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1. Multicenter Ozone Study in oldEr Subjects (MOSES): Part 2. Effects of Personal and Ambient Concentrations of Ozone and Other Pollutants on Cardiovascular and Pulmonary Function.

Author

Rich, D, Frampton, M, Bromberg, P, Hazucha, M, Thurston, S, Alexis, N, Zareba, W, Koutrakis, P, Thevenet-Morrison, K, Arjomandi, Mehrdad, Ganz, Peter, and Balmes, John

Subjects
Aged, Air Pollutants, Biomarkers, C-Reactive Protein, Cardiovascular System, Female, Humans, Male, Middle Aged, Nitrogen Dioxide, Oxidative Stress, Ozone, Respiratory Function Tests, Respiratory System
Abstract

INTRODUCTION: The Multicenter Ozone Study of oldEr Subjects (MOSES) was a multi-center study evaluating whether short-term controlled exposure of older, healthy individuals to low levels of ozone (O3) induced acute changes in cardiovascular biomarkers. In MOSES Part 1 (MOSES 1), controlled O3 exposure caused concentration-related reductions in lung function with evidence of airway inflammation and injury, but without convincing evidence of effects on cardiovascular function. However, subjects prior exposures to indoor and outdoor air pollution in the few hours and days before each MOSES controlled O3 exposure may have independently affected the study biomarkers and/or modified biomarker responses to the MOSES controlled O3 exposures. METHODS: MOSES 1 was conducted at three clinical centers (University of California San Francisco, University of North Carolina, and University of Rochester Medical Center) and included healthy volunteers 55 to 70 years of age. Consented participants who successfully completed the screening and training sessions were enrolled in the study. All three clinical centers adhered to common standard operating procedures and used common tracking and data forms. Each subject was scheduled to participate in a total of 11 visits: screening visit, training visit, and three sets of exposure visits consisting of the pre-exposure day, the exposure day, and the post-exposure day. After completing the pre-exposure day, subjects spent the night in a nearby hotel. On exposure days, the subjects were exposed for 3 hours in random order to 0 ppb O3 (clean air), 70 ppb O3, and 120 ppm O3. During the exposure period the subjects alternated between 15 minutes of moderate exercise and 15 minutes of rest. A suite of cardiovascular and pulmonary endpoints was measured on the day before, the day of, and up to 22 hours after each exposure. UNLABELLED: In MOSES Part 2 (MOSES 2), we used a longitudinal panel study design, cardiopulmonary biomarker data from MOSES 1, passive cumulative personal exposure samples (PES) of O3 and nitrogen dioxide (NO2) in the 72 hours before the pre-exposure visit, and hourly ambient air pollution and weather measurements in the 96 hours before the pre-exposure visit. We used mixed-effects linear regression and evaluated whether PES O3 and NO2 and these ambient pollutant concentrations in the 96 hours before the pre-exposure visit confounded the MOSES 1 controlled O3 exposure effects on the pre- to post-exposure biomarker changes (Aim 1), whether they modified these pre- to post-exposure biomarker responses to the controlled O3 exposures (Aim 2), whether they were associated with changes in biomarkers measured at the pre-exposure visit or morning of the exposure session (Aim 3), and whether they were associated with differences in the pre- to post-exposure biomarker changes independently of the controlled O3 exposures (Aim 4). RESULTS: Ambient pollutant concentrations at each site were low and were regularly below the National Ambient Air Quality Standard levels. In Aim 1, the controlled O3 exposure effects on the pre- to post-exposure biomarker differences were little changed when PES or ambient pollutant concentrations in the previous 96 hours were included in the model, suggesting these were not confounders of the controlled O3 exposure/biomarker difference associations. In Aim 2, effects of MOSES controlled O3 exposures on forced expiratory volume in 1 second (FEV1) and forced vital capacity (FVC) were modified by ambient NO2 and carbon monoxide (CO), and PES NO2, with reductions in FEV1 and FVC observed only when these concentrations were Medium or High in the 72 hours before the pre-exposure visit. There was no such effect modification of the effect of controlled O3 exposure on any other cardiopulmonary biomarker. UNLABELLED: As hypothesized for Aim 3, increased ambient O3 concentrations were associated with decreased pre-exposure heart rate variability (HRV). For example, high frequency (HF) HRV decreased in association with increased ambient O3 concentrations in the 96 hours before the pre-exposure visit (-0.460 ln[ms2]; 95% CI, -0.743 to -0.177 for each 10.35-ppb increase in O3; P = 0.002). However, in Aim 4 these increases in ambient O3 were also associated with increases in HF and low frequency (LF) HRV from pre- to post-exposure, likely reflecting a recovery of HRV during the MOSES O3 exposure sessions. Similar patterns across Aims 3 and 4 were observed for LF (the other primary HRV marker), and standard deviation of normal-to-normal sinus beat intervals (SDNN) and root mean square of successive differences in normal-to-normal sinus beat intervals (RMSSD) (secondary HRV markers). UNLABELLED: Similar Aim 3 and Aim 4 patterns were observed for FEV1 and FVC in association with increases in ambient PM with an aerodynamic diameter ≤ 2.5 μm (PM2.5), CO, and NO2 in the 96 hours before the pre-exposure visit. For Aim 3, small decreases in pre-exposure FEV1 were significantly associated with interquartile range (IQR) increases in PM2.5 concentrations in the 1 hour before the pre-exposure visit (-0.022 L; 95% CI, -0.037 to -0.006; P = 0.007), CO in the 3 hours before the pre-exposure visit (-0.046 L; 95% CI, -0.076 to -0.016; P = 0.003), and NO2 in the 72 hours before the pre-exposure visit (-0.030 L; 95% CI, -0.052 to -0.008; P = 0.007). However, FEV1 was not associated with ambient O3 or sulfur dioxide (SO2), or PES O3 or NO2 (Aim 3). For Aim 4, increased FEV1 across the exposure session (post-exposure minus pre-exposure) was marginally significantly associated with each 4.1-ppb increase in PES O3 concentration (0.010 L; 95% CI, 0.004 to 0.026; P = 0.010), as well as ambient PM2.5 and CO at all lag times. FVC showed similar associations, with patterns of decreased pre-exposure FVC associated with increased PM2.5, CO, and NO2 at most lag times, and increased FVC across the exposure session also associated with increased concentrations of the same pollutants, reflecting a similar recovery. However, increased pollutant concentrations were not associated with adverse changes in pre-exposure levels or pre- to post-exposure changes in biomarkers of cardiac repolarization, ST segment, vascular function, nitrotyrosine as a measure of oxidative stress, prothrombotic state, systemic inflammation, lung injury, or sputum polymorphonuclear leukocyte (PMN) percentage as a measure of airway inflammation. CONCLUSIONS: Our previous MOSES 1 findings of controlled O3 exposure effects on pulmonary function, but not on any cardiovascular biomarker, were not confounded by ambient or personal O3 or other pollutant exposures in the 96 and 72 hours before the pre-exposure visit. Further, these MOSES 1 O3 effects were generally not modified, blunted, or lessened by these same ambient and personal pollutant exposures. However, the reductions in markers of pulmonary function by the MOSES 1 controlled O3 exposure were modified by ambient NO2 and CO, and PES NO2, with reductions observed only when these pollutant concentrations were elevated in the few hours and days before the pre-exposure visit. Increased ambient O3 concentrations were associated with reduced HRV, with recovery during exposure visits. Increased ambient PM2.5, NO2, and CO were associated with reduced pulmonary function, independent of the MOSES-controlled O3 exposures. Increased pollutant concentrations were not associated with pre-exposure or pre- to post-exposure changes in other cardiopulmonary biomarkers. Future controlled exposure studies should consider the effect of ambient pollutants on pre-exposure biomarker levels and whether ambient pollutants modify any health response to a controlled pollutant exposure.

