Noninvasive Mapping of the Electrophysiological Substrate in Cardiac Amyloidosis and Its Relationship to Structural Abnormalities

BACKGROUND: The relationship between structural pathology and electrophysiological substrate in cardiac amyloidosis is unclear. Differences between light‐chain (AL) and transthyretin (ATTR) cardiac amyloidosis may have prognostic implications. METHODS AND RESULTS: ECG imaging and cardiac magnetic re...

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Autores principales: Orini, Michele, Graham, Adam J., Martinez‐Naharro, Ana, Andrews, Christopher M., de Marvao, Antonio, Statton, Ben, Cook, Stuart A., O'Regan, Declan P., Hawkins, Philip N., Rudy, Yoram, Fontana, Marianna, Lambiase, Pier D.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2019
Materias:
Original Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6818012/
https://www.ncbi.nlm.nih.gov/pubmed/31496332
http://dx.doi.org/10.1161/JAHA.119.012097
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author Orini, Michele
Graham, Adam J.
Martinez‐Naharro, Ana
Andrews, Christopher M.
de Marvao, Antonio
Statton, Ben
Cook, Stuart A.
O'Regan, Declan P.
Hawkins, Philip N.
Rudy, Yoram
Fontana, Marianna
Lambiase, Pier D.
author_facet Orini, Michele
Graham, Adam J.
Martinez‐Naharro, Ana
Andrews, Christopher M.
de Marvao, Antonio
Statton, Ben
Cook, Stuart A.
O'Regan, Declan P.
Hawkins, Philip N.
Rudy, Yoram
Fontana, Marianna
Lambiase, Pier D.
author_sort Orini, Michele
collection PubMed
description BACKGROUND: The relationship between structural pathology and electrophysiological substrate in cardiac amyloidosis is unclear. Differences between light‐chain (AL) and transthyretin (ATTR) cardiac amyloidosis may have prognostic implications. METHODS AND RESULTS: ECG imaging and cardiac magnetic resonance studies were conducted in 21 cardiac amyloidosis patients (11 AL and 10 ATTR). Healthy volunteers were included as controls. With respect to ATTR, AL patients had lower amyloid volume (51.0/37.7 versus 73.7/16.4 mL, P=0.04), lower myocardial cell volume (42.6/19.1 versus 58.5/17.2 mL, P=0.021), and higher T1 (1172/64 versus 1109/80 ms, P=0.022) and T2 (53.4/2.9 versus 50.0/3.1 ms, P=0.003). ECG imaging revealed differences between cardiac amyloidosis and control patients in virtually all conduction‐repolarization parameters. With respect to ATTR, AL patients had lower epicardial signal amplitude (1.07/0.46 versus 1.83/1.26 mV, P=0.026), greater epicardial signal fractionation (P=0.019), and slightly higher dispersion of repolarization (187.6/65 versus 158.3/40 ms, P=0.062). No significant difference between AL and ATTR patients was found using the standard 12‐lead ECG. T1 correlated with epicardial signal amplitude (cc=−0.78), and extracellular volume with epicardial signal fractionation (cc=0.48) and repolarization time (cc=0.43). Univariate models based on single features from both cardiac magnetic resonance and ECG imaging classified AL and ATTR patients with an accuracy of 70% to 80%. CONCLUSIONS: In this exploratory study cardiac amyloidosis was associated with ventricular conduction and repolarization abnormalities, which were more pronounced in AL than in ATTR. Combined ECG imaging–cardiac magnetic resonance analysis supports the hypothesis that additional mechanisms beyond infiltration may contribute to myocardial damage in AL amyloidosis. Further studies are needed to assess the clinical impact of this approach.
