Matthew W Martinez1,2,3,4, Andrew M Tucker4,5, O Josh Bloom6, Gary Green7,8, John P DiFiori9,10, Gary Solomon11,12,13,14, Dermot Phelan15, Jonathan H Kim16, Willem Meeuwisse17, Allen K Sills11,12,13,14,18, Dana Rowe7, Isaac I Bogoch19, Paul T Smith20, Aaron L Baggish21, Margot Putukian3, David J Engel22. 1. Morristown Medical Center, Atlantic Health System, Morristown, New Jersey. 2. National Basketball Players Association, New York, New York. 3. Major League Soccer, US. 4. National Football League General Medical Committee, US. 5. MedStar Sports Medicine, MedStar Union Memorial Sports Medicine, Lutherville, Maryland. 6. Carolina Family Practice & Sports Medicine, Duke Private Diagnostic Clinic, Duke University School of Medicine, Durham, North Carolina. 7. Major League Baseball. 8. Division of Sports Medicine, David Geffen School of Medicine at UCLA, Los Angeles, California. 9. National Basketball Association, US. 10. Sports Medicine Institute, Hospital for Special Surgery, New York, New York. 11. National Football League, US. 12. Department of Neurological Surgery, Vanderbilt University School of Medicine, Nashville, Tennessee. 13. Department of Orthopedic Surgery, Vanderbilt University School of Medicine, Nashville, Tennessee. 14. Department of Rehabilitation, Vanderbilt University School of Medicine, Nashville, Tennessee. 15. Sanger Heart and Vascular Institute, Atrium Health, Charlotte, North Carolina. 16. Division of Cardiology, Emory University School of Medicine, Atlanta, Georgia. 17. National Hockey League. 18. Department of Psychiatry and Behavioral Sciences, Vanderbilt University School of Medicine, Nashville, Tennessee. 19. Division of Infectious Diseases, Toronto General Hospital, Toronto, Ontario, Canada. 20. Division of Infectious Diseases, Weill Cornell Medical College, New York, New York. 21. Cardiovascular Performance Program, Massachusetts General Hospital, Boston. 22. Division of Cardiology, Columbia University Irving Medical Center, New York, New York.
Abstract
Importance: The major North American professional sports leagues were among the first to return to full-scale sport activity during the coronavirus disease 2019 (COVID-19) pandemic. Given the unknown incidence of adverse cardiac sequelae after COVID-19 infection in athletes, these leagues implemented a conservative return-to-play (RTP) cardiac testing program aligned with American College of Cardiology recommendations for all athletes testing positive for COVID-19. Objective: To assess the prevalence of detectable inflammatory heart disease in professional athletes with prior COVID-19 infection, using current RTP screening recommendations. Design, Setting, and Participants: This cross-sectional study reviewed RTP cardiac testing performed between May and October 2020 on professional athletes who had tested positive for COVID-19. The professional sports leagues (Major League Soccer, Major League Baseball, National Hockey League, National Football League, and the men's and women's National Basketball Association) implemented mandatory cardiac screening requirements for all players who had tested positive for COVID-19 prior to resumption of team-organized sports activities. Exposures: Troponin testing, electrocardiography (ECG), and resting echocardiography were performed after a positive COVID-19 test result. Interleague, deidentified cardiac data were pooled for collective analysis. Those with abnormal screening test results were referred for additional testing, including cardiac magnetic resonance imaging and/or stress echocardiography. Main Outcomes and Measures: The prevalence of abnormal RTP test results potentially representing COVID-19-associated cardiac injury, and results and outcomes of additional testing generated by the initial screening process. Results: The study included 789 professional athletes (mean [SD] age, 25 [3] years; 777 men [98.5%]). A total of 460 athletes (58.3%) had prior symptomatic COVID-19 illness, and 329 (41.7%) were asymptomatic or paucisymptomatic (minimally symptomatic). Testing was performed a mean (SD) of 19 (17) days (range, 3-156 days) after a positive test result. Abnormal screening results were identified in 30 athletes (3.8%; troponin, 6 athletes [0.8%]; ECG, 10 athletes [1.3%]; echocardiography, 20 athletes [2.5%]), necessitating additional testing; 5 athletes (0.6%) ultimately had cardiac magnetic resonance imaging findings suggesting inflammatory heart disease (myocarditis, 3; pericarditis, 2) that resulted in restriction from play. No adverse cardiac events occurred in athletes who underwent cardiac screening and resumed professional sport participation. Conclusions and Relevance: This study provides large-scale data assessing the prevalence of relevant COVID-19-associated cardiac pathology with implementation of current RTP screening recommendations. While long-term follow-up is ongoing, few cases of inflammatory heart disease have been detected, and a safe return to professional sports activity has thus far been achieved.