Published
2020

4. Multicenter Ozone Study in oldEr Subjects (MOSES): Part 1. Effects of Exposure to Low Concentrations of Ozone on Respiratory and Cardiovascular Outcomes.

Author

Frampton, M, Hazucha, M, Rich, D, Hollenbeck-Pringle, D, Dagincourt, N, Alexis, N, Zareba, W, Costantini, M, Bromberg, P, Stark, P, Arjomandi, Mehrdad, Ganz, Peter, and Balmes, John

Abstract

INTRODUCTION: Exposure to air pollution is a well-established risk factor for cardiovascular morbidity and mortality. Most of the evidence supporting an association between air pollution and adverse cardiovascular effects involves exposure to particulate matter (PM). To date, little attention has been paid to acute cardiovascular responses to ozone, in part due to the notion that ozone causes primarily local effects on lung function, which are the basis for the current ozone National Ambient Air Quality Standards (NAAQS). There is evidence from a few epidemiological studies of adverse health effects of chronic exposure to ambient ozone, including increased risk of mortality from cardiovascular disease. However, in contrast to the well-established association between ambient ozone and various nonfatal adverse respiratory effects, the observational evidence for impacts of acute (previous few days) increases in ambient ozone levels on total cardiovascular mortality and morbidity is mixed. UNLABELLED: Ozone is a prototypic oxidant gas that reacts with constituents of the respiratory tract lining fluid to generate reactive oxygen species (ROS) that can overwhelm antioxidant defenses and cause local oxidative stress. Pathways by which ozone could cause cardiovascular dysfunction include alterations in autonomic balance, systemic inflammation, and oxidative stress. These initial responses could lead ultimately to arrhythmias, endothelial dysfunction, acute arterial vasoconstriction, and procoagulant activity. Individuals with impaired antioxidant defenses, such as those with the null variant of glutathione S-transferase mu 1 (GSTM1), may be at increased risk for acute health effects. UNLABELLED: The Multicenter Ozone Study in oldEr Subjects (MOSES) was a controlled human exposure study designed to evaluate whether short-term exposure of older, healthy individuals to ambient levels of ozone induces acute cardiovascular responses. The study was designed to test the a priori hypothesis that short-term exposure to ambient levels of ozone would induce acute cardiovascular responses through the following mechanisms: autonomic imbalance, systemic inflammation, and development of a prothrombotic vascular state. We also postulated a priori the confirmatory hypothesis that exposure to ozone would induce airway inflammation, lung injury, and lung function decrements. Finally, we postulated the secondary hypotheses that ozone-induced acute cardiovascular responses would be associated with: (a) increased systemic oxidative stress and lung effects, and (b) the GSTM1-null genotype. METHODS: The study was conducted at three clinical centers with a separate Data Coordinating and Analysis Center (DCAC) using a common protocol. All procedures were approved by the institutional review boards (IRBs) of the participating centers. Healthy volunteers 55 to 70 years of age were recruited. Consented participants who successfully completed the screening and training sessions were enrolled in the study. All three clinical centers adhered to common standard operating procedures (SOPs) and used common tracking and data forms. Each subject was scheduled to participate in a total of 11 visits: screening visit, training visit, and three sets of exposure visits, each consisting of the pre-exposure day, the exposure day, and the post-exposure day. The subjects spent the night in a nearby hotel the night of the pre-exposure day. UNLABELLED: On exposure days, the subjects were exposed for three hours in random order to 0 ppb ozone (clean air), 70 ppb ozone, and 120 ppm ozone, alternating 15 minutes of moderate exercise with 15 minutes of rest. A suite of cardiovascular and pulmonary endpoints was measured on the day before, the day of, and up to 22 hours after, each exposure. The endpoints included: (1) electrocardiographic changes (continuous Holter monitoring: heart rate variability [HRV], repolarization, and arrhythmia); (2) markers of inflammation and oxidative stress (C-reactive protein [CRP], interleukin-6 [IL-6], 8-isoprostane, nitrotyrosine, and P-selectin); (3) vascular function measures (blood pressure [BP], flow-mediated dilatation [FMD] of the brachial artery, and endothelin-1 [ET-1]; (4) venous blood markers of platelet activation, thrombosis, and microparticle-associated tissue factor activity (MP-TFA); (5) pulmonary function (spirometry); (6) markers of airway epithelial cell injury (increases in plasma club cell protein 16 [CC16] and sputum total protein); and (7) markers of lung inflammation in sputum (polymorphonuclear leukocytes [PMN], IL-6, interleukin-8 [IL-8], and tumor necrosis factor-alpha [TNF-α]). Sputum was collected only at 22 hours after exposure. UNLABELLED: The analyses of the continuous electrocardiographic monitoring, the brachial artery ultrasound (BAU) images, and the blood and sputum samples were carried out by core laboratories. The results of all analyses were submitted directly to the DCAC. UNLABELLED: The variables analyzed in the statistical models were represented as changes from pre-exposure to post-exposure (post-exposure minus pre-exposure). Mixed-effect linear models were used to evaluate the impact of exposure to ozone on the prespecified primary and secondary