Left ventricle myocardial deformation in olympic athletes assessed by cardiac magnetic resonance: does the sex and discipline matter?

Funding Acknowledgements

Type of funding sources: None.

Background

Sport induces structural and functional cardiac adaptation with different entity related to several factors including type of training and gender. Cardiovascular Magnetic Resonance (CMR) is the gold standard for morpho-functional evaluation of athletes’ heart and commonly relies on ventricular volume, wall thickness and ejection fraction (EF) assessment. Data on myocardial deformation (MD) are limited to echocardiography and are scarce.

Purpose

To assess MD in Olympic athletes and to evaluate the possible influence of sport categories and gender.

Methods

A group of Olympic athletes evaluated prior the Olympic games with unremarkable cardiovascular pre-participation screening tests underwent CMR without contrast administration. A group of sedentary subjects was enrolled as a control group. Cine-images were post-processed for volume and function evaluation and to assess global longitudinal strain (GLS) and global circumferential strain (GCS) by feature-tracking software. Athletes were divided in subgroups according to ESC sport classification. Male and female athletes were compared. Athletes were also divided based on EF (≤53% or >53%).

Results

93 elite athletes (33% power, 33% mixed, 33% endurance) and 18 controls were enrolled. No differences in terms of EF were observed, while endurance athletes showed the greater LV remodeling (Table). GLS and GCS values of the entire population were -22.5±2.7% and -30.7±3.4%, respectively. No significant differences were found comparing athletes of different sport categories and sedentary controls for GLS (p= 0.940) and GCS (p=0.072). Female athletes showed higher GLS compared to male (-23.5±2.8% vs-21.9±2.8%, p=0.002) but not differences in terms of GCS (-31.5±3.1% vs-30.2±3.5%, p=0.076). Athletes with EF≤53% had lower GLS values compared with those with >53% but within normal limits (Figure).

Conclusion

No differences were observed in MD assessed by CMR between different sport categories and controls. Female athletes showed higher longitudinal but not circumferential strain compared with male. Athletes with lower EF presented lower values of strain but within normal range with the potentiality to be used as a tool for differential diagnosis between normal adaptation and disease.

Cardiovascular screening in olympic athletes before and after SARS-CoV-2 infection

Funding Acknowledgements

Type of funding sources: None.

Background

Conflicting results on the cardiovascular involvement after SARS-CoV-2 infection generated concerns on the safety of return-to-play (RTP) in the athletic population. However, these data are mainly based on Troponin and imaging findings.

Purpose

Aim of the study was to evaluate the prevalence of cardiac involvement after COVID-19 in Olympic athletes, who had previously been screened in our pre-participation program.

Methods

Since November 2020, all consecutive Olympic athletes presented to our Institute after COVID-19 prior RTP were enrolled. The protocol was dictated by the Italian governing bodies and comprised: 12-lead ECG, blood test, cardiopulmonary exercise test (CPET), 24-hours ECG monitoring, spirometry. Cardiovascular Magnetic Resonance (CMR) was also performed. All Athletes were previously screened in our Institute as part of their periodical pre-participation evaluation.

Results

Forty-seven Italian Olympic athletes were enrolled: 83% asymptomatic, 13% mildly asymptomatic, 4% had pneumonia. The evaluation was performed after a median of 9 days from negative SARS-CoV-2 swab. Uncommon premature ventricular contractions (PVCs) were found in 13% athletes, however, only 6% (n=3) were newly detected. All newly diagnosed uncommon PVCs were detected by CPET. One of these three athletes had evidence for acute myocarditis by CMR, along with Troponin raise; another had mild pericardial effusion. No one of the remaining athletes had abnormalities detected by CMR (Figure).

Conclusions

Cardiac abnormalities in Olympic athletes screened after COVID-19 resolution were detected in a minority and were associated with new ventricular arrhythmias. Only one had evidence for acute myocarditis (in presence of symptoms and elevated biomarkers). No one of the remaining athletes had abnormalities by imaging or laboratory test. Our data support the efficacy of the clinical assessment including exercise-ECG to raise suspicion for cardiovascular abnormalities after COVID-19. Instead, the routine use of CMR as a screening tool appears not justified.

Hemodynamic forces in olympic athletes assessed by cardiac magnetic resonance: a new non-invasive screening tool?

