MarijonETaffletMCelermajerDS, et al.
Sports-related sudden death in the general population. Circulation2011;
124: 672–681.
2.
FinocchiaroGPapadakisMRobertusJL, et al.
Etiology of sudden death in sports. Insights from a United Kingdom regional registry.J Am Coll Cardiol2016;
67: 2108–2115.
3.
LahrouchiNRajuHLodderEM, et al.
Utility of post-mortem genetic testing in cases of sudden arrhythmic death syndrome. J Am Coll Cardiol2017;
69: 2134–2145.
4.
MontLPellicciaASharmaS, et al.
Pre-participation cardiovascular evaluation for athletic participants to prevent sudden death: position paper from the EHRA and the EACPR, branches of the ESC. Endorsed by APHRS, HRS, and SOLAECE. Eur J Prev Cardiol2017;
24: 41–69.
5.
BaggishAL.A decade of athlete ECG criteria: where we’ve come and where we’re going. J Electrocardiology2015;
48: 324–328.
6.
SharmaSDreznerJABaggishA, et al.
International recommendations for electrocardiographic interpretation in athletes. J Am Coll Cardiol2017;
69: 1057–1075.
7.
DhutiaHMacLachlanH.Cardiac screening of young athletes: a practical approach to sudden cardiac death prevention. Curr Treat Options Cardio Med2018;
20: 85.
8.
McCleanGRidingNRPielesG, et al.
Prevalence and significance of T-wave inversion in Arab and Black paediatric athletes: should anterior T-wave inversion interpretation be governed by biological or chronological age?Eur J Prev Cardiol2019;
26: 641–652.
9.
CaloreCMelaciniPPellicciaA, et al.
Prevalence and clinical meaning of isolated increase of QRS voltages in hypertrophic cardiomyopathy versus athlete’s heart: relevance to athletic screening. Int J Cardiol2013;
168: 4494–4497.
10.
ZaidiAGhaniSSheikhN, et al.
Clinical significance of electrocardiographic right ventricular hypertrophy in athletes: comparison with arrhythmogenic right ventricular cardiomyopathy and pulmonary hypertension. Eur Heart J2013;
34: 3649–3656.
11.
MadiasJE.Low QRS voltage and its causes. J Electrocardiol2008;
41: 498–500.
12.
GoffZDCalkinsH.Sudden death related cardiomyopathies – arrhythmogenic right ventricular cardiomyopathy, arrhythmogenic cardiomyopathy, and exercise-induced cardiomyopathy. Prog Cardiovasc Dis2019;
62: 217–226.
13.
BrosnanMJTe RieleASJMBosmanLP, et al.
Electrocardiographic features differentiating arrhythmogenic right ventricular cardiomyopathy from an athlete’s heart. J Am Coll Cardiol EP2018;
4: 1613–1625.
14.
InocchiaroGPapadakisMDhutiaH, et al.
Electrocardiographic differentiation between “benign T-wave inversion” and arrhythmogenic right ventricular cardiomyopathy. Europace2019;
21: 332–338.
15.
MangoF MDCaselliSLuchettiA, et al.
Low QRS voltages in Olympic athletes: prevalence and clinical correlates. EurJ Prev Cardiol, 2020; 27: 1542–1548.
16.
SchnellFRidingNO’HanlonR, et al.
Recognition and significance of pathological T wave inversions in athletes. Circulation2015;
131: 165–173.
17.
ZorziAVessellaTDe LazzariM, et al.
Screening young athletes for diseases at risk of sudden cardiac death: role of stress testing for ventricular arrhythmias. Eur J Prev Cardiol2020;
27: 311–320.
