Accuracy of Three-Dimensional Neo Left Ventricular Outflow Tract Simulations With Transcatheter Mitral Valve Replacement in Different Mitral Phenotypes.

IF 2.1 3区 医学 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS
Mark M P van den Dorpel, Lucas Uchoa de Assis, Jenna van Niekerk, Rutger-Jan Nuis, Joost Daemen, Claire Ben Ren, Alexander Hirsch, Isabella Kardys, Ben J L van den Branden, Ricardo Budde, Nicolas M Van Mieghem
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引用次数: 0

Abstract

Background: Transcatheter mitral valve replacement (TMVR) is emerging in the context of annular calcification (valve-in-MAC; ViMAC), failing surgical mitral annuloplasty (mitral-valve-in-ring; MViR) and failing mitral bioprosthesis (mitral-valve-in-valve; MViV). A notorious risk of TMVR is neo left ventricular outflow tract (neo-LVOT) obstruction. Three-dimensional computational models (3DCM) are derived from multi-slice computed tomography (MSCT) and aim to predict neo-LVOT area after TMVR. Little is known about the accuracy of these neo-LVOT predictions for various mitral phenotypes.

Methods: Preprocedural 3DCMs were created for ViMAC, MViR and MViV cases. Throughout the cardiac cycle, neo-LVOT dimensions were semi-automatically calculated on the 3DCMs. We compared the predicted neo-LVOT area on the preprocedural 3DCM with the actual neo-LVOT as measured on the post-procedural MSCT.

Results: Across 12 TMVR cases and examining 20%-70% of the cardiac phase, the mean difference between predicted and post-TMVR neo-LVOT area was -23 ± 28 mm2 for MViR, -21 ± 34 mm2 for MViV and -73 ± 61 mm2 for ViMAC. The mean intra-class correlation coefficient for absolute agreement between predicted and post-procedural neo-LVOT area (throughout the whole cardiac cycle) was 0.89 (95% CI 0.82-0.94, p < 0.001) for MViR, 0.81 (95% CI 0.62-0.89, p < 0.001) for MViV, and 0.41 (95% CI 0.12-0.58, p = 0.002) for ViMAC.

Conclusions: Three-dimensional computational models accurately predict neo-LVOT dimensions post TMVR in MViR and MViV but not in ViMAC. Further research should incorporate device host interactions and the effect of changing hemodynamics in these simulations to enhance accuracy in all mitral phenotypes.

三维新左心室流出道模拟与经导管二尖瓣置换术在不同二尖瓣表型中的准确性。
背景:经导管二尖瓣置换术(TMVR)是在二尖瓣瓣环钙化(valve-in-MAC;ViMAC)、二尖瓣瓣环成形术(mitral-valve-in-ring;MViR)和二尖瓣生物假体(mitral-valve-in-valve;MViV)失败的情况下出现的。新左心室流出道(neo-LVOT)阻塞是 TMVR 众所周知的风险。三维计算模型(3DCM)源自多层计算机断层扫描(MSCT),旨在预测 TMVR 后的新左心室流出道面积。但人们对这些新 LVOT 预测对各种二尖瓣表型的准确性知之甚少:方法:为 ViMAC、MViR 和 MViV 病例创建了术前 3DCM。在整个心动周期中,根据 3DCM 半自动计算新 LVOT 尺寸。我们将术前 3DCM 上预测的新 LVOT 面积与术后 MSCT 上测量的实际新 LVOT 面积进行了比较:结果:在 12 个 TMVR 病例中,检查了 20%-70% 的心脏期,MViR 预测的新 LVOT 面积与 TMVR 术后新 LVOT 面积的平均差异为 -23 ± 28 mm2,MViV 为 -21 ± 34 mm2,ViMAC 为 -73 ± 61 mm2。预测的新 LVOT 面积与手术后新 LVOT 面积(整个心动周期)绝对值的平均类内相关系数为 0.89(95% CI 0.82-0.94,p 结论:三维计算模型可准确预测新 LVOT 面积:三维计算模型能准确预测 MViR 和 MViV TMVR 术后的新 LVOT 面积,但不能预测 ViMAC 术后的新 LVOT 面积。进一步的研究应将设备主机相互作用和血流动力学变化的影响纳入这些模拟中,以提高所有二尖瓣表型的准确性。
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
CiteScore
5.40
自引率
8.70%
发文量
419
审稿时长
2 months
期刊介绍: Catheterization and Cardiovascular Interventions is an international journal covering the broad field of cardiovascular diseases. Subject material includes basic and clinical information that is derived from or related to invasive and interventional coronary or peripheral vascular techniques. The journal focuses on material that will be of immediate practical value to physicians providing patient care in the clinical laboratory setting. To accomplish this, the journal publishes Preliminary Reports and Work In Progress articles that complement the traditional Original Studies, Case Reports, and Comprehensive Reviews. Perspective and insight concerning controversial subjects and evolving technologies are provided regularly through Editorial Commentaries furnished by members of the Editorial Board and other experts. Articles are subject to double-blind peer review and complete editorial evaluation prior to any decision regarding acceptability.
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