continuous outcomes. Site and time (when multiple measurements were taken) were controlled for in the models. Three separate interaction models were constructed for each outcome: ozone concentration by subject sex; ozone concentration by subject age; and ozone concentration by subject GSTM1 status (null or sufficient). Because of the issue of multiple comparisons, the statistical significance threshold was set a priori at P < 0.01. RESULTS: Subject recruitment started in June 2012, and the first subject was randomized on July 25, 2012. Subject recruitment ended on December 31, 2014, and testing of all subjects was completed by April 30, 2015. A total of 87 subjects completed all three exposures. The mean age was 59.9 ± 4.5 years, 60% of the subjects were female, 88% were white, and 57% were GSTM1 null. Mean baseline body mass index (BMI), BP, cholesterol (total and low-density lipoprotein), and lung function were all within the normal range. UNLABELLED: We found no significant effects of ozone exposure on any of the primary or secondary endpoints for autonomic function, repolarization, ST segment change, or arrhythmia. Ozone exposure also did not cause significant changes in the primary endpoints for systemic inflammation (CRP) and vascular function (systolic blood pressure [SBP] and FMD) or secondary endpoints for systemic inflammation and oxidative stress (IL-6, P-selectin, and 8-isoprostane). Ozone did cause changes in two secondary endpoints: a significant increase in plasma ET-1 (P = 0.008) and a marginally significant decrease in nitrotyrosine (P = 0.017). Lastly, ozone exposure did not affect the primary prothrombotic endpoints (MP-TFA and monocyte-platelet conjugate count) or any secondary markers of prothrombotic vascular status (platelet activation, circulating microparticles [MPs], von Willebrand factor [vWF], or fibrinogen.). UNLABELLED: Although our hypothesis focused on possible acute cardiovascular effects of exposure to low levels of ozone, we recognized that the initial effects of inhaled ozone involve the lower airways. Therefore, we looked for: (a) changes in lung function, which are known to occur during exposure to ozone and are maximal at the end of exposure; and (b) markers of airway injury and inflammation. We found an increase in forced vital capacity (FVC) and forced expiratory volume in 1 second (FEV₁) after exposure to 0 ppb ozone, likely due to the effects of exercise. The FEV₁ increased significantly 15 minutes after 0 ppb exposure (85 mL; 95% confidence interval [CI], 64 to 106; P < 0.001), and remained significantly increased from pre-exposure at 22 hours (45 mL; 95% CI, 26 to 64; P < 0.001). The increase in FVC followed a similar pattern. The increase in FEV₁ and FVC were attenuated in a dose-response manner by exposure to 70 and 120 ppb ozone. We also observed a significant ozone-induced increase in the percentage of sputum PMN 22 hours after exposure at 120 ppb compared to 0 ppb exposure (P = 0.003). Plasma CC16 also increased significantly after exposure to 120 ppb (P < 0.001). Sputum IL-6, IL-8, and TNF-α concentrations were not significantly different after ozone exposure. We found no significant interactions with sex, age, or GSTM1 status regarding the effect of ozone on lung function, percentage of sputum PMN, or plasma CC16. CONCLUSIONS: In this multicenter clinical study of older healthy subjects, ozone exposure caused concentration-related reductions in lung function and presented evidence for airway inflammation and injury. However, there was no convincing evidence for effects on cardiovascular function. Blood levels of the potent vasoconstrictor, ET-1, increased with ozone exposure (with marginal statistical significance), but there were no effects on BP, FMD, or other markers of vascular function. Blood levels of nitrotyrosine decreased with ozone exposure, the opposite of our hypothesis. Our study does not support acute cardiovascular effects of low-level ozone exposure in healthy older subjects. Inclusion of only healthy older individuals is a major limitation, which may affect the generalizability of our findings. We cannot exclude the possibility of effects with higher ozone exposure concentrations or more prolonged exposure, or the possibility that subjects with underlying vascular disease, such as hypertension or diabetes, would show effects under these conditions.

Published
2017

8. Sex-differences in ventricular tachyarrhythmia events in patients with implantable cardioverter defibrillator and prior ventricular tachyarrhythmias

Author

Krzowski, B, primary, Kutyifa, V, additional, Vloka, M, additional, Huang, D T, additional, Aktas, M, additional, Musat, D, additional, Rosenthal, L, additional, Sakaguchi, S, additional, Mcnitt, S, additional, Polonsky, S, additional, Schuger, C, additional, Daubert, J P, additional, Goldenberg, I, additional, and Zareba, W, additional

Published
2023
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9. Effectiveness of hybrid comprehensive telerehabilitation in heart failure patients with permanent atrial fibrillation - subanalysis of the TELEREH-HF RCT

Author

Piotrowicz, E, primary, Kowalik, I, additional, Opolski, G, additional, Banach, M, additional, Zareba, W, additional, Orzechowski, P, additional, Pluta, S, additional, Szalewska, D, additional, Glowczynska, R, additional, Mierzynska, A, additional, Kalarus, Z, additional, Irzmanski, R, additional, and Piotrowicz, R, additional

Published
2023
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11. Ranolazine in High-Risk Patients With Implanted Cardioverter-Defibrillators: The RAID Trial

