Anatomical and Technical Predictors of Three-Dimensional Mitral Valve Area Reduction After Transcatheter Edge-To-Edge Repair

Mohammad Kassar; Fabien Praz; Lukas Hunziker; Thomas Pilgrim; Stephan Windecker; Christian Seiler; Nicolas Brugger

doi:10.1016/j.echo.2021.08.021

Anatomical and Technical Predictors of Three-Dimensional Mitral Valve Area Reduction After Transcatheter Edge-To-Edge Repair

J Am Soc Echocardiogr. 2022 Jan;35(1):96-104. doi: 10.1016/j.echo.2021.08.021. Epub 2021 Oct 11.

Authors

Mohammad Kassar¹, Fabien Praz¹, Lukas Hunziker¹, Thomas Pilgrim¹, Stephan Windecker¹, Christian Seiler¹, Nicolas Brugger²

Affiliations

¹ Department of Cardiology, Bern University Hospital, Inselspital, University of Bern, Bern, Switzerland.
² Department of Cardiology, Bern University Hospital, Inselspital, University of Bern, Bern, Switzerland. Electronic address: nicolas.brugger@insel.ch.

PMID: 34506920
DOI: 10.1016/j.echo.2021.08.021

Abstract

Background: Among current transcatheter therapies for the treatment of mitral regurgitation, the MitraClip (MC; Abbott Vascular, Abbott Park, IL) system is the most commonly used. MitraClip implantation is usually contraindicated in patients with a mitral valve area (MVA) < 4.0 cm². However, little is known about the real impact of MC implantation on MVA. Our goal was to investigate the factors influencing MVA reduction and derive the minimal MVA required to prevent the development of a clinically significant mitral stenosis (MVA < 1.5 cm²) in different clinical scenarios.

Methods: Using three-dimensional data sets, the annulus and leaflet anatomy and MVA before clip implantation (MVA_BC) were assessed. After each MC implant (NTR or XTR), the relative MVA reduction and the absolute residual MVA were measured and their predictors evaluated.

Results: The present analysis included 116 patients. An MC XTR was the first device implanted in 50% of the subjects, and 53% were treated with a single implant. The MVA reduction following one XTR was 57% ± 7% versus 52% ± 8% after one NTR (P = .001). A lower MVA reduction was observed when the MC was placed commissural/central versus paracentral (50% ± 8% vs 57% ± 7%, P < .0001). After a second device, the additional MVA reduction was higher when creating a triple-compared with a double-orifice morphology (34% ± 11% vs 25% ± 9%, P = .001). The MVA after one MC correlated with MVA_BC as well as with the clip type and position (r = 0.91, P < .0001). The MVA_BC, orifice morphology, and first device position predicted MVA after two implants (r = 0.82, P < .0001). Based on the mathematical relationship between these parameters, the minimal MVA_BC needed in eight different clinical scenarios was summarized in a decision algorithm: the values ranged from 3.5 to 4.7 cm² for one and 4.5 to 6.3 cm² for two MC strategies.

Conclusions: The minimal native MVA preventing clinically relevant MS after transcatheter edge-to-edge repair is predicted by the number and location of clip(s), orifice morphology, and device type. Based on these parameters, an algorithm has been derived to optimize patient selection and preprocedural planning.

Keywords: Latrogenic mitral stenosis; MitraClip; Mitral valve area; Three-dimensional echocardiography; Transcatheter edge-to-edge repair.

MeSH terms

Cardiac Catheterization
Heart Valve Prosthesis Implantation*
Humans
Mitral Valve / diagnostic imaging
Mitral Valve / surgery
Mitral Valve Insufficiency* / diagnostic imaging
Mitral Valve Insufficiency* / surgery
Treatment Outcome