使用钻石尖端导管在体外实验模型中对病变形成进行详细分析。
Detailed analysis of the lesion formation using a diamond tip catheter in an ex vivo experimental model.
机构信息
Department of Cardiology, Saitama Medical University, International Medical Center, Hidaka, Saitama, Japan.
Department of Medical Engineer, Saitama Medical University International Medical Center, Hidaka, Saitama, Japan.
出版信息
J Cardiol. 2023 Jul;82(1):76-83. doi: 10.1016/j.jjcc.2023.03.006. Epub 2023 Mar 17.
BACKGROUND
A novel Diamond Temp™ (DT; Medtronic, Minneapolis, MN, USA) catheter has enabled performing a surface temperature-controlled ablation. The chemical vapor deposition diamond of the ablation catheter acts as a thermal radiator and is useful for effective cooling of the ablation catheter tip. However, a detailed analysis of the lesion formation with this catheter remains unknown.
METHODS
DT catheters were used in an excised swine heart experimental model. A cross-sectional analysis of 60-s lesions [a combination of various energy power settings (30, 40, and 50 W), and various contact forces (CF) (10, 30, and 50 g)] and a longitudinal analysis [a combination of various powers (40 W or 50 W), various CFs (10, 30, and 50 g), and various ablation times (5 s, 10 s, 15 s, 20 s, 25 s, 30 s, and 60 s)] of the DT catheter were analyzed.
RESULTS
The maximum lesion depth, maximum diameter, and lesion volume with a 10 g ablation were significantly lower than those with a 30 g or 50 g ablation. There were no significant differences in the lesion formation between the 30 g ablation and 50 g ablation under each radiofrequency (RF) power setting. The impedance drops with steam pops were significantly greater than those without steam pops (pop (+) vs. pop (-), 26.2 ± 6.6 Ohm vs. 18.4 ± 7.1 Ohm, p = 0.0001). A non-linear, time-dependent increase in the lesion depth and diameter was observed for all power and CF settings. Comparing the lesion depth and diameter between 40 W and 50 W under the same CF setting and same ablation time, most of the settings had no significant difference.
CONCLUSION
Ablation lesions created with the DT catheter were similar to other catheters. Similar ablation lesions were created with the 40 W or 50 W ablation under the same CF setting and same ablation time. Regardless of the ablation power, monitoring the general impedance during the RF application was indispensable for a safe procedure.
背景
新型 Diamond Temp™(DT;美敦力,明尼苏达州明尼阿波利斯)导管可实现表面温度控制消融。消融导管的化学气相沉积金刚石起到热辐射器的作用,有助于有效冷却消融导管尖端。然而,对于这种导管形成的病变的详细分析尚不清楚。
方法
在离体猪心实验模型中使用 DT 导管。对 60 秒病变进行横截面分析[各种能量功率设置(30、40 和 50 W)和各种接触力(CF)(10、30 和 50 g)的组合]和纵向分析[各种功率(40 W 或 50 W)、各种 CF(10、30 和 50 g)和各种消融时间(5 s、10 s、15 s、20 s、25 s、30 s 和 60 s)的组合]。
结果
在 10 g 消融时,最大病变深度、最大直径和病变体积明显低于 30 g 或 50 g 消融时。在每个射频(RF)功率设置下,30 g 消融与 50 g 消融之间的病变形成没有显着差异。蒸汽弹出时的阻抗下降明显大于没有蒸汽弹出时的阻抗下降(弹出(+)与弹出(-),26.2±6.6 欧姆与 18.4±7.1 欧姆,p=0.0001)。对于所有功率和 CF 设置,观察到病变深度和直径呈非线性、时间依赖性增加。比较相同 CF 设置和相同消融时间下 40 W 和 50 W 的病变深度和直径,大多数设置没有显着差异。
结论
使用 DT 导管形成的消融病灶与其他导管相似。在相同 CF 设置和相同消融时间下,使用 40 W 或 50 W 消融可产生相似的消融病灶。无论消融功率如何,在 RF 应用过程中监测总阻抗对于安全操作都是必不可少的。
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