Author

Zareba, W., Pyykkonen, K., Buttaccio, A., Perkins, E., DeGrey, D., Robertson, S., Moss, A.J., Brown, M., Lansing, R., Oberer, A., Polonsky, B., Ross, V., Papernov, A., Schleede, S., Beck, C., Oakes, D., Feng, C., McNitt S, S., Hall, W.J., Moss, A., Daubert, J., Huang, D., Winters, S., Schuger, C., Haigney, M., Piccini, J., Alexis, J., Chen, L., Miller, A., Richeson, J.F., Rosero, S., Kutyifa, V., Shah, A., Lamas, G., Cohn, F., Harrell, F., Jr., Piña, I., Poole, J., Sullivan, M., Lathrop, D., Geller, N., Boineau, R., Trondell, J., Cooper, L., Itturiaga, E., Gottlieb, C., Greer, S., Perzanowski, C., McPherson, C., Hedgepeth, C., Assal, C., Salam, T., Woollett, I., Tomassoni, G., Ayala-Paredes, F., Russo, A., Punnam, S., Sangrigoli, R., Sloan, S., Kutalek, S., Sun, A., Lustgarten, D., Monir, G., Haithcock, D., Sorrentino, R., Cannom, D., Kluger, J., Varanasi, S., Rashtian, M., Philippon, F., Berger, R., Mazzella, M., Lessmeier, T., Silver, J., Worley, S., Bernabei, M., Esberg, D., Dixon, M., LeLorier, P., Greenberg, Y., Essebag, V., Venkataraman, G., Shinn, T., Dubuc, M., Turitto, G., Henrikson, C., Mirro, M., Raitt, M., Baranchuk, A., O'Neill, G., Lockwood, E., Vloka, M., Hurwitz, J., Mead, R.H., Somasundarum, P., Aziz, E., Rashba, E., Budzikowski, A., Cox, M., Natale, A., Chung, E., Ziv, O., McGrew, F., III, Tamirisa, K., Greenspon, A., Estes, M., Taylor, S., Janardhanan, R., Mitchell, L.B., Burke, M., Attari, M., Mikaelian, B., Hsu, S., Conti, J., Mazur, A., Shorofsky, S., Rosenthal, L., Sakaguchi, S., Wolfe, D., Flaker, G., Saba, S., Aktas, M., Mason, P., Shalaby, A., Musat, D., Abraham, R., Ellenbogen, K., Fellows, C., Kavesh, N., Thomas, G., Hemsworth, D., Williamson, B., Zareba, Wojciech, Daubert, James P., Beck, Christopher A., Huang, David T., Alexis, Jeffrey D., Brown, Mary W., Pyykkonen, Kathryn, McNitt, Scott, Oakes, David, Feng, Changyong, Aktas, Mehmet K., Ayala-Parades, Felix, Baranchuk, Adrian, Dubuc, Marc, Haigney, Mark, Mazur, Alexander, McPherson, Craig A., Mitchell, L. Brent, Natale, Andrea, Piccini, Jonathan P., Raitt, Merritt, Rashtian, Mayer Y., Schuger, Claudio, Winters, Stephen, Worley, Seth J., Ziv, Ohad, and Moss, Arthur J.

Published
2018
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12. Independent validation and clinical implications of the risk prediction model for long QT syndrome (1-2-3-LQTS-Risk): comment - Authors' reply

Author

Mazzanti, A, Trancuccio, A, Kukavica, D, Pagan, E, Wang, M, Mohsin, M, Peterson, D, Bagnardi, V, Zareba, W, Priori, S, Mazzanti A., Trancuccio A., Kukavica D., Pagan E., Wang M., Mohsin M., Peterson D., Bagnardi V., Zareba W., Priori S. G., Mazzanti, A, Trancuccio, A, Kukavica, D, Pagan, E, Wang, M, Mohsin, M, Peterson, D, Bagnardi, V, Zareba, W, Priori, S, Mazzanti A., Trancuccio A., Kukavica D., Pagan E., Wang M., Mohsin M., Peterson D., Bagnardi V., Zareba W., and Priori S. G.

Published
2022

14. Predictors of long-term prognosis based on measurements achieved after 9-week hybrid telerehabilitation in heart failure patients – a subanalyis of the TELEREH-HF RCT

Author

Piotrowicz, E, primary, Pencina, M, additional, Kowalik, I, additional, Orzechowski, P, additional, Banach, M, additional, Glowczynska, R, additional, Zareba, W, additional, Opolski, G, additional, Szalewska, D, additional, Pluta, S, additional, Kalarus, Z, additional, Irzmanski, R, additional, and Piotrowicz, R, additional

Published
2022
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15. An International Multicenter Evaluation of Type 5 Long QT Syndrome: A Low Penetrant Primary Arrhythmic Condition

Author

Roberts, J, Asaki, S, Mazzanti, A, Bos, J, Tuleta, I, Muir, A, Crotti, L, Krahn, A, Kutyifa, V, Shoemaker, M, Johnsrude, C, Aiba, T, Marcondes, L, Baban, A, Udupa, S, Dechert, B, Fischbach, P, Knight, L, Vittinghoff, E, Kukavica, D, Stallmeyer, B, Giudicessi, J, Spazzolini, C, Shimamoto, K, Tadros, R, Cadrin-Tourigny, J, Duff, H, Simpson, C, Roston, T, Wijeyeratne, Y, El Hajjaji, I, Yousif, M, Gula, L, Leong-Sit, P, Chavali, N, Landstrom, A, Marcus, G, Dittmann, S, Wilde, A, Behr, E, Tfelt-Hansen, J, Scheinman, M, Perez, M, Kaski, J, Gow, R, Drago, F, Aziz, P, Abrams, D, Gollob, M, Skinner, J, Shimizu, W, Kaufman, E, Roden, D, Zareba, W, Schwartz, P, Schulze-Bahr, E, Etheridge, S, Priori, S, Ackerman, M, Roberts JD, Asaki SY, Mazzanti A, Bos JM, Tuleta I, Muir AR, Crotti L, Krahn AD, Kutyifa V, Shoemaker MB, Johnsrude CL, Aiba T, Marcondes L, Baban A, Udupa S, Dechert B, Fischbach P, Knight LM, Vittinghoff E, Kukavica D, Stallmeyer B, Giudicessi JR, Spazzolini C, Shimamoto K, Tadros R, Cadrin-Tourigny J, Duff HJ, Simpson CS, Roston TM, Wijeyeratne YD, El Hajjaji I, Yousif MD, Gula LJ, Leong-Sit P, Chavali N, Landstrom AP, Marcus GM, Dittmann S, Wilde AAM, Behr ER, Tfelt-Hansen J, Scheinman MM, Perez MV, Kaski JP, Gow RM, Drago F, Aziz PF, Abrams DJ, Gollob MH, Skinner JR, Shimizu W, Kaufman ES, Roden DM, Zareba W, Schwartz PJ, Schulze-Bahr E, Etheridge SP, Priori SG, Ackerman MJ., Roberts, J, Asaki, S, Mazzanti, A, Bos, J, Tuleta, I, Muir, A, Crotti, L, Krahn, A, Kutyifa, V, Shoemaker, M, Johnsrude, C, Aiba, T, Marcondes, L, Baban, A, Udupa, S, Dechert, B, Fischbach, P, Knight, L, Vittinghoff, E, Kukavica, D, Stallmeyer, B, Giudicessi, J, Spazzolini, C, Shimamoto, K, Tadros, R, Cadrin-Tourigny, J, Duff, H, Simpson, C, Roston, T, Wijeyeratne, Y, El Hajjaji, I, Yousif, M, Gula, L, Leong-Sit, P, Chavali, N, Landstrom, A, Marcus, G, Dittmann, S, Wilde, A, Behr, E, Tfelt-Hansen, J, Scheinman, M, Perez, M, Kaski, J, Gow, R, Drago, F, Aziz, P, Abrams, D, Gollob, M, Skinner, J, Shimizu, W, Kaufman, E, Roden, D, Zareba, W, Schwartz, P, Schulze-Bahr, E, Etheridge, S, Priori, S, Ackerman, M, Roberts JD, Asaki SY, Mazzanti A, Bos JM, Tuleta I, Muir AR, Crotti L, Krahn AD, Kutyifa V, Shoemaker MB, Johnsrude CL, Aiba T, Marcondes L, Baban A, Udupa S, Dechert B, Fischbach P, Knight LM, Vittinghoff E, Kukavica D, Stallmeyer B, Giudicessi JR, Spazzolini C, Shimamoto K, Tadros R, Cadrin-Tourigny J, Duff HJ, Simpson CS, Roston TM, Wijeyeratne YD, El Hajjaji I, Yousif MD, Gula LJ, Leong-Sit P, Chavali N, Landstrom AP, Marcus GM, Dittmann S, Wilde AAM, Behr ER, Tfelt-Hansen J, Scheinman MM, Perez MV, Kaski JP, Gow RM, Drago F, Aziz PF, Abrams DJ, Gollob MH, Skinner JR, Shimizu W, Kaufman ES, Roden DM, Zareba W, Schwartz PJ, Schulze-Bahr E, Etheridge SP, Priori SG, and Ackerman MJ.

