Browsing by Author "Antic, Milena (56470487300)"

Objectives: Hypertension is one of the most prevalent cardiovascular disorders in athletes. The aims of our study were to assess the impact of elevated blood pressure (BP) on exercise capacity in athletes and evaluate the differences in left ventricular structure and function. Methods: Elite male athletes (n = 517, aged 23 ± 5 years) underwent Doppler echocardiography with tissue Doppler imaging. Diastolic function was assessed by measuring peak early and late transmitral (E and A) and annular diastolic filling velocities (e′ and a′). Maximal cardiopulmonary exercise testing was performed to measure maximal oxygen consumption (VO2max), ventilatory anaerobic threshold (VAT) and heart rate reserve (HRR). After BP measurement, they were grouped according to the ESH/ESC guidelines on: optimal (OBP), normal (NBP), high normal BP (HNBP), and hypertensive (HT). Results: We found significantly lower VO2max, VAT and HRR in the groups with HNBP and HT, after the adjustment for the type of sport, body fat content and age. There was an increasing trend in resting HR among groups (p < 0.001). Although none of the subjects had impaired diastolic function, the HT group had higher left atrial volume, and lower e′ and e′/a′. Resting systolic BP (p < 0.05), HR (p < 0.001), HRR (p < 0.001) and e′/a′ (p < 0.01) independently predicted VO2max. Indexes E/e′ and e′/a′ were associated with resting systolic BP (p < 0.05). Conclusion: Even in the absence of structural or functional heart damage, elevated BP in elite athletes, together with the presence of autonomic dysfunction, leads to decrease in exercise capacity. Staging of hypertension according to the BP level, on the one hand, and reflexion of BP on cardiopulmonary capacity, on the other, may be coupled for further risk stratification. © 2014 Elsevier Ireland Ltd. All rights reserved.

We sought to investigate the prevalence of smoking and lung function in the large cohort of elite athletes. Methods: This cross-sectional study included 804 athletes competing at international level who were consecutively examined from January to December 2017. Elite athletes were classified in four groups of sport disciplines (skill, power, endurance and mixed): skill (n = 141), power (n = 107), endurance (n = 105) and mixed sport disciplines (n = 451). All participants underwent pre-participation screening, including spirometry. Results: Study included 745 (92.7%) non-smokers, 20 (2.5%) former smokers and 39 (4.8%) active smokers. The percentage of body fat was higher and the percentage of muscle was lower in active smokers than in non-smokers and former smokers. Active smokers were more prevalent among skill and mixed than in power and endurance sports. FEV1 and FVC, as well as FEV1/FVC ratio, were significantly lower in active smokers than in non-smokers. There was no significant difference in PEF assessed in absolute values and in percentages. Forced expiratory flows, evaluated at the usual intervals (25%, 50% and 75% of FVC), were significantly lower in active smokers than in non-smokers. FEV1 and MEF25 were the lowest among active smokers in the skill sport group, whereas FEV1/FVC, MEF50 and MEF25 were the lowest among active smokers in the power sport group. In mixed and endurance disciplines there was no difference in pulmonary function between non-smokers, former smokers and active smokers. Conclusion: Pulmonary function was reduced in active smokers and these differences were the most prominent in skill and power sports. The percentage of body fat was the highest and percentage of muscle was the lowest in active smokers. © 2019 by the authors. Licensee MDPI, Basel, Switzerland.

We sought to investigate the prevalence of smoking and lung function in the large cohort of elite athletes. Methods: This cross-sectional study included 804 athletes competing at international level who were consecutively examined from January to December 2017. Elite athletes were classified in four groups of sport disciplines (skill, power, endurance and mixed): skill (n = 141), power (n = 107), endurance (n = 105) and mixed sport disciplines (n = 451). All participants underwent pre-participation screening, including spirometry. Results: Study included 745 (92.7%) non-smokers, 20 (2.5%) former smokers and 39 (4.8%) active smokers. The percentage of body fat was higher and the percentage of muscle was lower in active smokers than in non-smokers and former smokers. Active smokers were more prevalent among skill and mixed than in power and endurance sports. FEV1 and FVC, as well as FEV1/FVC ratio, were significantly lower in active smokers than in non-smokers. There was no significant difference in PEF assessed in absolute values and in percentages. Forced expiratory flows, evaluated at the usual intervals (25%, 50% and 75% of FVC), were significantly lower in active smokers than in non-smokers. FEV1 and MEF25 were the lowest among active smokers in the skill sport group, whereas FEV1/FVC, MEF50 and MEF25 were the lowest among active smokers in the power sport group. In mixed and endurance disciplines there was no difference in pulmonary function between non-smokers, former smokers and active smokers. Conclusion: Pulmonary function was reduced in active smokers and these differences were the most prominent in skill and power sports. The percentage of body fat was the highest and percentage of muscle was the lowest in active smokers. © 2019 by the authors. Licensee MDPI, Basel, Switzerland.

We sought to investigate right heart remodeling and function in elite athlees, as well as the relationship between parameters of right ventricular (RV) and right atrial (RA) remodeling and indices of aerobic capacity. Elite male athletes (n = 352) underwent echocardiographic examination including the evaluation of RV and RA parameters. Maximal cardiopulmonary exercise testing was performed to measure maximal oxygen consumption (VO2max), ventilatory anaerobic threshold (VAT) and heart rate reserve (HRR). The right heart remodeling was different between groups. Soccer players had significantly higher RV and RA diameters indexed for BSA. RV filling pressure assessed by tricuspid E/e’ ratio was the lowest in soccer players, suggesting somewhat better RV diastolic function. Functional capacity also varies between groups of athletes. VO2max was the highest among soccer players, somewhat lower in basketball players and and the lowest among water polo players (55.3 ± 5.6 vs. 52.1 ± 5.9 vs. 53.5 ± 4.8 ml/kg/min, p < 0.001). Age, average weekly duration of training, percentage of body fat, as well as parameters of cardiopulmonary fitness (VO2max, O2 pulse, HRR), correlated well with parameters of RV and RA structure and function in the whole study population. However, systolic blood pressure at rest, VO2max and LV mass index are independently associated with RV and RA structure, whereas duration of training shows the best association with parameters of RV systolic and diastolic function. Even though soccer, water polo and basketball belong to the same group of sports, there is a significant difference in RV and RA remodeling between these three groups. It seems that right heart adaptation is the most pronounced in soccer players, who also have the highest maximal oxygen consumption. Further studies are necessary to investigate the mechanisms of these differences. © Springer Nature B.V. 2019.