Review

. 2022 Jul;11(4):389-401.

doi: 10.21037/acs-2022-bav-20.

Transcatheter aortic valve replacement for bicuspid aortic valve disease: does conventional surgery have a future?

Breandan B Yeats¹, Pradeep K Yadav², Lakshmi P Dasi¹, Vinod H Thourani³

Affiliations

¹ Department of Biomedical Engineering, Georgia Institute of Technology and Emory University, Atlanta, GA, USA.
² Department of Cardiology, Marcus Valve Center, Piedmont Heart Institute, Atlanta, GA, USA.
³ Department of Cardiovascular Surgery, Marcus Valve Center, Piedmont Heart Institute, Atlanta, GA, USA.

PMID: 35958538
PMCID: PMC9357960
DOI: 10.21037/acs-2022-bav-20

Review

Transcatheter aortic valve replacement for bicuspid aortic valve disease: does conventional surgery have a future?

Breandan B Yeats et al. Ann Cardiothorac Surg. 2022 Jul.

. 2022 Jul;11(4):389-401.

doi: 10.21037/acs-2022-bav-20.

Authors

Breandan B Yeats¹, Pradeep K Yadav², Lakshmi P Dasi¹, Vinod H Thourani³

Affiliations

¹ Department of Biomedical Engineering, Georgia Institute of Technology and Emory University, Atlanta, GA, USA.
² Department of Cardiology, Marcus Valve Center, Piedmont Heart Institute, Atlanta, GA, USA.
³ Department of Cardiovascular Surgery, Marcus Valve Center, Piedmont Heart Institute, Atlanta, GA, USA.

PMID: 35958538
PMCID: PMC9357960
DOI: 10.21037/acs-2022-bav-20

Abstract

Bicuspid aortic valve (BAV) disease is the most common form of congenital heart valve defect. It is associated with aortic stenosis (AS), aortic insufficiency, and aortopathy. Treatment of severe AS requires valve replacement which historically has been performed with surgical aortic valve replacement (SAVR). Recently, transcatheter aortic valve replacement (TAVR) has emerged as a promising alternative. However, increased rates of adverse outcomes following TAVR have been shown in BAV patients with high amounts of calcification. Comparison between TAVR and SAVR in low surgical risk BAV patients in a randomized trial has not been performed and TAVR for BAV long-term performance is unknown due to lack of clinical data. Due to the complexity of BAV anatomies and the significant knowledge gap from the lack of clinical data, SAVR still has many benefits over TAVR in low surgical risk BAV patients. It also remains common for BAV patients to have an aortopathy, which currently can be treated with surgical techniques. This review aims to outline BAV associated diseases and their treatment strategies, the main TAVR adverse outcomes associated with anatomically complex BAV patients, TAVR strategies for mitigating these risks and the current state of cutting-edge 3D printing and computer modeling screening methods that can provide otherwise unobtainable preoperative information during the BAV patient selection process for TAVR.

Keywords: Transcatheter aortic valve replacement (TAVR); bicuspid aortic valve disease; surgical aortic valve replacement (SAVR).

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Conflict of interest statement

Conflicts of Interest: BBY has a patent pending as co-inventor of patents related to computational predictive modeling of heart valves. PKY: consultant for Edwards Lifesciences, Medtronic Inc., Abbott Vascular, Shockwave Medical. VHT: consultant or research with Abbott Vascular, Boston Scientific, Cryolife, Edwards Lifesciences, Medtronic Corp., and Shockwave Medical and stakeholder in Dasi Simulations. LPD: stakeholder in Dasi Simulations, and has a patent pending as co-inventor of patents related to computational predictive modeling of heart valves.

Figures

**Figure 1**
BAV classification scheme factoring valve shape consisting of tricommissural, bicommissural raphe-type, and bicommissural non-raphe-type groups with coronary cusp fusion and mixed cusp fusion subgroups (6). Reprinted by permission from Elsevier (6). BAV, bicuspid aortic valve.

**Figure 2**
Study performed by Yoon *et al.* comparing TAVR outcomes with leaflet calcification volume and distribution across BAV types with tricuspid control. Mild leaflet calcification on the top row and excess leaflet calcification on the bottom row with the tricuspid control, non-raphe BAV, noncalcified raphe BAV, and calcified raphe BAV from left to right. Excess leaflet and raphe calcification BAV had highest rates of PVR and aortic root rupture following TAVR. Reprinted by permission from Elsevier (13). TAVR, transcatheter aortic valve replacement; BAV, bicuspid aortic valve; PVR, paravalvular regurgitation.

**Figure 3**
PVR and aortic root rupture risk factors in BAV patients. Isolated PVR risks including valve undersizing/underexpansion, absence of post balloon dilation, native elliptical opening, isolated aortic root rupture risk factors including oversizing/overexpansion, post balloon dilation, and low tissue compliance, and factors increasing both risks including excess leaflet calcification and presence of a calcific raphe. PVR, paravalvular regurgitation; BAV, bicuspid aortic valve.

**Figure 4**
Hemodynamics of asymmetrical stent deployments commonly seen post TAVR in BAV patients. Eccentric deployment showing a localized area of high Reynolds shear stress and a region of elevated turbulence intensity compared to the circular case (left), tilted deployment with respect to the native sinus showing increased fluid residence in the sinus that the TAV is tilted away from (right), and underexpanded deployment showing increased leaflet folding and increased neo-sinus blood residence time (bottom) (35-37). The images included in this figure are reprinted with the source acknowledged as following: Left: reprinted by permission from Springer Nature (35); right: reprinted by permission from Springer Nature (37); bottom: reprinted by permission from Oxford University Press and European Association for Cardio-Thoracic Surgery (EACTS) (36). TAVR, transcatheter aortic valve replacement; BAV, bicuspid aortic valve; TAV, transcatheter aortic valve.

**Figure 5**
Current and future state of computer modeling for TAVR outcome prediction. Anatomical reconstruction, stent deployment and risk assessment for coronary obstruction and PVR (top) and future fluid-structure interaction approach modeling hemodynamics assessing blood flow and bioprosthetic leaflet strain after deployment (bottom). Reprinted by permission from Elsevier (57). TAVR, transcatheter aortic valve replacement; PVR, paravalvular regurgitation; MIPE, maximum in-plane strain.

**Video**
Transcatheter aortic valve replacement (TAVR) for bicuspid aortic valve disease: does conventional surgery have a future?

See this image and copyright information in PMC

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Transcatheter aortic valve replacement for bicuspid aortic valve disease: does conventional surgery have a future?

Affiliations

Transcatheter aortic valve replacement for bicuspid aortic valve disease: does conventional surgery have a future?

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Conflict of interest statement

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