Abstract

Background: Insight into type 5 long QT syndrome (LQT5) has been limited to case reports and small family series. Improved understanding of the clinical phenotype and genetic features associated with rare KCNE1 variants implicated in LQT5 was sought through an international multicenter collaboration. Methods: Patients with either presumed autosomal dominant LQT5 (N = 229) or the recessive Type 2 Jervell and Lange-Nielsen syndrome (N = 19) were enrolled from 22 genetic arrhythmia clinics and 4 registries from 9 countries. KCNE1 variants were evaluated for ECG penetrance (defined as QTc >460 ms on presenting ECG) and genotype-phenotype segregation. Multivariable Cox regression was used to compare the associations between clinical and genetic variables with a composite primary outcome of definite arrhythmic events, including appropriate implantable cardioverter-defibrillator shocks, aborted cardiac arrest, and sudden cardiac death. Results: A total of 32 distinct KCNE1 rare variants were identified in 89 probands and 140 genotype positive family members with presumed LQT5 and an additional 19 Type 2 Jervell and Lange-Nielsen syndrome patients. Among presumed LQT5 patients, the mean QTc on presenting ECG was significantly longer in probands (476.9±38.6 ms) compared with genotype positive family members (441.8±30.9 ms, P<0.001). ECG penetrance for heterozygous genotype positive family members was 20.7% (29/140). A definite arrhythmic event was experienced in 16.9% (15/89) of heterozygous probands in comparison with 1.4% (2/140) of family members (adjusted hazard ratio [HR] 11.6 [95% CI, 2.6-52.2]; P=0.001). Event incidence did not differ significantly for Type 2 Jervell and Lange-Nielsen syndrome patients relative to the overall heterozygous cohort (10.5% [2/19]; HR 1.7 [95% CI, 0.3-10.8], P=0.590). The cumulative prevalence of the 32 KCNE1 variants in the Genome Aggregation Database, which is a human database of exome and genome sequencing data from now over 140 0

Published
2020

16. Assessment of absolute risk of life-threatening cardiac events in long QT syndrome patients

Author

Wang, M, Peterson, D, Pagan, E, Bagnardi, V, Mazzanti, A, Mcnitt, S, Rich, D, Seplaki, C, Kutyifa, V, Polonsky, B, Barsheshet, A, Kukavica, D, Rosero, S, Goldenberg, I, Priori, S, Zareba, W, Wang, M, Peterson, D, Pagan, E, Bagnardi, V, Mazzanti, A, Mcnitt, S, Rich, D, Seplaki, C, Kutyifa, V, Polonsky, B, Barsheshet, A, Kukavica, D, Rosero, S, Goldenberg, I, Priori, S, and Zareba, W

Abstract

Background: Risk stratification in long QT syndrome (LQTS) patients is important for optimizing patient care and informing clinical decision making. We developed a risk prediction algorithm with prediction of 5-year absolute risk of the first life-threatening arrhythmic event [defined as aborted cardiac arrest, sudden cardiac death, or appropriate implantable cardioverter defibrillator (ICD) shock] in LQTS patients, accounting for individual risk factors and their changes over time. Methods: Rochester-based LQTS Registry included the phenotypic cohort consisting of 1,509 LQTS patients with a QTc ≥ 470 ms, and the genotypic cohort including 1,288 patients with single LQT1, LQT2, or LQT3 mutation. We developed two separate risk prediction models which included pre-specified time-dependent covariates of beta-blocker use, syncope (never, syncope while off beta blockers, and syncope while on beta blockers), and sex by age < and ≥13 years, baseline QTc, and genotype (for the genotypic cohort only). Follow-up started from enrollment in the registry and was censored at patients’ 50s birthday, date of death due to reasons other than sudden cardiac death, or last contact, whichever occurred first. The predictive models were externally validated in an independent cohort of 1,481 LQTS patients from Pavia, Italy. Results: In Rochester dataset, there were 77 endpoints in the phenotypic cohort during a median follow-up of 9.0 years, and 47 endpoints in the genotypic cohort during a median follow-up of 9.8 years. The time-dependent extension of Harrell’s generalized C-statistics for the phenotypic model and genotypic model were 0.784 (95% CI: 0.740–0.827) and 0.785 (95% CI: 0.721–0.849), respectively, in the Rochester cohort. The C-statistics obtained from external validation in the Pavia cohort were 0.700 (95% CI: 0.610–0.790) and 0.711 (95% CI: 0.631–0.792) for the two models, respectively. Based on the above models, an online risk calculator estimating a 5-year risk of life-t

