Stable fitness during COVID-19: Results of serial testing in a cohort of youth with heart disease.

Background: Little is known about how sport and school restrictions early during the novel coronavirus 2019 (COVID-19) pandemic impacted exercise performance and body composition in youth with heart disease (HD). Methods: A retrospective chart review was performed on all patients with HD who had serial exercise testing and body composition via bioimpedance analysis performed within 12 months before and during the COVID-19 pandemic. Formal activity restriction was noted as present or absent. Analysis was performed with a paired t-test. Results: There were 33 patients (mean age 15.3 ± 3.4 years; 46% male) with serial testing completed (18 electrophysiologic diagnosis, 15 congenital HD). There was an increase in skeletal muscle mass (SMM) (24.1 ± 9.2-25.9 ± 9.1 kg, p < 0.0001), weight (58.7 ± 21.5-63.9 ± 22 kg, p < 0.0001), and body fat percentage (22.7 ± 9.4-24.7 ± 10.4%, p = 0.04). The results were similar when stratified by age <18 years old (n = 27) or by sex (male 16, female 17), consistent with typical pubertal changes in this predominantly adolescent population. Absolute peak VO2 increased, but this was due to somatic growth and aging as evidenced by no change in % of predicted peak VO2. There remained no difference in predicted peak VO2 when excluding patients with pre-existing activity restrictions (n = 12). Review of similar serial testing in 65 patients in the 3 years before the pandemic demonstrated equivalent findings. Conclusions: The COVID-19 pandemic and related lifestyle changes do not appear to have had substantial negative impacts on aerobic fitness or body composition in children and young adults with HD.

Short and Long-Term Cardiovascular Sequelae after SARS-CoV-2 Infection: A Narrative Review Focusing on Athletes.

Cardiovascular (CV) involvement after severe acute respiratory syndrome coronavirus 2 (SARS-CoV2) infection was found to be frequent among the general population, especially in the pre-vaccination era, and particularly for hospitalized patients or those who experienced a more severe course of the disease. The spectrum of CV disease varies; however, acute myocarditis is particularly fearsome for the athletic population due to the possible associated risk of malignant arrhythmias during training. Alarming percentages of CV injuries, even in young and healthy athletes with a benign course of the disease, arose from a few initial studies limited to case series. Subsequent single-center studies and larger observational registries reported a lower prevalence of SARS-CoV2 CV involvement in athletes. Studies showing the occurrence of CV adverse events during follow-up periods are now available. The objective of our narrative review is to provide an updated summary of the literature on CV involvement after coronavirus disease 2019, both in the early post-infection period and over a longer period of time, with a focus on athletic populations.

Low prevalence of cardiac abnormalities in competitive athletes at return-to-play after COVID-19.

OBJECTIVE: to evaluate the prevalence of cardiac involvement after COVID-19 in competitive athletes at return-to-play (RTP) evaluation, following the recommended Italian protocol including cardiopulmonary exercise test (CPET) and 24-Hour Holter monitoring. DESIGN AND METHODS: this is a single centre observational, cross-sectional study. Since October 2020, all competitive athletes (age ≥ 14 years) evaluated in our Institute after COVID-19, prior RTP were enrolled. The protocol dictated by the Italian governing bodies included: 12­lead ECG, blood test, CPET, 24-h ECG monitoring, spirometry. Cardiovascular Magnetic Resonance (CMR) was performed based on clinical indication. RESULTS: 219 consecutive athletes were examined (59% male), age 23 years (IQR 19-27), 21% asymptomatic, 77% mildly symptomatic, 2% with previous pneumonia. The evaluation was performed after a median of 10 (6-17) days from negative SARS-CoV-2 swab. All athletes showed a good exercise capacity at CPET without cardiovascular and respiratory limitations. Uncommon premature ventricular contractions (PVCs) were found in 9.5% (n = 21) at CPET/Holter ECG monitoring. Two athletes (0.9%) were diagnosed with acute myocarditis (by CMR) and another one with new pericardial effusion. All the three athletes were temporally restricted from sport participation. CONCLUSIONS: Myocarditis in competitive athletes screened after COVID-19 resolution was detected in a low minority of the cases (0.9%). However, a non-negligible prevalence of uncommon PVCs (9%) was observed, either at CPET and/or Holter ECG monitoring, including all athletes with COVID-19 related cardiovascular abnormalities.

