was significantly larger with DF with the 1.7-mm probe (94.3 mL ± 22.2 vs 19.6 mL ± 2.1, P = .02) and with both sizes combined (93.2 mL ± 17.5 vs. 50.9 mL ± 12.6, P = .048). Rate of hemorrhage increase was significantly higher in DF (10.4 mL/min vs 5.1 mL/min, P = .003). End-cycle hemorrhage was visibly larger in DF compared with mTF across probe sizes, although differences were not statistically significant (P = .14 for 1.7 mm probe, P = .18 for 2.4 mm probe, and P = .07 for both probes combined). Rate of increase in hemorrhage during the last thaw period was not statistically different between DF and mTF (3.0 mL/min vs 2.8 mL/min, P = .992).
mTF reduced rate of midcycle hemorrhage compared with DF. With mTF, midcycle hemorrhage was significantly smaller with 1.7-mm probe; although noticeably smaller with 2.4-mm probe, statistical significance was not achieved. Iceball size was not significantly different across both protocols and probe types.
确定在猪肺中使用不同探头尺寸的双冻融(DF)与改良三冻融(mTF)冷冻消融方案时消融区大小和肺出血情况。
对10只健康成年猪进行20次肺冷冻消融,使用2.4毫米或1.7毫米探头。采用传统DF或mTF方案。消融过程中进行系列非增强CT扫描。测量消融冰球和出血量,并在不同方案和探头尺寸之间进行比较。
使用1.7毫米探头时,DF的冰球峰值体积大于mTF,尽管差异无统计学意义(16.1毫升±1.9对8.8毫升±3.6,P = 0.07)。使用2.4毫米探头时,DF和mTF产生的冰球峰值体积相似(14.0毫升±2.8对14.6毫升±2.7,P = 0.88)。使用1.7毫米探头时,DF的周期中出血量显著更大(94.3毫升±22.2对19.6毫升±2.1,P = 0.02),两种尺寸探头综合来看也是如此(93.2毫升±17.5对50.9毫升±12.6,P = 0.048)。DF的出血增加速率显著更高(10.4毫升/分钟对5.1毫升/分钟,P = 0.003)。在不同探头尺寸下,DF的周期末出血量在视觉上均大于mTF,尽管差异无统计学意义(1.7毫米探头P = 0.14,2.4毫米探头P = 0.18,两种探头综合P = 0.07)。在最后解冻期,DF和mTF的出血增加速率无统计学差异(3.0毫升/分钟对2.8毫升/分钟,P = 几乎相等)。
与DF相比,mTF降低了周期中出血速率。使用mTF时,1.7毫米探头的周期中出血量显著更小;2.4毫米探头时虽明显更小,但未达到统计学意义。两种方案和探头类型的冰球大小无显著差异。