Published
2022

17. Independent validation and clinical implications of the risk prediction model for long QT syndrome (1-2-3-LQTS-Risk)

Author

Mazzanti, A, Trancuccio, A, Kukavica, D, Pagan, E, Wang, M, Mohsin, M, Peterson, D, Bagnardi, V, Zareba, W, Priori, S, Mazzanti, Andrea, Trancuccio, Alessandro, Kukavica, Deni, Pagan, Eleonora, Wang, Meng, Mohsin, Muhammed, Peterson, Derick, Bagnardi, Vincenzo, Zareba, Wojciech, Priori, Silvia G, Mazzanti, A, Trancuccio, A, Kukavica, D, Pagan, E, Wang, M, Mohsin, M, Peterson, D, Bagnardi, V, Zareba, W, Priori, S, Mazzanti, Andrea, Trancuccio, Alessandro, Kukavica, Deni, Pagan, Eleonora, Wang, Meng, Mohsin, Muhammed, Peterson, Derick, Bagnardi, Vincenzo, Zareba, Wojciech, and Priori, Silvia G

Abstract

Aims: Risk stratification of patients with long QT syndrome (LQTS) represents a difficult task. In 2018, we proposed a granular estimate of the baseline 5-year risk of life-threatening arrhythmias (LAE) for patients with LQTS, based on the genotype (long QT syndrome Type 1, long QT syndrome Type 2, and long QT syndrome Type 3) and the duration of the QTc interval. We sought to externally validate a novel risk score model (1-2-3-LQTS-Risk model) in a geographically diverse cohort from the USA and to evaluate its performance and assess potential clinical implication of this novel model. Methods and results: The prognostic model (1-2-3-LQTS-Risk model) was derived using data from a prospective, single-centre longitudinal cohort study published in 2018 (discovery cohort) and was validated using an independent cohort of 1689 patients enrolled in the International LQTS Registry (Rochester NY, USA). The validation study revealed a C-index of 0.69 [95% confidence interval (CI): 0.61-0.77] in the validation cohort, when compared with C-index of 0.79 (95% CI: 0.70-0.88) in the discovery cohort. Adopting a 5-year risk ≥5%, as suggested by the ROC curve analysis as the most balanced threshold for implantable cardioverter-defibrillator (ICD) implantation, would result in a number needed to treat (NNT) of nine (NNT = 9; 95% CI: 6.3-13.6). Conclusion: The 1-2-3-LQTS-Risk model, the first validated 5-year risk score model for patients with LQTS, can be used to aid clinicians to identify patients at the highest risk of LAE who could benefit most from an ICD implant and avoid unnecessary implants.

Published
2022

19. Assessment of ECG during hybrid comprehensive telerehabilitation in heart failure patients – subanalysis of the TELEREHabilitation in heart failure patients – TELEREH-HF randomized clinical trial

Author

Piotrowicz, E, primary, Orzechowski, P, additional, Zareba, W, additional, Glowczynska, R, additional, Szalewska, D, additional, Pluta, S, additional, Irzmanski, R, additional, Kalarus, Z, additional, Banach, M, additional, Opolski, G, additional, Pencina, M, additional, Kowalik, I, additional, and Piotrowicz, R, additional

Published
2021
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20. Relationships between physical capacity and depression in heart failure patients undergoing hybrid comprehensive telerehabilitation vs usual care results of the TELEREH-HF randomized clinical trial

Author

Piotrowicz, E, primary, Mierzynska, A, additional, Jaworska, I, additional, Opolski, G, additional, Banach, M, additional, Zareba, W, additional, Kowalik, I, additional, Pencina, M, additional, Orzechowski, P, additional, Szalewska, D, additional, Pluta, S, additional, Glowczynska, R, additional, Kalarus, Z, additional, Irzmanski, R, additional, and Piotrowicz, R, additional

Published
2021
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21. One‐Year Landmark Analysis of the Effect of Beta‐Blocker Dose on Survival After Acute Myocardial Infarction

Author

Goldberger, Jeffrey J., primary, Subačius, Haris, additional, Marroquin, Oscar C., additional, Beau, Scott L., additional, Simonson, Jay, additional, Desai, P., additional, Betzen, M., additional, DeLuna, D., additional, Whitehill, J., additional, Hatch, J., additional, Janak, L., additional, Cherry, R., additional, Gonzalez, E., additional, Cruz, I., additional, Johnson, E., additional, Allbritton, C., additional, Derrick, V., additional, Fishman, R., additional, Assalone, V., additional, Mahon, L., additional, Lustgarten, D., additional, Rowen, M., additional, Bessette, M., additional, Alemy, B., additional, Dan, D., additional, Picardi, K., additional, Schuger, C., additional, Dzidowski, J., additional, McCarthy, M., additional, Fields, P., additional, Alexander, S., additional, Nair, G., additional, Kovacs, R., additional, Beasley, D., additional, Strickland, T., additional, Marks, J., additional, Beau, S., additional, Tableriou, J., additional, Griffin, B., additional, Shani, J., additional, Stokes‐McCarthy, M., additional, Tan‐Augenstein, G., additional, Pace, G., additional, Brosnan, H., additional, Hayes, J., additional, Mancl, K., additional, Maassen, K., additional, Fintel, D., additional, Karpf, L., additional, Abraham, T., additional, Campione, K., additional, Martin, E., additional, Bello, D., additional, Viera Fleetwood, I., additional, Tinetti, M., additional, Rock, R., additional, Simonson, J., additional, Barnes, S., additional, Letexier, J., additional, Strothman, M., additional, Mattson, J., additional, Albert Shoultz, C., additional, Ali, S., additional, Abbott, D., additional, Medeiros, M., additional, McKeon, J., additional, Nichols, A., additional, Edwards, T., additional, Watts, C., additional, Alley, C., additional, Romanelli, M., additional, Steffen, D., additional, Henschel, R., additional, Teller, S., additional, Froehlich, L., additional, Bess, R., additional, Warnica, W., additional, Smith, B., additional, Eichman, D., additional, Scarcelli, D., additional, Badhwar, N., additional, Malone, P., additional, Green, D., additional, Iyer, S., additional, Germany, R., additional, Murray, C., additional, Straughn, G., additional, Drennan, K., additional, Marroquin, O., additional, Dennis, L., additional, Farrow, C., additional, Baxendell, L., additional, Grate, S., additional, Enlow, M., additional, Zareba, W., additional, Chaudhary, I., additional, Laduke, P., additional, Conary‐Rocco, V., additional, Caufield, L., additional, Patterson, C., additional, Warner, A., additional, Johnson, J., additional, Germano, J., additional, Drewes, W., additional, George, B., additional, Yoo, B., additional, Patel, D., additional, Bonow, R., additional, Cuffe, M., additional, Dyer, A., additional, Greenland, P., additional, Goldberger, J., additional, O’Rourke, R., additional, Rosenberg, Y., additional, Shah, P., additional, Byington, R., additional, Feng, Z., additional, Goldstein, S., additional, Kirkpatrick, J., additional, Love, C., additional, Singh, S., additional, Goldberg, S., additional, Kwak, M., additional, Rao, A., additional, Srinivas, P., additional, Ball, C., additional, Cahill, J., additional, Schaechter, A., additional, Alexander, D., additional, Ma, K., additional, Plant, T., additional, Rosenfeld, A., additional, Scofic, J., additional, Simon, J., additional, and Subačius, H., additional

