Transcatheter Therapies for the Treatment of Valvular and Paravalvular Regurgitation in Acquired and Congenital Valvular Heart Disease

Carlos E. Ruiz; Chad Kliger; Gila Perk; Francesco Maisano; Allison K. Cabalka; Michael Landzberg; Chet Rihal; Itzhak Kronzon

doi:10.1016/j.jacc.2015.05.034

Transcatheter Therapies for the Treatment of Valvular and Paravalvular Regurgitation in Acquired and Congenital Valvular Heart Disease

Carlos E. Ruiz, Chad Kliger, Gila Perk, Francesco Maisano, Allison K. Cabalka, Michael Landzberg, Chet Rihal, Itzhak Kronzon

Cardiovascular Medicine

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

20 Scopus citations

Abstract

Transcatheter therapies in structural heart disease have evolved tremendously over the past 15 years. Since the introduction of the first balloon-expandable valves for stenotic lesions with implantation in the pulmonic position in 2000, treatment for valvular heart disease in the outflow position has become more refined, with newer-generation devices, alternative techniques, and novel access approaches. Recent efforts into the inflow position and regurgitant lesions, with transcatheter repair and replacement technologies, have expanded our potential to treat a broader, more heterogeneous patient population. The evolution of multimodality imaging has paralleled these developments. Three- and 4-dimensional visualization and concomitant use of novel technologies, such as fusion imaging, have supported technical growth, from pre-procedural planning and intraprocedural guidance, to assessment of acute results and follow-up. A multimodality approach has allowed operators to overcome many limitations of each modality and facilitated integration of a multidisciplinary team for treatment of this complex patient population.

Original language	English (US)
Article number	21378
Pages (from-to)	169-183
Number of pages	15
Journal	Journal of the American College of Cardiology
Volume	66
Issue number	2
DOIs	https://doi.org/10.1016/j.jacc.2015.05.034
State	Published - Jul 14 2015

Keywords

aortic regurgitation
mitral regurgitation
pulmonic regurgitation
transcatheter valve technology
tricuspid regurgitation

ASJC Scopus subject areas

Cardiology and Cardiovascular Medicine

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10.1016/j.jacc.2015.05.034

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@article{abb9033e82af4b7f8918dff2ec6eb808,

title = "Transcatheter Therapies for the Treatment of Valvular and Paravalvular Regurgitation in Acquired and Congenital Valvular Heart Disease",

abstract = "Transcatheter therapies in structural heart disease have evolved tremendously over the past 15 years. Since the introduction of the first balloon-expandable valves for stenotic lesions with implantation in the pulmonic position in 2000, treatment for valvular heart disease in the outflow position has become more refined, with newer-generation devices, alternative techniques, and novel access approaches. Recent efforts into the inflow position and regurgitant lesions, with transcatheter repair and replacement technologies, have expanded our potential to treat a broader, more heterogeneous patient population. The evolution of multimodality imaging has paralleled these developments. Three- and 4-dimensional visualization and concomitant use of novel technologies, such as fusion imaging, have supported technical growth, from pre-procedural planning and intraprocedural guidance, to assessment of acute results and follow-up. A multimodality approach has allowed operators to overcome many limitations of each modality and facilitated integration of a multidisciplinary team for treatment of this complex patient population.",

keywords = "aortic regurgitation, mitral regurgitation, pulmonic regurgitation, transcatheter valve technology, tricuspid regurgitation",

author = "Ruiz, {Carlos E.} and Chad Kliger and Gila Perk and Francesco Maisano and Cabalka, {Allison K.} and Michael Landzberg and Chet Rihal and Itzhak Kronzon",

note = "Funding Information: Dr. Ruiz has received research grants from Philips and St. Jude Medical; has received speaker honoraria from Philips and St. Jude Medical; has served as a consultant for Valtech and Sorin; and is a shareholder in MitrAssist. Dr. Kliger has received speaker honoraria from Philips Healthcare and St. Jude Medical. Dr. Maisano has received consultant fees from Abbott Vascular, Valtech Cardio, Medtronic, Direct Flow Medical, St. Jude Medical, and 4TECH Cardio Ltd. (of which he is a cofounder); has received educational grants from Abbott Vascular, Valtech Cardio, Medtronic, Direct Flow Medical, and St. Jude Medical; and receives royalties from Edwards Lifesciences. Dr. Rihal has received research grants from Abbott and Edwards Lifesciences; and has received consultant fees from Abbot and St. Jude Medical. Dr. Kronzon has received consultant fees from Philips Healthcare and St. Jude Medical; and has received speaker honoraria from Philips Healthcare. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose. Publisher Copyright: {\textcopyright} 2015 American College of Cardiology Foundation.",

