Dominant frequency increase rate predicts transition from paroxysmal to long-term persistent atrial fibrillation

Raphael P. Martins; Kuljeet Kaur; Elliot Hwang; Rafael J. Ramirez; B. Cicero Willis; David Filgueiras-Rama; Steven R. Ennis; Yoshio Takemoto; Daniela Ponce-Balbuena; Manuel Zarzoso; Ryan P. O'Connell; Hassan Musa; Guadalupe Guerrero-Serna; Uma Mahesh R. Avula; Michael F. Swartz; Sandesh Bhushal; Makarand Deo; Sandeep V. Pandit; Omer Berenfeld; José Jalife

doi:10.1161/CIRCULATIONAHA.113.004742

Dominant frequency increase rate predicts transition from paroxysmal to long-term persistent atrial fibrillation

Raphael P. Martins, Kuljeet Kaur, Elliot Hwang, Rafael J. Ramirez, B. Cicero Willis, David Filgueiras-Rama, Steven R. Ennis, Yoshio Takemoto, Daniela Ponce-Balbuena, Manuel Zarzoso, Ryan P. O'Connell, Hassan Musa, Guadalupe Guerrero-Serna, Uma Mahesh R. Avula, Michael F. Swartz, Sandesh Bhushal, Makarand Deo, Sandeep V. Pandit, Omer Berenfeld, José Jalife

Research output: Contribution to journal › Article › peer-review

Abstract

Background-: Little is known about the mechanisms underlying the transition from paroxysmal to persistent atrial fibrillation (AF). In an ovine model of long-standing persistent AF we tested the hypothesis that the rate of electric and structural remodeling, assessed by dominant frequency (DF) changes, determines the time at which AF becomes persistent. Methods and Results-: Self-sustained AF was induced by atrial tachypacing. Seven sheep were euthanized 11.5±2.3 days after the transition to persistent AF and without reversal to sinus rhythm; 7 sheep were euthanized after 341.3±16.7 days of long-standing persistent AF. Seven sham-operated animals were in sinus rhythm for 1 year. DF was monitored continuously in each group. Real-time polymerase chain reaction, Western blotting, patch clamping, and histological analyses were used to determine the changes in functional ion channel expression and structural remodeling. Atrial dilatation, mitral valve regurgitation, myocyte hypertrophy, and atrial fibrosis occurred progressively and became statistically significant after the transition to persistent AF, with no evidence for left ventricular dysfunction. DF increased progressively during the paroxysmal-to-persistent AF transition and stabilized when AF became persistent. Importantly, the rate of DF increase correlated strongly with the time to persistent AF. Significant action potential duration abbreviation, secondary to functional ion channel protein expression changes (CaV1.2, NaV1.5, and KV4.2 decrease; Kir2.3 increase), was already present at the transition and persisted for 1 year of follow up. Conclusions-: In the sheep model of long-standing persistent AF, the rate of DF increase predicts the time at which AF stabilizes and becomes persistent, reflecting changes in action potential duration and densities of sodium, L-type calcium, and inward rectifier currents.

Original language	English (US)
Pages (from-to)	1472-1482
Number of pages	11
Journal	Circulation
Volume	129
Issue number	14
DOIs	https://doi.org/10.1161/CIRCULATIONAHA.113.004742
State	Published - Apr 8 2014
Externally published	Yes

Keywords

atrial fibrillation
electrophysiological
fibrosis
ion channels
refractory period

ASJC Scopus subject areas

Cardiology and Cardiovascular Medicine
Physiology (medical)

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10.1161/CIRCULATIONAHA.113.004742

Cite this

Martins, R. P., Kaur, K., Hwang, E., Ramirez, R. J., Willis, B. C., Filgueiras-Rama, D., Ennis, S. R., Takemoto, Y., Ponce-Balbuena, D., Zarzoso, M., O'Connell, R. P., Musa, H., Guerrero-Serna, G., Avula, U. M. R., Swartz, M. F., Bhushal, S., Deo, M., Pandit, S. V., Berenfeld, O., & Jalife, J. (2014). Dominant frequency increase rate predicts transition from paroxysmal to long-term persistent atrial fibrillation. Circulation, 129(14), 1472-1482. https://doi.org/10.1161/CIRCULATIONAHA.113.004742