Published
2021
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22. Antiarrhythmic effect of 9-week hybrid cardiac telerehabilitation - subanalysis of the TELEREHabilitation in Heart Failure patients - TELEREH-HF randomized clinical trial

Author

Orzechowski, P, primary, Piotrowicz, R, additional, Zareba, W, additional, Pencina, MJ, additional, Kowalik, I, additional, Komar, E, additional, Opolski, G, additional, Banach, M, additional, Glowczynska, R, additional, Szalewska, D, additional, Pluta, S, additional, Irzmanski, R, additional, Karalus, Z, additional, and Piotrowicz, E, additional

Published
2021
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23. Quality of life in heart failure patients undergoing hybrid comprehensive telerehabilitation versus usual care results of TELEREH-HF randomized clinical trial

Author

Piotrowicz, E, primary, Mierzynska, A, additional, Pencina, M, additional, Opolski, G, additional, Zareba, W, additional, Banach, M, additional, Kowalik, I, additional, Orzechowski, P, additional, Szalewska, D, additional, Pluta, S, additional, Irzmanski, R, additional, Glowczynska, R, additional, Kalarus, Z, additional, Jaworska, I, additional, and Piotrowicz, R, additional

Published
2020
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25. Heart failure patients' adherence to hybrid comprehensive telerehabilitation and its impact on prognosis based on data from TELEREH-HF randomized clinical trial

Author

Piotrowicz, E, primary, Pencina, M, additional, Opolski, G, additional, Zareba, W, additional, Banach, M, additional, Kowalik, I, additional, Orzechowski, P, additional, Szalewska, D, additional, Pluta, S, additional, Irzmanski, R, additional, Glowczynska, R, additional, Kalarus, Z, additional, and Piotrowicz, R, additional

Published
2020
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34. Chronic kidney disease and arrhythmias: Conclusions from a Kidney Disease: Improving Global Outcomes (KDIGO) Controversies Conference

Author

Turakhia, M, Blankestijn, P, Carrero, J, Clase, C, Deo, R, Herzog, C, Kasner, S, Passman, R, Pecoits-Filho, R, Reinecke, H, Shroff, G, Zareba, W, Cheung, M, Wheeler, D, Winkelmayer, W, Wanner, C, Genovesi, S, Turakhia, Mintu P, Blankestijn, Peter J, Carrero, Juan-Jesus, Clase, Catherine M, Deo, Rajat, Herzog, Charles A, Kasner, Scott E, Passman, Rod S, Pecoits-Filho, Roberto, Reinecke, Holger, Shroff, Gautam R, Zareba, Wojciech, Cheung, Michael, Wheeler, David C, Winkelmayer, Wolfgang C, Wanner, Christoph, Turakhia, M, Blankestijn, P, Carrero, J, Clase, C, Deo, R, Herzog, C, Kasner, S, Passman, R, Pecoits-Filho, R, Reinecke, H, Shroff, G, Zareba, W, Cheung, M, Wheeler, D, Winkelmayer, W, Wanner, C, Genovesi, S, Turakhia, Mintu P, Blankestijn, Peter J, Carrero, Juan-Jesus, Clase, Catherine M, Deo, Rajat, Herzog, Charles A, Kasner, Scott E, Passman, Rod S, Pecoits-Filho, Roberto, Reinecke, Holger, Shroff, Gautam R, Zareba, Wojciech, Cheung, Michael, Wheeler, David C, Winkelmayer, Wolfgang C, and Wanner, Christoph

Published
2018

37. P688Genetic variant score predicts cardiac events in arrhythmogenic right ventricular cardiomyopathy

Author

Svensson, A, primary, Haugaa, K H, additional, Zareba, W, additional, Jensen, H K, additional, Bundgaard, H, additional, Gilljam, T, additional, Madsen, T, additional, Hansen, J, additional, Karlsson, L, additional, Green, A, additional, Polonsky, B, additional, Edvardsen, T, additional, Svendsen, J H, additional, Gunnarsson, C, additional, and Platonov, P G, additional

Published
2018
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38. P321Effect of biventricular pacing on ventricular remodeling in asymptomatic heart failure patients with ischemic cardiomyopathy

Author

Quesada Dorador, A, primary, Quesada-Ocete, B, additional, Kutyifa, V, additional, Klein, H, additional, Jimenez-Bello, J, additional, Marin-Gomez, M C, additional, Biton, Y, additional, Mcnitt, S, additional, Polonsky, B, additional, Paya, R, additional, Zareba, W, additional, Goldenberg, I, additional, and Moss, A, additional

Published
2018
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45. Mutation-Specific Risk in Two Genetic Forms of Type 3 Long QT Syndrome