Funding Acknowledgements

Type of funding sources: None.

Background

Non-invasive evaluation of left ventricular hemodynamic forces (HDFs) by Cardiac Magnetic Resonance (CMR) is a promising tool to improve systolic and diastolic evaluation. No data are available on athletic population.

Purpose

To provide the range of normal values of HDFs in Olympic athletes and to evaluate the possible influence of different sport categories.

Methods

A group of Olympic athletes evaluated prior the Olympic games with unremarkable cardiovascular pre-participation screening tests underwent CMR without contrast administration. A group of sedentary subjects was enrolled as a control group. Cine-images were post-processed by a feature-tracking based software to estimate HDFs. HDFs were measured in apex-base (AB) and latero-septal (LS) directions, over the entire heartbeat, in systole and diastole. Athletes were divided in subgroups according to ESC sport classification for comparison. They were also divided according to the ejection fraction (EF ≤ or >53%).

Results

93 elite athletes (33% power, 33% mixed, 33% endurance) were enrolled. HDFs in AB and LS direction were 20.5%± 4.3 and 2.9%± 0.7 in the entire heartbeat, 32.6% ± 7 and 3.6%± 1 in systole, 11%± 4.1 and 2.3%± 0.8 in diastole. Comparing athletes of different sport category and sedentary controls no significant differences were found between groups (Table). Comparing athletes with ejection fraction (EF) £ 53% and > 53%, the former showed lower values of AB-HDFs assessed in the entire heartbeat and in systole (18.9 ± 4.6 % vs 20.9 ± 4.1; p= 0.024 and 29.6 ± 6.3 vs 33.3 ± 7; p= 0.024, respectively), but within the normal range.

Conclusion

We provide normal range for HDFs assessed by CMR in elite athletes and no differences were observed between sedentary controls and athletes involved in different sport categories. Comparing athletes with low-normal and normal ejection fraction, the former showed lower values of AB-HDFs but within the normal range.

Low prevalence of cardiac abnormalities in competitive athletes before the return-to-play after COVID-19 based on the italian strategy

Funding Acknowledgements

Type of funding sources: None.

Background

Conflicting results on the cardiovascular involvement after SARS-CoV-2 infection generated concerns on the safety of return-to-play (RTP) in the athletic population. However, data are limited to the approached based on Troponine, ECG and echocardiogram while the data on exercise test are scarce.

Purpose

Aim of the study was to evaluate the prevalence of cardiac involvement after COVID-19 in competitive athletes for the RTP applying a comprehensive cardiovascular evaluation.

Methods

Since October 2020, all consecutive competitive athletes (age≥14 years) presented to our Institute after COVID-19 prior RTP were enrolled. The protocol was dictated by the Italian governing bodies and comprised: 12-lead ECG, blood test, cardiopulmonary exercise test (CPET), 24-hours ECG monitoring, spirometry. Cardiovascular Magnetic Resonance (CMR) was performed based on clinical indication.

Results

219 competitive athletes were enrolled (59% male), age 23 years (19,27): 20% asymptomatic, 77% mildly asymptomatic, 2% had pneumonia. The evaluation was performed after a median of 10 days (6-17 days) from negative SARS-CoV-2 swab. All athletes had a good performance at CPET. Uncommon premature ventricular contractions (PVCs) were found in 10% (n=21) and were detected by CPET. Two athletes (1%) were finally diagnosed with acute myocarditis (confirmed by CMR) and another had newly diagnosed mild pericardial effusion (Figure). All the three athletes were temporally refrain from sport participation.

Conclusions

Cardiac abnormalities in competitive athletes screened after COVID-19 resolution were detected in a minority of the cases (1.4%). No one of the remaining athletes had abnormalities by imaging or laboratory test neither reduction in cardiopulmonary fitness. Our data are in line with those reporting low prevalence of cardiovascular complication in mildly symptomatic or symptomatic athletes.

Positive CMR findings are associated with polymorphic ventricle arrhythmias and ECG repolarization changes but not with exercises induced arrhythmias in competitive and non-competitive athletes

Funding Acknowledgements

Type of funding sources: None.

Background

Cardiac magnetic resonance (CMR) provides an effective contribution for the prevention of sudden cardiac death with its ability to provide accurate information on morpho-functional abnormalities and on myocardial tissue characterization. However, data on its utility in clinical scenario in the competitive athletes are limited to selected cohort of patients with complex arrhythmias.

