Knight Cardiovascular Institute, Oregon Health and Science University, Portland, Oregon.
Knight Cardiovascular Institute, Oregon Health and Science University, Portland, Oregon.
Heart Rhythm. 2021 Apr;18(4):623-631. doi: 10.1016/j.hrthm.2020.12.027. Epub 2020 Dec 29.
Radiofrequency ablation of epicardial and mid-myocardial ventricular arrhythmias is limited by lesion depth.
The purpose of this study was to generate deep mid-interventricular septal (IVS) lesions using high-intensity ultrasound (US) from an endocardial catheter-based approach.
Irrigated US catheters (12 F) were fabricated with 3 × 5 mm transducers of 5.0, 6.5, and 8.0 MHz frequencies and compared in an ex vivo perfused myocardial ablation model. In vivo septal ablation in swine (n = 12) was performed via femoral venous access to the right ventricle. Lesions were characterized by echocardiography, cardiac magnetic resonance imaging, and electroanatomic voltage mapping pre- and post-ablation, and at 30 days. Four animals were euthanized immediately post-ablation to compare acute and chronic lesion histology and gross pathology.
In ex vivo models, maximal lesion depth and volume was achieved by 6.5 MHz catheters, which were used in vivo. Lesion depth by gross pathology was similar post-ablation (10.8 mm; 95% confidence interval [CI] 9.9-12.4 mm) and at 30 days (11.2 mm; 95% CI 10.6-12.4 mm) (P = .56). Lesion volume decreased post-ablation to 30 days (from 255 [95% CI 198-440] to 162 [95% CI 133-234] mm; P = .05), yet transmurality increased from 58% (95% CI 50%-76%) to 81% (95% CI 74%-93%), attributable to a reduction in IVS thickness (from 16.0 ± 1.7 to 10.6 ± 2.4 mm; P = .007). Magnetic resonance imaging confirmed dense septal ablation by delayed enhancement, with increased T1 time post-ablation and at 30 days and increased T2 time only post-ablation. Voltage mapping of both sides of IVS demonstrated reduced unipolar (but not bipolar) voltage along the IVS.
High-intensity US catheter ablation may be an effective treatment of mid-myocardial or epicardial ventricular arrhythmias from an endocardial approach.
由于创伤深度的限制,心外膜和心肌中层室性心律失常的射频消融治疗效果有限。
本研究旨在通过心内膜导管途径使用高强度超声(US)产生深的中层室间隔(IVS)损伤。
制备了带有 5.0、6.5 和 8.0 MHz 频率的 3×5mm 换能器的灌洗 US 导管(12F),并在离体灌注心肌消融模型中进行了比较。在 12 头猪(经股静脉入路至右心室)中进行了 IVS 心内膜消融。在消融前、后及 30 天时,通过超声心动图、心脏磁共振成像和心外膜电压标测对损伤进行了评估。在 4 头动物消融后立即处死,比较了急性和慢性损伤的组织学和大体病理学表现。
在离体模型中,6.5MHz 导管可获得最大的损伤深度和体积,随后在体内进行了应用。大体病理学测量的消融后即刻及 30 天的损伤深度相似(10.8mm;95%置信区间[CI]9.9-12.4mm)(P=0.56)。消融后即刻至 30 天,损伤体积逐渐减小(从 255(95%CI 198-440)降至 162(95%CI 133-234)mm;P=0.05),但透壁性增加(从 58%(95%CI 50%-76%)增至 81%(95%CI 74%-93%)),这归因于 IVS 厚度的降低(从 16.0±1.7 降至 10.6±2.4mm;P=0.007)。磁共振成像证实了延迟强化的致密 IVS 消融,消融后即刻及 30 天 T1 时间延长,仅在消融后 T2 时间延长。IVS 两侧的单极(而非双极)电压标测显示电压降低。
高强度 US 导管消融可能是一种有效的心内膜途径治疗心肌中层或心外膜室性心律失常的方法。