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Comparative Study
. 2019 Jan 14;12(1):65-75.
doi: 10.1016/j.jcin.2018.10.043.

Valve-in-Valve Transcatheter Aortic Valve Replacement and Bioprosthetic Valve Fracture Comparing Different Transcatheter Heart Valve Designs: An Ex Vivo Bench Study

Janarthanan Sathananthan  1 Stephanie Sellers  2 Aaron M Barlow  3 Viktória Stanová  4 Rob Fraser  5 Stefan Toggweiler  6 Keith B Allen  7 Adnan Chhatriwalla  7 Dale J Murdoch  8 Mark Hensey  1 Karen Lau  2 Abdullah Alkhodair  1 Danny Dvir  9 Anita W Asgar  10 Anson Cheung  1 Philipp Blanke  11 Jian Ye  1 Régis Rieu  4 Phillippe Pibarot  12 David Wood  1 Jonathan Leipsic  11 John G Webb  13
Affiliations
Free article
Comparative Study

Valve-in-Valve Transcatheter Aortic Valve Replacement and Bioprosthetic Valve Fracture Comparing Different Transcatheter Heart Valve Designs: An Ex Vivo Bench Study

Janarthanan Sathananthan et al. JACC Cardiovasc Interv. .
Free article

Abstract

Objectives: The authors assessed the effect of valve-in-valve (VIV) transcatheter aortic valve replacement (TAVR) followed by bioprosthetic valve fracture (BVF), testing different transcatheter heart valve (THV) designs in an ex vivo bench study.

Background: Bioprosthetic valve fracture can be performed to improve residual transvalvular gradients following VIV TAVR.

Methods: The authors evaluated VIV TAVR and BVF with the SAPIEN 3 (S3) (Edwards Lifesciences, Irvine, California) and ACURATE neo (Boston Scientific Corporation, Natick, Massachusetts) THVs. A 20-mm and 23-mm S3 were deployed in a 19-mm and 21-mm Mitroflow (Sorin Group USA, Arvada, Colorado), respectively. A small ACURATE neo was deployed in both sizes of Mitroflow tested. VIV TAVR samples underwent multimodality imaging, and hydrodynamic evaluation before and after BVF.

Results: A high implantation was required to enable full expansion of the upper crown of the ACURATE neo and allow optimal leaflet function. Marked underexpansion of the lower crown of the THV within the surgical valve was also observed. Before BVF, VIV TAVR in the 19-mm Mitroflow had high transvalvular gradients using either THV design (22.0 mm Hg S3, and 19.1 mm Hg ACURATE neo). After BVF, gradients improved and were similar for both THVs (14.2 mm Hg S3, and 13.8 mm Hg ACURATE neo). The effective orifice area increased with BVF from 1.2 to 1.6 cm2 with the S3 and from 1.4 to 1.6 cm2 with the ACURATE neo. Before BVF, VIV TAVR with the ACURATE neo in the 21-mm Mitroflow had lower gradients compared with S3 (11.3 mm Hg vs. 16 mm Hg). However, after BVF valve gradients were similar for both THVs (8.4 mm Hg ACURATE neo vs. 7.8 mm Hg S3). The effective orifice area increased from 1.5 to 2.1 cm2 with the S3 and from 1.8 to 2.2 cm2 with the ACURATE neo.

Conclusions: BVF performed after VIV TAVR results in improved residual gradients. Following BVF, residual gradients were similar irrespective of THV design. Use of a small ACURATE neo for VIV TAVR in small (≤21 mm) surgical valves may be associated with challenges in achieving optimum THV position and expansion. BVF could be considered in selected clinical cases.

Keywords: bioprosthetic valve fracture; transcatheter heart valve; valve-in-valve.

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