Impact of coronavirus disease 2019 on functional capacity in paediatric congenital heart disease assessed by cardiopulmonary exercise test

Background and Aim: Since December 2019 the novel coronavirus disease 2019 (COVID-19) has been burdening all health systems worldwide. However, cardiopulmonary repercussions in paediat-ric patients with congenital heart disease (CHD) are unknown. The aim of this study is to compare changes in cardiopulmonary exercise test (CPET) in this patients before and after COVID-19. Method(s): Prospective observational study was lead comparing CPET results after COVID-19 in paediatric patients with stable CHD who had a previous routine CPET. All underwent for stand-ardised CPET, using Godfrey ramp protocol as recommended by the European Society of Cardiology (ESC). Measured variables, expressed by predicted values, were: forced vital capacity (FVC), forced expiratory volume (FEV1), ratio of minute venti-lation to carbon dioxide production (VE/VO2 slope), peak oxy-gen consumption (peak VO2), oxygen uptake efficiency slope (OUES), oxygen pulse (O2 pulse) and peak heart rate (pHR). Wilcoxon test was used to compare continuous variables for related samples. Result(s): Ten patients (6 boys, 60%;mean age 11,4 +/- 2,4 years) with hemodynamically stable CHD (3 Tetralogy of Fallot, 30%;2 trans-position of the great arteries, 20%;2 dilated cardiomyopathy, 20%;2 Kawasaki disease, 20%;1 cardiac tumor, 10%) were selected to repeat a post-COVID CPET. All of them had mild COVID and could follow ambulatory treatment. Comparing before/post COVID tests, there were no significantly changes in predicted res-piratory parameters: FVC (90,6 +/- 7,4 vs 98,1 +/- 23,9%;p = 0,799), FEV1 (89,5 +/- 13,8 vs 94,5 +/- 8,8%;p = 0,475), VE/CO2 slope (31,6 +/- 3,7 vs 30,6 +/- 3,9degree, p = 0,203). In the same way, no significantly changes were seen in cardiovascular predicted parameters: oxygen pulse (97,3 +/- 19,2 vs 98,5 +/- 17,4%, p = 0,798), peak VO2 (82,4 +/- 19,4 vs 76,8 +/- 13,7;p = 0,123) and OUES (1,79 +/- 0,4 vs 2,01 +/- 0,6;p = 0,066). Respect peak VO2, there was a non-significant slightly decrease in post-COVID test (82,4 +/- 19,4 vs 76,8 +/- 13,7;p = 0,123). Conclusion(s): In our series, post-COVID CPET results showed that paediatric patients with hemodynamically stable CHD had no impairment in their functional capacity in relation to Sars-CoV-2 disease. Contrary to adults with previous cardiovascular disease, children should have mild infections without sequelae in cardio-pulmonary function.

Comparative study of the effect of N95 facemask and Powered Air-purifying Respirator (2 fans, N95 filter) on cardiovascular parameters of healthy individuals during exercise.

N95 masks filter 95% of the small particles and respiratory droplets (>0.3 µm diameter). Therefore, they are widely used both by general public and health workers during pandemic. When physical activity or exercise is performed wearing N95 mask, it induces hypercapnic environment. The heat burden is also increased leading to discomfort and reduced compliance. This study was done to compare physiological effects and subjective perceptions while wearing N95 mask and powered air-purifying respirator (PAPR) (2 fans, N95 filter) during incremental exercise. ECG, respiratory movement, SpO2, temperature inside the mask were recorded and perception of discomfort was also assessed. Heart rate variability (HRV) values during baseline were within normal limits in both the mask conditions signifying that cardiac autonomic tone is comparable. During incremental exercise, fall in SpO2 was significantly lesser in PAPR as compared to N95 mask at 60-70% and 70-80% of maximum achievable heart rate. The temperatures inside both the mask conditions were significantly higher than ambient temperature. The scores of humid, hot, breath resistance and fatigue were significantly lower in PAPR than N95 mask. In conditions where prolonged use of mask is required with strenuous physical exertion or exercise, PAPR could be preferred over N95 mask.