Importance: The major North American professional sports leagues were among the first to return to full-scale sport activity during the coronavirus disease 2019 (COVID-19) pandemic. Given the unknown incidence of adverse cardiac sequelae after COVID-19 infection in athletes, these leagues implemented a conservative return-to-play (RTP) cardiac testing program aligned with American College of Cardiology recommendations for all athletes testing positive for COVID-19. Objective: To assess the prevalence of detectable inflammatory heart disease in professional athletes with prior COVID-19 infection, using current RTP screening recommendations. Design, Setting, and Participants: This cross-sectional study reviewed RTP cardiac testing performed between May and October 2020 on professional athletes who had tested positive for COVID-19. The professional sports leagues (Major League Soccer, Major League Baseball, National Hockey League, National Football League, and the men's and women's National Basketball Association) implemented mandatory cardiac screening requirements for all players who had tested positive for COVID-19 prior to resumption of team-organized sports activities. Exposures: Troponin testing, electrocardiography (ECG), and resting echocardiography were performed after a positive COVID-19 test result. Interleague, deidentified cardiac data were pooled for collective analysis. Those with abnormal screening test results were referred for additional testing, including cardiac magnetic resonance imaging and/or stress echocardiography. Main Outcomes and Measures: The prevalence of abnormal RTP test results potentially representing COVID-19-associated cardiac injury, and results and outcomes of additional testing generated by the initial screening process. Results: The study included 789 professional athletes (mean [SD] age, 25 [3] years; 777 men [98.5%]). A total of 460 athletes (58.3%) had prior symptomatic COVID-19 illness, and 329 (41.7%) were asymptomatic or paucisymptomatic (minimally symptomatic). Testing was performed a mean (SD) of 19 (17) days (range, 3-156 days) after a positive test result. Abnormal screening results were identified in 30 athletes (3.8%; troponin, 6 athletes [0.8%]; ECG, 10 athletes [1.3%]; echocardiography, 20 athletes [2.5%]), necessitating additional testing; 5 athletes (0.6%) ultimately had cardiac magnetic resonance imaging findings suggesting inflammatory heart disease (myocarditis, 3; pericarditis, 2) that resulted in restriction from play. No adverse cardiac events occurred in athletes who underwent cardiac screening and resumed professional sport participation. Conclusions and Relevance: This study provides large-scale data assessing the prevalence of relevant COVID-19-associated cardiac pathology with implementation of current RTP screening recommendations. While long-term follow-up is ongoing, few cases of inflammatory heart disease have been detected, and a safe return to professional sports activity has thus far been achieved.
Authors: Raul D Mitrani; Nitika Dabas; Jarrah Alfadhli; Maureen H Lowery; Thomas M Best; Joshua M Hare; Robert J Myerburg; Jeffrey J Goldberger Journal: Trends Cardiovasc Med Date: 2022-06-16 Impact factor: 8.049
Authors: David Luque-Paz; Emmanuel Orhant; Fabrice Michel; Philippe Kuentz; Jean-François Chapellier; Eric Rolland; Christian Rabaud; Pierre Tattevin Journal: Infect Dis Now Date: 2022-07-08
Authors: Andrew J Morrow; Robert Sykes; Alasdair McIntosh; Anna Kamdar; Catherine Bagot; Hannah K Bayes; Kevin G Blyth; Michael Briscoe; Heerajnarain Bulluck; David Carrick; Colin Church; David Corcoran; Iain Findlay; Vivienne B Gibson; Lynsey Gillespie; Douglas Grieve; Pauline Hall Barrientos; Antonia Ho; Ninian N Lang; Vera Lennie; David J Lowe; Peter W Macfarlane; Patrick B Mark; Kaitlin J Mayne; Alex McConnachie; Ross McGeoch; Christopher McGinley; Connor McKee; Sabrina Nordin; Alexander Payne; Alastair J Rankin; Keith E Robertson; Giles Roditi; Nicola Ryan; Naveed Sattar; Sarah Allwood-Spiers; David Stobo; Rhian M Touyz; Gruschen Veldtman; Stuart Watkins; Sarah Weeden; Robin A Weir; Paul Welsh; Ryan Wereski; Kenneth Mangion; Colin Berry Journal: Nat Med Date: 2022-05-23 Impact factor: 87.241