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language = "English (US)",

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AU - Ruiz, Carlos E.

AU - Kliger, Chad

AU - Perk, Gila

AU - Maisano, Francesco

AU - Cabalka, Allison K.

AU - Landzberg, Michael

AU - Rihal, Chet

AU - Kronzon, Itzhak

N1 - Funding Information: Dr. Ruiz has received research grants from Philips and St. Jude Medical; has received speaker honoraria from Philips and St. Jude Medical; has served as a consultant for Valtech and Sorin; and is a shareholder in MitrAssist. Dr. Kliger has received speaker honoraria from Philips Healthcare and St. Jude Medical. Dr. Maisano has received consultant fees from Abbott Vascular, Valtech Cardio, Medtronic, Direct Flow Medical, St. Jude Medical, and 4TECH Cardio Ltd. (of which he is a cofounder); has received educational grants from Abbott Vascular, Valtech Cardio, Medtronic, Direct Flow Medical, and St. Jude Medical; and receives royalties from Edwards Lifesciences. Dr. Rihal has received research grants from Abbott and Edwards Lifesciences; and has received consultant fees from Abbot and St. Jude Medical. Dr. Kronzon has received consultant fees from Philips Healthcare and St. Jude Medical; and has received speaker honoraria from Philips Healthcare. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose. Publisher Copyright: © 2015 American College of Cardiology Foundation.

PY - 2015/7/14

Y1 - 2015/7/14

N2 - Transcatheter therapies in structural heart disease have evolved tremendously over the past 15 years. Since the introduction of the first balloon-expandable valves for stenotic lesions with implantation in the pulmonic position in 2000, treatment for valvular heart disease in the outflow position has become more refined, with newer-generation devices, alternative techniques, and novel access approaches. Recent efforts into the inflow position and regurgitant lesions, with transcatheter repair and replacement technologies, have expanded our potential to treat a broader, more heterogeneous patient population. The evolution of multimodality imaging has paralleled these developments. Three- and 4-dimensional visualization and concomitant use of novel technologies, such as fusion imaging, have supported technical growth, from pre-procedural planning and intraprocedural guidance, to assessment of acute results and follow-up. A multimodality approach has allowed operators to overcome many limitations of each modality and facilitated integration of a multidisciplinary team for treatment of this complex patient population.

AB - Transcatheter therapies in structural heart disease have evolved tremendously over the past 15 years. Since the introduction of the first balloon-expandable valves for stenotic lesions with implantation in the pulmonic position in 2000, treatment for valvular heart disease in the outflow position has become more refined, with newer-generation devices, alternative techniques, and novel access approaches. Recent efforts into the inflow position and regurgitant lesions, with transcatheter repair and replacement technologies, have expanded our potential to treat a broader, more heterogeneous patient population. The evolution of multimodality imaging has paralleled these developments. Three- and 4-dimensional visualization and concomitant use of novel technologies, such as fusion imaging, have supported technical growth, from pre-procedural planning and intraprocedural guidance, to assessment of acute results and follow-up. A multimodality approach has allowed operators to overcome many limitations of each modality and facilitated integration of a multidisciplinary team for treatment of this complex patient population.

KW - aortic regurgitation

KW - mitral regurgitation

KW - pulmonic regurgitation

KW - transcatheter valve technology

KW - tricuspid regurgitation

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Transcatheter Therapies for the Treatment of Valvular and Paravalvular Regurgitation in Acquired and Congenital Valvular Heart Disease

Abstract

Keywords

ASJC Scopus subject areas

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