使用不同经导管心脏瓣膜对瓣中瓣植入深度的体外评估。

In vitro evaluation of implantation depth in valve-in-valve using different transcatheter heart valves.

作者信息

Simonato Matheus, Azadani Ali N, Webb John, Leipsic Jonathon, Kornowski Ran, Vahanian Alec, Wood David, Piazza Nicolo, Kodali Susheel, Ye Jian, Whisenant Brian, Gaia Diego, Aziz Mina, Pasala Tilak, Mehilli Julinda, Wijeysundera Harindra C, Tchetche Didier, Moat Neil, Teles Rui, Petronio Anna Sonia, Hildick-Smith David, Landes Uri, Windecker Stephan, Arbel Yaron, Mendiz Oscar, Makkar Raj, Tseng Elaine, Dvir Danny

机构信息

St. Paul's Hospital, Vancouver, BC, Canada.

出版信息

EuroIntervention. 2016 Sep 18;12(7):909-17. doi: 10.4244/EIJV12I7A149.

DOI:10.4244/EIJV12I7A149

PMID:27639744

Abstract

AIMS

Transcatheter heart valve (THV) implantation in failed bioprosthetic valves (valve-in-valve [ViV]) offers an alternative therapy for high-risk patients. Elevated post-procedural gradients are a significant limitation of aortic ViV. Our objective was to assess the relationship between depth of implantation and haemodynamics.

METHODS AND RESULTS

Commercially available THVs used for ViV were included in the analysis (CoreValve Evolut, SAPIEN XT and the Portico valve). THVs were implanted in small surgical valves (label size 19 mm) to simulate boundary conditions. Custom-mounted pulse duplicators registered relevant haemodynamic parameters. Twenty-eight experiments were performed (13 CVE, 5 SXT and 10 Portico). Ranges of depth of implantation were: CVE: -1.2 mm to 15.7 mm; SXT: -2.2 mm to 7.5 mm; Portico: 1.4 mm to 12.1 mm. Polynomial regression established a relationship between depth of implantation and valvular mean gradients (CVE: p<0.001; SXT: p=0.01; Portico: p=0.002), as well as with EOA (CVE: p<0.001; SXT: p=0.02; Portico valve: p=0.003). In addition, leaflet coaptation was better in the high implantation experiments for all valves.

CONCLUSIONS

The current comprehensive bench testing assessment demonstrates the importance of high device position for the attainment of optimal haemodynamics during aortic ViV procedures.

摘要

目的

在生物假体瓣膜功能衰竭时经导管植入心脏瓣膜（瓣中瓣[ViV]）为高危患者提供了一种替代治疗方法。术后梯度升高是主动脉瓣ViV的一个重大限制。我们的目的是评估植入深度与血流动力学之间的关系。

方法与结果

分析中纳入了用于ViV的市售经导管心脏瓣膜（CoreValve Evolut、SAPIEN XT和Portico瓣膜）。将经导管心脏瓣膜植入小型外科瓣膜（标记尺寸19毫米）以模拟边界条件。定制安装的脉搏复制器记录相关血流动力学参数。共进行了28项实验（13项CoreValve Evolut、5项SAPIEN XT和10项Portico）。植入深度范围为：CoreValve Evolut：-1.2毫米至15.7毫米；SAPIEN XT：-2.2毫米至7.5毫米；Portico：1.4毫米至12.1毫米。多项式回归确定了植入深度与瓣膜平均梯度之间的关系（CoreValve Evolut：p<0.001；SAPIEN XT：p=0.01；Portico：p=0.002），以及与有效瓣口面积之间的关系（CoreValve Evolut：p<0.001；SAPIEN XT：p=0.02；Portico瓣膜：p=0.003）。此外，在所有瓣膜的高植入实验中，瓣叶贴合情况更好。

结论

当前的综合台架测试评估表明，在主动脉瓣ViV手术中，较高的装置位置对于实现最佳血流动力学至关重要。

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使用不同经导管心脏瓣膜对瓣中瓣植入深度的体外评估。

In vitro evaluation of implantation depth in valve-in-valve using different transcatheter heart valves.

作者信息

机构信息

出版信息

AIMS

METHODS AND RESULTS

CONCLUSIONS

目的

方法与结果

结论

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