BACKGROUND: Physiological cardiac adaptation to regular exercise, including biventricular dilation and T-wave inversion (TWI), may create diagnostic overlap with arrhythmogenic right ventricular cardiomyopathy (ARVC). OBJECTIVES: The goal of this study was to assess the accuracy of diagnostic criteria for ARVC when applied to athletes exhibiting electrocardiographic TWI and to identify discriminators between physiology and disease. METHODS: The study population consisted of athletes with TWI (n = 45), athletes without TWI (n = 35), and ARVC patients (n = 35). Subjects underwent electrocardiography (ECG), signal-averaged electrocardiography (SAECG), echocardiography, cardiac magnetic resonance imaging (CMRI), Holter monitoring, and exercise testing. RESULTS: There were no electrical, structural, or functional cardiac differences between athletes exhibiting TWI and athletes without TWI. When athletes were compared with ARVC patients, markers of physiological remodeling included early repolarization, biphasic TWI, voltage criteria for right ventricular (RV) or left ventricular hypertrophy, and symmetrical cardiac enlargement. Indicators of RV pathology included the following: syncope; Q waves or precordial QRS amplitudes <1.8 mV; 3 abnormal SAECG parameters; delayed gadolinium enhancement, RV ejection fraction ≤45%, or wall motion abnormalities at CMRI; >1,000 ventricular extrasystoles (or >500 non-RV outflow tract) per 24 h; and symptoms, ventricular tachyarrhythmias, or attenuated blood pressure response during exercise. Nonspecific parameters included the following: prolonged QRS terminal activation; ≤2 abnormal SAECG parameters; RV dilation without wall motion abnormalities; RV outflow tract ectopy; and exercise-induced T-wave pseudonormalization. CONCLUSIONS: TWI and balanced biventricular dilation are likely to represent benign manifestations of training in asymptomatic athletes without relevant family history. Diagnostic criteria for ARVC are nonspecific in such individuals. Comprehensive testing using widely available techniques can effectively differentiate borderline cases.
BACKGROUND: Physiological cardiac adaptation to regular exercise, including biventricular dilation and T-wave inversion (TWI), may create diagnostic overlap with arrhythmogenic right ventricular cardiomyopathy (ARVC). OBJECTIVES: The goal of this study was to assess the accuracy of diagnostic criteria for ARVC when applied to athletes exhibiting electrocardiographic TWI and to identify discriminators between physiology and disease. METHODS: The study population consisted of athletes with TWI (n = 45), athletes without TWI (n = 35), and ARVC patients (n = 35). Subjects underwent electrocardiography (ECG), signal-averaged electrocardiography (SAECG), echocardiography, cardiac magnetic resonance imaging (CMRI), Holter monitoring, and exercise testing. RESULTS: There were no electrical, structural, or functional cardiac differences between athletes exhibiting TWI and athletes without TWI. When athletes were compared with ARVC patients, markers of physiological remodeling included early repolarization, biphasic TWI, voltage criteria for right ventricular (RV) or left ventricular hypertrophy, and symmetrical cardiac enlargement. Indicators of RV pathology included the following: syncope; Q waves or precordial QRS amplitudes <1.8 mV; 3 abnormal SAECG parameters; delayed gadolinium enhancement, RV ejection fraction ≤45%, or wall motion abnormalities at CMRI; >1,000 ventricular extrasystoles (or >500 non-RV outflow tract) per 24 h; and symptoms, ventricular tachyarrhythmias, or attenuated blood pressure response during exercise. Nonspecific parameters included the following: prolonged QRS terminal activation; ≤2 abnormal SAECG parameters; RV dilation without wall motion abnormalities; RV outflow tract ectopy; and exercise-induced T-wave pseudonormalization. CONCLUSIONS: TWI and balanced biventricular dilation are likely to represent benign manifestations of training in asymptomatic athletes without relevant family history. Diagnostic criteria for ARVC are nonspecific in such individuals. Comprehensive testing using widely available techniques can effectively differentiate borderline cases.
Authors: Nabil Ghorayeb; Ricardo Stein; Daniel Jogaib Daher; Anderson Donelli da Silveira; Luiz Eduardo Fonteles Ritt; Daniel Fernando Pellegrino Dos Santos; Ana Paula Rennó Sierra; Artur Haddad Herdy; Claúdio Gil Soares de Araújo; Cléa Simone Sabino de Souza Colombo; Daniel Arkader Kopiler; Filipe Ferrari Ribeiro de Lacerda; José Kawazoe Lazzoli; Luciana Diniz Nagem Janot de Matos; Marcelo Bichels Leitão; Ricardo Contesini Francisco; Rodrigo Otávio Bougleux Alô; Sérgio Timerman; Tales de Carvalho; Thiago Ghorayeb Garcia Journal: Arq Bras Cardiol Date: 2019-03 Impact factor: 2.000
Authors: David Oxborough; Annemieke Heemels; John Somauroo; Gavin McClean; Punit Mistry; Rachel Lord; Victor Utomi; Nigel Jones; Dick Thijssen; Sanjay Sharma; Rebecca Osborne; Nicholas Sculthorpe; Keith George Journal: Int J Cardiovasc Imaging Date: 2016-05-21 Impact factor: 2.357
Authors: M Qasem; V Utomi; K George; J Somauroo; A Zaidi; L Forsythe; S Bhattacharrya; G Lloyd; B Rana; L Ring; S Robinson; R Senior; N Sheikh; M Sitali; J Sandoval; R Steeds; M Stout; J Willis; D Oxborough Journal: Echo Res Pract Date: 2016-09-29