TABERNACL: Temporary Hemodynamic Stabilization In Vivo.

IF 6.1 1区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

Circulation: Cardiovascular Interventions Pub Date : 2024-05-01 Epub Date: 2024-03-27 DOI:10.1161/CIRCINTERVENTIONS.123.013898

Rim N Halaby, Christopher G Bruce, D Korel Yildirim, Dogangun Uzun, Toby Rogers, Jaffar M Khan, Andi E Jaimes, Laurie P Grant, Vasilis C Babaliaros, Adam B Greenbaum, Robert J Lederman

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引用次数: 0

Abstract

Background: Acute aortic regurgitation is life-threatening with few nonsurgical options for immediate stabilization. We propose Trans-Aortic Balloon to Ease Regurgitation Applying Counter-Pulsation (TABERNACL), a simple, on-table temporary valve using commercially available equipment to temporize acute severe aortic regurgitation.

Methods: We hypothesize that an appropriately sized commercial balloon dilatation catheter-straddling the aortic annulus and connected to a counterpulsation console-can serve as a temporizing valve to restore hemodynamic stability in acute aortic regurgitation. We performed benchtop testing of valvuloplasty, angioplasty, and sizing balloons as counterpulsation balloons. TABERNACL was assessed in vivo in a porcine model of acute aortic regurgitation (n=8). We also tested a static undersized, continuously inflated transvalvular balloon as a spacer intended physically to obstruct the regurgitant orifice.

Results: Benchtop testing identified that Tyshak II and PTS sizing (NuMed Braun) balloon catheters performed adequately as temporary valves (ie, complete inflation and deflation with each cycle) and resisted fatigue, in contrast to others. When TABERNACL was used in the acute severe regurgitation animals, there was immediate hemodynamic improvement, with a significant 35% increase in diastolic aortic pressure by 16 mm Hg ([95% CI, 7-25] P=0.0056), 34% reduction in left ventricular end-diastolic pressure by -7 mm Hg ([95% CI, -10 to -5] P=0.0006), improvement in the aortic diastolic index by 0.28 ([95% CI, 0.18-0.39] P=0.0009), and reversal of electrocardiographic myocardial ischemia. As an alternative, static balloon inflation across the aortic valve stabilized regurgitation hemodynamics at the expense of a new aortic gradient and caused excessive ectopy from balloon movement in the left ventricular outflow tract.

Conclusions: TABERNACL improves hemodynamics and reduces coronary ischemia by electrocardiography in animals with acute severe aortic regurgitation. TABERNACL valves obstruct the diastolic regurgitant orifice without systolic obstruction. This may prove a lifesaving bridge to definitive valve replacement therapy.

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TABERNACL：体内临时血流动力学稳定。

背景：急性主动脉瓣反流危及生命，几乎没有非手术方法可以立即稳定病情。我们建议使用经主动脉球囊反搏术（TABERNACL）来缓解主动脉瓣反流，这是一种简单的台式临时瓣膜，使用市场上可买到的设备来暂时缓解急性严重主动脉瓣反流：方法：我们假设，一个尺寸合适的商用球囊扩张导管跨在主动脉瓣环上并与反搏控制台相连，可以作为临时瓣膜恢复急性主动脉瓣反流的血流动力学稳定性。我们对作为反搏球囊的瓣膜成形术、血管成形术和施术球囊进行了台式测试。在急性主动脉瓣反流的猪模型中对 TABERNACL 进行了活体评估（8 个）。我们还测试了一个静态的尺寸不足、持续充气的跨瓣球囊，将其作为物理阻塞反流口的垫片：台式测试结果表明，Tyshak II 和 PTS sizing（NuMed Braun）球囊导管作为临时瓣膜（即每个周期完全充气和放气）性能良好，与其他球囊导管相比具有抗疲劳性。在急性严重反流动物中使用 TABERNACL 时，血流动力学立即得到改善，主动脉舒张压显著增加了 35%，提高了 16 mm Hg（[95% CI, 7-25] P=0.0056）。0056），左心室舒张末压降低 34%(-7 mm Hg)([95% CI, -10 to -5] P=0.0006)，主动脉舒张指数改善 0.28([95% CI, 0.18-0.39] P=0.0009)，心电图心肌缺血逆转。作为替代方案，主动脉瓣静态球囊充气可稳定反流血流动力学，但会产生新的主动脉阶差，并导致左室流出道球囊移动引起过度异动：结论：通过心电图检查，TABERNACL 可改善急性严重主动脉瓣反流动物的血液动力学并减少冠状动脉缺血。TABERNACL瓣膜可阻塞舒张期的反流口，而不会阻塞收缩期的反流口。这可能被证明是最终瓣膜置换治疗的救命桥梁。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Circulation: Cardiovascular Interventions CARDIAC & CARDIOVASCULAR SYSTEMS-

CiteScore

10.30

自引率

1.80%

发文量

221

审稿时长

6-12 weeks

期刊介绍： Circulation: Cardiovascular Interventions, an American Heart Association journal, focuses on interventional techniques pertaining to coronary artery disease, structural heart disease, and vascular disease, with priority placed on original research and on randomized trials and large registry studies. In addition, pharmacological, diagnostic, and pathophysiological aspects of interventional cardiology are given special attention in this online-only journal.