Author

Liu, J, Moss, A, Jons, C, Benhorin, J, Schwartz, P, Spazzolini, C, Crotti, L, Ackerman, M, Mcnitt, S, Robinson, J, Qi, M, Goldenberg, I, Zareba, W, Liu JF, Moss AJ, Jons C, Benhorin J, Schwartz PJ, Spazzolini C, Crotti L, Ackerman MJ, McNitt S, Robinson JL, Qi M, Goldenberg I, Zareba W, Liu, J, Moss, A, Jons, C, Benhorin, J, Schwartz, P, Spazzolini, C, Crotti, L, Ackerman, M, Mcnitt, S, Robinson, J, Qi, M, Goldenberg, I, Zareba, W, Liu JF, Moss AJ, Jons C, Benhorin J, Schwartz PJ, Spazzolini C, Crotti L, Ackerman MJ, McNitt S, Robinson JL, Qi M, Goldenberg I, and Zareba W

Abstract

The clinical course of patients with 2 relatively common long QT syndrome type 3 mutations has not been well described. In the present study, we investigated the mutational-specific risk in patients with deletional (DeltaKPQ) and missense (D1790G) mutations involving the SCN5A gene. The study population involved 50 patients with the DeltaKPQ mutation and 35 patients with the D1790G mutation. The cumulative probability of a first cardiac event (syncope, aborted cardiac arrest, or long QT syndrome-related sudden death) was evaluated using the Kaplan-Meier method. The Cox proportional hazards survivorship model was used to determine the independent contribution of clinical and genetic factors to the first occurrence of cardiac events from birth through 40 years of age. The Andersen-Gill proportional intensity regression model was used to analyze the factors associated with recurrent syncope. Patients with a DeltaKPQ mutation had a significantly greater probability of a first cardiac event from birth through 40 years of age (34%) than those with the D1790G mutation (20%; p <0.001). Multivariate analysis demonstrated an increased risk of cardiac events among DeltaKPQ carriers compared to D1790G carriers (hazard ratio 2.42, p <0.0001) after adjustment for gender and QTc duration. Patients with DeltaKPQ mutations also had an increased risk of recurrent syncope (hazard ratio 5.20, p <0.001). In conclusion, the clinical course of patients with long QT syndrome type with DeltaKPQ mutations was shown to be more virulent than those with D1790G mutations, and this effect was independent of QTc duration. The findings highlight the importance of knowing the specific mutation in risk stratification of patients with long QT syndrome type 3

Published
2010

46. Clinical Implications for Patients With Long QT Syndrome Who Experience a Cardiac Event During Infancy

Author

Spazzolini, C, Mullally, J, Schwartz, P, Moss, A, Mcnitt, S, Ouellet, G, Fugate, T, Goldenberg, I, Jons, C, Zareba, W, Robinson, J, Ackerman, M, Benhorin, J, Crotti, L, Kaufman, E, Locati, E, Ming, Q, Napolitano, C, Priori, S, Towbin, J, Vincent, G, Spazzolini C, Mullally J, Schwartz PJ, Moss AJ, McNitt S, Ouellet G, Fugate T, Goldenberg I, Jons C, Zareba W, Robinson JL, Ackerman MJ, Benhorin J, Crotti L, Kaufman ES, Locati EH, Ming Q, Napolitano C, Priori SG, Towbin JA, Vincent GM., Spazzolini, C, Mullally, J, Schwartz, P, Moss, A, Mcnitt, S, Ouellet, G, Fugate, T, Goldenberg, I, Jons, C, Zareba, W, Robinson, J, Ackerman, M, Benhorin, J, Crotti, L, Kaufman, E, Locati, E, Ming, Q, Napolitano, C, Priori, S, Towbin, J, Vincent, G, Spazzolini C, Mullally J, Schwartz PJ, Moss AJ, McNitt S, Ouellet G, Fugate T, Goldenberg I, Jons C, Zareba W, Robinson JL, Ackerman MJ, Benhorin J, Crotti L, Kaufman ES, Locati EH, Ming Q, Napolitano C, Priori SG, Towbin JA, and Vincent GM.

Abstract

Objectives: This study was designed to evaluate the clinical and prognostic aspects of long QT syndrome (LQTS)-related cardiac events that occur in the first year of life (infancy). Background: The clinical implications for patients with long QT syndrome who experience cardiac events in infancy have not been studied previously. Methods: The study population of 3,323 patients with QT interval corrected for heart rate (QTc) ≥450 ms enrolled in the International LQTS Registry involved 20 patients with sudden cardiac death (SCD), 16 patients with aborted cardiac arrest (ACA), 34 patients with syncope, and 3,253 patients who were asymptomatic during the first year of life. Results: The risk factors for a cardiac event among 212 patients who had an electrocardiogram recorded in the first year of life included QTc ≥500 ms, heart rate ≤100 beats/min, and female sex. An ACA before age 1 year was associated with a hazard ratio of 23.4 (p < 0.01) for ACA or SCD during ages 1 to 10 years. During the 10-year follow-up after infancy, beta-blocker therapy was associated with a significant reduction in ACA/SCD only in those with a syncopal episode within 2 years before ACA/SCD but not for those who survived ACA in infancy. Conclusions: Patients with LQTS who experience ACA during the first year of life are at very high risk for subsequent ACA or death during their next 10 years of life, and beta-blockers might not be effective in preventing fatal or near-fatal cardiac events in this small but high-risk subset

Published
2009

50. Brugada Phenocopy: New Terminology and Proposed Classification

Author

Baranchuk, A., Nguyen, T., Ryu, M., Femenia, F., Zareba, W., De Wilde, A.a., Shimizu, W., Brugada, Pedro, Perez-Riera, A, Internal Medicine Specializations, and Cardio-vascular diseases

Subjects
congenital, hereditary, and neonatal diseases and abnormalities, ECG, Brugada syndrome, cardiovascular diseases
Abstract

Brugada syndrome is a channelopathy characterized on ECG by coved ST-segment elevation (?2 mm) in the right precordial leads and is associated with an increased risk of malignant ventricular arrhythmias. The term Brugada phenocopy is proposed to describe conditions that induce Brugada-like ECG manifestations in patients without true Brugada syndrome. An extensive review of the literature identified case reports that were classified according to their suspected etiological mechanism. Future directions to learn more about these intriguing cases is discussed.

Published
2012

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