Martins, RP, Kaur, K, Hwang, E, Ramirez, RJ, Willis, BC, Filgueiras-Rama, D, Ennis, SR, Takemoto, Y, Ponce-Balbuena, D, Zarzoso, M, O'Connell, RP, Musa, H, Guerrero-Serna, G, Avula, UMR, Swartz, MF, Bhushal, S, Deo, M, Pandit, SV, Berenfeld, O & Jalife, J 2014, 'Dominant frequency increase rate predicts transition from paroxysmal to long-term persistent atrial fibrillation', Circulation, vol. 129, no. 14, pp. 1472-1482. https://doi.org/10.1161/CIRCULATIONAHA.113.004742

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title = "Dominant frequency increase rate predicts transition from paroxysmal to long-term persistent atrial fibrillation",

abstract = "Background-: Little is known about the mechanisms underlying the transition from paroxysmal to persistent atrial fibrillation (AF). In an ovine model of long-standing persistent AF we tested the hypothesis that the rate of electric and structural remodeling, assessed by dominant frequency (DF) changes, determines the time at which AF becomes persistent. Methods and Results-: Self-sustained AF was induced by atrial tachypacing. Seven sheep were euthanized 11.5±2.3 days after the transition to persistent AF and without reversal to sinus rhythm; 7 sheep were euthanized after 341.3±16.7 days of long-standing persistent AF. Seven sham-operated animals were in sinus rhythm for 1 year. DF was monitored continuously in each group. Real-time polymerase chain reaction, Western blotting, patch clamping, and histological analyses were used to determine the changes in functional ion channel expression and structural remodeling. Atrial dilatation, mitral valve regurgitation, myocyte hypertrophy, and atrial fibrosis occurred progressively and became statistically significant after the transition to persistent AF, with no evidence for left ventricular dysfunction. DF increased progressively during the paroxysmal-to-persistent AF transition and stabilized when AF became persistent. Importantly, the rate of DF increase correlated strongly with the time to persistent AF. Significant action potential duration abbreviation, secondary to functional ion channel protein expression changes (CaV1.2, NaV1.5, and KV4.2 decrease; Kir2.3 increase), was already present at the transition and persisted for 1 year of follow up. Conclusions-: In the sheep model of long-standing persistent AF, the rate of DF increase predicts the time at which AF stabilizes and becomes persistent, reflecting changes in action potential duration and densities of sodium, L-type calcium, and inward rectifier currents.",

keywords = "atrial fibrillation, electrophysiological, fibrosis, ion channels, refractory period",

author = "Martins, {Raphael P.} and Kuljeet Kaur and Elliot Hwang and Ramirez, {Rafael J.} and Willis, {B. Cicero} and David Filgueiras-Rama and Ennis, {Steven R.} and Yoshio Takemoto and Daniela Ponce-Balbuena and Manuel Zarzoso and O'Connell, {Ryan P.} and Hassan Musa and Guadalupe Guerrero-Serna and Avula, {Uma Mahesh R.} and Swartz, {Michael F.} and Sandesh Bhushal and Makarand Deo and Pandit, {Sandeep V.} and Omer Berenfeld and Jos{\'e} Jalife",

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doi = "10.1161/CIRCULATIONAHA.113.004742",

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T1 - Dominant frequency increase rate predicts transition from paroxysmal to long-term persistent atrial fibrillation

AU - Martins, Raphael P.

AU - Kaur, Kuljeet

AU - Hwang, Elliot

AU - Ramirez, Rafael J.

AU - Willis, B. Cicero

AU - Filgueiras-Rama, David

AU - Ennis, Steven R.

AU - Takemoto, Yoshio

AU - Ponce-Balbuena, Daniela

AU - Zarzoso, Manuel

AU - O'Connell, Ryan P.