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spelling pubmed-68180122019-11-04 Noninvasive Mapping of the Electrophysiological Substrate in Cardiac Amyloidosis and Its Relationship to Structural Abnormalities Orini, Michele Graham, Adam J. Martinez‐Naharro, Ana Andrews, Christopher M. de Marvao, Antonio Statton, Ben Cook, Stuart A. O'Regan, Declan P. Hawkins, Philip N. Rudy, Yoram Fontana, Marianna Lambiase, Pier D. J Am Heart Assoc Original Research BACKGROUND: The relationship between structural pathology and electrophysiological substrate in cardiac amyloidosis is unclear. Differences between light‐chain (AL) and transthyretin (ATTR) cardiac amyloidosis may have prognostic implications. METHODS AND RESULTS: ECG imaging and cardiac magnetic resonance studies were conducted in 21 cardiac amyloidosis patients (11 AL and 10 ATTR). Healthy volunteers were included as controls. With respect to ATTR, AL patients had lower amyloid volume (51.0/37.7 versus 73.7/16.4 mL, P=0.04), lower myocardial cell volume (42.6/19.1 versus 58.5/17.2 mL, P=0.021), and higher T1 (1172/64 versus 1109/80 ms, P=0.022) and T2 (53.4/2.9 versus 50.0/3.1 ms, P=0.003). ECG imaging revealed differences between cardiac amyloidosis and control patients in virtually all conduction‐repolarization parameters. With respect to ATTR, AL patients had lower epicardial signal amplitude (1.07/0.46 versus 1.83/1.26 mV, P=0.026), greater epicardial signal fractionation (P=0.019), and slightly higher dispersion of repolarization (187.6/65 versus 158.3/40 ms, P=0.062). No significant difference between AL and ATTR patients was found using the standard 12‐lead ECG. T1 correlated with epicardial signal amplitude (cc=−0.78), and extracellular volume with epicardial signal fractionation (cc=0.48) and repolarization time (cc=0.43). Univariate models based on single features from both cardiac magnetic resonance and ECG imaging classified AL and ATTR patients with an accuracy of 70% to 80%. CONCLUSIONS: In this exploratory study cardiac amyloidosis was associated with ventricular conduction and repolarization abnormalities, which were more pronounced in AL than in ATTR. Combined ECG imaging–cardiac magnetic resonance analysis supports the hypothesis that additional mechanisms beyond infiltration may contribute to myocardial damage in AL amyloidosis. Further studies are needed to assess the clinical impact of this approach. John Wiley and Sons Inc. 2019-09-09 /pmc/articles/PMC6818012/ /pubmed/31496332 http://dx.doi.org/10.1161/JAHA.119.012097 Text en © 2019 The Authors. Published on behalf of the American Heart Association, Inc., by Wiley. This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Research
Orini, Michele
Graham, Adam J.
Martinez‐Naharro, Ana
Andrews, Christopher M.
de Marvao, Antonio
Statton, Ben
Cook, Stuart A.
O'Regan, Declan P.
Hawkins, Philip N.
Rudy, Yoram
Fontana, Marianna
Lambiase, Pier D.
Noninvasive Mapping of the Electrophysiological Substrate in Cardiac Amyloidosis and Its Relationship to Structural Abnormalities
title Noninvasive Mapping of the Electrophysiological Substrate in Cardiac Amyloidosis and Its Relationship to Structural Abnormalities
title_full Noninvasive Mapping of the Electrophysiological Substrate in Cardiac Amyloidosis and Its Relationship to Structural Abnormalities
title_fullStr Noninvasive Mapping of the Electrophysiological Substrate in Cardiac Amyloidosis and Its Relationship to Structural Abnormalities
title_full_unstemmed Noninvasive Mapping of the Electrophysiological Substrate in Cardiac Amyloidosis and Its Relationship to Structural Abnormalities
title_short Noninvasive Mapping of the Electrophysiological Substrate in Cardiac Amyloidosis and Its Relationship to Structural Abnormalities
title_sort noninvasive mapping of the electrophysiological substrate in cardiac amyloidosis and its relationship to structural abnormalities
topic Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6818012/
https://www.ncbi.nlm.nih.gov/pubmed/31496332
http://dx.doi.org/10.1161/JAHA.119.012097
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