Emerging Trends in Heart Valve Engineering: Part III. Novel Technologies for Mitral Valve Repair and Replacement

Arash Kheradvar; Elliott M. Groves; Craig A. Simmons; Boyce Griffith; S. Hamed Alavi; Robert Tranquillo; Lakshmi P. Dasi; Ahmad Falahatpisheh; K. Jane Grande-Allen; Craig J. Goergen; Mohammad R K Mofrad; Frank Baaijens; Suncica Canic; Stephen H. Little

doi:10.1007/s10439-014-1129-y

Emerging Trends in Heart Valve Engineering: Part III. Novel Technologies for Mitral Valve Repair and Replacement

Arash Kheradvar, Elliott M. Groves, Craig A. Simmons, Boyce Griffith, S. Hamed Alavi, Robert Tranquillo, Lakshmi P. Dasi, Ahmad Falahatpisheh, K. Jane Grande-Allen, Craig J. Goergen, Mohammad R K Mofrad, Frank Baaijens, Suncica Canic, Stephen H. Little

Research output: Contribution to journal › Review article › peer-review

39 Scopus citations

Abstract

In this portion of an extensive review of heart valve engineering, we focus on the current and emerging technologies and techniques to repair or replace the mitral valve. We begin with a discussion of the currently available mechanical and bioprosthetic mitral valves followed by the rationale and limitations of current surgical mitral annuloplasty methods; a discussion of the technique of neo-chordae fabrication and implantation; a review the procedures and clinical results for catheter-based mitral leaflet repair; a highlight of the motivation for and limitations of catheter-based annular reduction therapies; and introduce the early generation devices for catheter-based mitral valve replacement.

Original language	English (US)
Pages (from-to)	858-870
Number of pages	13
Journal	Annals of Biomedical Engineering
Volume	43
Issue number	4
DOIs	https://doi.org/10.1007/s10439-014-1129-y
State	Published - Apr 1 2015

Bibliographical note

Publisher Copyright:
© 2014, Biomedical Engineering Society.

Keywords

Heart valve engineering
Mitral valve repair
Mitral valve replacement
Transcatheter mitral valve

Publisher link

10.1007/s10439-014-1129-y

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Kheradvar, A., Groves, E. M., Simmons, C. A., Griffith, B., Alavi, S. H., Tranquillo, R., Dasi, L. P., Falahatpisheh, A., Grande-Allen, K. J., Goergen, C. J., Mofrad, M. R. K., Baaijens, F., Canic, S., & Little, S. H. (2015). Emerging Trends in Heart Valve Engineering: Part III. Novel Technologies for Mitral Valve Repair and Replacement. Annals of Biomedical Engineering, 43(4), 858-870. https://doi.org/10.1007/s10439-014-1129-y

Kheradvar, A, Groves, EM, Simmons, CA, Griffith, B, Alavi, SH, Tranquillo, R, Dasi, LP, Falahatpisheh, A, Grande-Allen, KJ, Goergen, CJ, Mofrad, MRK, Baaijens, F, Canic, S & Little, SH 2015, 'Emerging Trends in Heart Valve Engineering: Part III. Novel Technologies for Mitral Valve Repair and Replacement', Annals of Biomedical Engineering, vol. 43, no. 4, pp. 858-870. https://doi.org/10.1007/s10439-014-1129-y

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title = "Emerging Trends in Heart Valve Engineering: Part III. Novel Technologies for Mitral Valve Repair and Replacement",

abstract = "In this portion of an extensive review of heart valve engineering, we focus on the current and emerging technologies and techniques to repair or replace the mitral valve. We begin with a discussion of the currently available mechanical and bioprosthetic mitral valves followed by the rationale and limitations of current surgical mitral annuloplasty methods; a discussion of the technique of neo-chordae fabrication and implantation; a review the procedures and clinical results for catheter-based mitral leaflet repair; a highlight of the motivation for and limitations of catheter-based annular reduction therapies; and introduce the early generation devices for catheter-based mitral valve replacement.",

keywords = "Heart valve engineering, Mitral valve repair, Mitral valve replacement, Transcatheter mitral valve",

author = "Arash Kheradvar and Groves, {Elliott M.} and Simmons, {Craig A.} and Boyce Griffith and Alavi, {S. Hamed} and Robert Tranquillo and Dasi, {Lakshmi P.} and Ahmad Falahatpisheh and Grande-Allen, {K. Jane} and Goergen, {Craig J.} and Mofrad, {Mohammad R K} and Frank Baaijens and Suncica Canic and Little, {Stephen H.}",

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doi = "10.1007/s10439-014-1129-y",

language = "English (US)",

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AU - Griffith, Boyce

AU - Alavi, S. Hamed

AU - Tranquillo, Robert

AU - Dasi, Lakshmi P.

AU - Falahatpisheh, Ahmad

AU - Grande-Allen, K. Jane

AU - Goergen, Craig J.

AU - Mofrad, Mohammad R K

AU - Baaijens, Frank

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AU - Little, Stephen H.

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N2 - In this portion of an extensive review of heart valve engineering, we focus on the current and emerging technologies and techniques to repair or replace the mitral valve. We begin with a discussion of the currently available mechanical and bioprosthetic mitral valves followed by the rationale and limitations of current surgical mitral annuloplasty methods; a discussion of the technique of neo-chordae fabrication and implantation; a review the procedures and clinical results for catheter-based mitral leaflet repair; a highlight of the motivation for and limitations of catheter-based annular reduction therapies; and introduce the early generation devices for catheter-based mitral valve replacement.

AB - In this portion of an extensive review of heart valve engineering, we focus on the current and emerging technologies and techniques to repair or replace the mitral valve. We begin with a discussion of the currently available mechanical and bioprosthetic mitral valves followed by the rationale and limitations of current surgical mitral annuloplasty methods; a discussion of the technique of neo-chordae fabrication and implantation; a review the procedures and clinical results for catheter-based mitral leaflet repair; a highlight of the motivation for and limitations of catheter-based annular reduction therapies; and introduce the early generation devices for catheter-based mitral valve replacement.

KW - Heart valve engineering

KW - Mitral valve repair

KW - Mitral valve replacement

KW - Transcatheter mitral valve

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Emerging Trends in Heart Valve Engineering: Part III. Novel Technologies for Mitral Valve Repair and Replacement

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