AU - Musa, Hassan

AU - Guerrero-Serna, Guadalupe

AU - Avula, Uma Mahesh R.

AU - Swartz, Michael F.

AU - Bhushal, Sandesh

AU - Deo, Makarand

AU - Pandit, Sandeep V.

AU - Berenfeld, Omer

AU - Jalife, José

PY - 2014/4/8

Y1 - 2014/4/8

N2 - Background-: Little is known about the mechanisms underlying the transition from paroxysmal to persistent atrial fibrillation (AF). In an ovine model of long-standing persistent AF we tested the hypothesis that the rate of electric and structural remodeling, assessed by dominant frequency (DF) changes, determines the time at which AF becomes persistent. Methods and Results-: Self-sustained AF was induced by atrial tachypacing. Seven sheep were euthanized 11.5±2.3 days after the transition to persistent AF and without reversal to sinus rhythm; 7 sheep were euthanized after 341.3±16.7 days of long-standing persistent AF. Seven sham-operated animals were in sinus rhythm for 1 year. DF was monitored continuously in each group. Real-time polymerase chain reaction, Western blotting, patch clamping, and histological analyses were used to determine the changes in functional ion channel expression and structural remodeling. Atrial dilatation, mitral valve regurgitation, myocyte hypertrophy, and atrial fibrosis occurred progressively and became statistically significant after the transition to persistent AF, with no evidence for left ventricular dysfunction. DF increased progressively during the paroxysmal-to-persistent AF transition and stabilized when AF became persistent. Importantly, the rate of DF increase correlated strongly with the time to persistent AF. Significant action potential duration abbreviation, secondary to functional ion channel protein expression changes (CaV1.2, NaV1.5, and KV4.2 decrease; Kir2.3 increase), was already present at the transition and persisted for 1 year of follow up. Conclusions-: In the sheep model of long-standing persistent AF, the rate of DF increase predicts the time at which AF stabilizes and becomes persistent, reflecting changes in action potential duration and densities of sodium, L-type calcium, and inward rectifier currents.

AB - Background-: Little is known about the mechanisms underlying the transition from paroxysmal to persistent atrial fibrillation (AF). In an ovine model of long-standing persistent AF we tested the hypothesis that the rate of electric and structural remodeling, assessed by dominant frequency (DF) changes, determines the time at which AF becomes persistent. Methods and Results-: Self-sustained AF was induced by atrial tachypacing. Seven sheep were euthanized 11.5±2.3 days after the transition to persistent AF and without reversal to sinus rhythm; 7 sheep were euthanized after 341.3±16.7 days of long-standing persistent AF. Seven sham-operated animals were in sinus rhythm for 1 year. DF was monitored continuously in each group. Real-time polymerase chain reaction, Western blotting, patch clamping, and histological analyses were used to determine the changes in functional ion channel expression and structural remodeling. Atrial dilatation, mitral valve regurgitation, myocyte hypertrophy, and atrial fibrosis occurred progressively and became statistically significant after the transition to persistent AF, with no evidence for left ventricular dysfunction. DF increased progressively during the paroxysmal-to-persistent AF transition and stabilized when AF became persistent. Importantly, the rate of DF increase correlated strongly with the time to persistent AF. Significant action potential duration abbreviation, secondary to functional ion channel protein expression changes (CaV1.2, NaV1.5, and KV4.2 decrease; Kir2.3 increase), was already present at the transition and persisted for 1 year of follow up. Conclusions-: In the sheep model of long-standing persistent AF, the rate of DF increase predicts the time at which AF stabilizes and becomes persistent, reflecting changes in action potential duration and densities of sodium, L-type calcium, and inward rectifier currents.

KW - atrial fibrillation

KW - electrophysiological

KW - fibrosis

KW - ion channels

KW - refractory period

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Dominant frequency increase rate predicts transition from paroxysmal to long-term persistent atrial fibrillation

Abstract

Keywords

ASJC Scopus subject areas

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