Objective

To retrospectively analyze all the CMR performed at our center for evaluating the predictors of positive CMR findings in a large cohort of competitive and non-competitive athletes presenting with different clinical indications.

Methods

Over a period of 30 months all the CMR performed on athletes aged > 14 years and training for at least 5 hours per week at our Institutes were retrospectively recruited. The following data were also collected: medical history, ECG, echocardiography, exercise testing. CMR were categorized as "positive" or "negative" based on the presence or absence of late gadolinium enhancement (LGE, excluding RV insertion point) and/or morphological and/or functional abnormalities. Predictors of "positive" CMR were explored.

Results

503 CMR were recruited and the most frequent indications for CMR were: ventricular arrythmias (n= 213, 42%), ECG abnormalities (n= 140, 28%) followed by echocardiogram abnormalities, symptoms and family history (Figure A). 308 (61%) CMR were "negative" and 195 (39%) "positive" (Figure B). Uncommon ventricular arrythmias did not result associated with positive CMR (p= 0.43), while polymorphic ventricular beats are associated with positive CMR (p= 0.02). Among ECG abnormalities only T-waves inversion, particularly on lateral and infero-lateral leads, were associated with positive CMR (p= 0.04).

Conclusion

Ventricular arrhythmias represented the most common indication for require a CMR but in almost half the cases, the CMR was negative. Excises induced ventricular arrhythmias is not significantly associated with pathological findings on CMR, while the polymorphic morphology of arrhythmias and the presence of lateral and infero-lateral repolarization abnormalities on ECG were associated with positive CMR.

Natural history of right ventricle: longitudinal study in veteran athletes

Funding Acknowledgements

Type of funding sources: None.

INTRODUCTION

Right ventricular (RV) enlargement is a physiologic adaptation to long lasting athletic training. Its clinical implications for veteran athletes are poorly understood. In recent years, controversial data suggest an association between ultra-endurance exercise and a RV cardiomyopathy similar to arrhythmogenic cardiomyopathy (ACM). In this context, the effects of exercise detraining have not been extensively studied yet.

PURPOSE

The aim of this study was to assess the morphological and functional RV changes in veteran athletes and to evaluate the effect of a long period of detraining.

METHODS

This is a longitudinal study including 22 veteran rowers with at least 10 years of competitive career. We evaluated them with an echocardiographic assessment at baseline and after a minimum of 3 years of detraining (age: 23.2 ± 4.4 and 43 ± 7.4 years), by reducing the weekly training volume from 26 ± 0.7 to 3 ± 2 hours. In this second evaluation we also performed an RV strain analysis and a cardiac magnetic resonance (CMR) study.

RESULTS

RV end diastolic (ED) areas significantly reduced after detraining (31.48 ± 5.8 versus 28.59 ± 6.8; p = 0.001), although remaining larger than normal. RV enlargement was balanced: the ratio between inflow (IT) and outflow tract (OT) (RVIT/RVOT = 1.4 ± 0.1) and the ratio between RV and left ventricle (LV) (RV/LV = 0.81 ± 0.1) were within normal limits. The fractional area change (FAC%) was normal at baseline and increased significantly (41.5 ± 6% versus 45.8 ± 7%; p = 0.011). After detraining, RV longitudinal strain was normal (-19.7 ± 2.7%). CMR assessment showed enlarged RVED volumes (97.9 ± 14 ml/m2) but normal RV ejection fraction (55.5 ± 4.1%).

CONCLUSIONS

RV enlargement in endurance athletes persists after a long period of detraining. However, detraining results in a significant reduction of RV dimensions. Furthermore, the absence of RV dysfunction or disproportionate RV geometry are reassuring findings that suggest a physiological remodeling of the RV.

Significant echo findings. RV ECHO PARAMETERS BASELINE DETRAINING MEAN DIFF. (C.I. 95%) p VALUE RVOT plax (mm) 34.8 ± 4 33.7 ± 14 1.1 (0.18; 2.1) p = 0.011 RVOT psax (mm) 34.9 ± 3.3 33.09 ± 3.5 1.8 (0.9; 2.7) p < 0.001 RV basal diameter (mm) 47.31 ± 5.3 45.86 ± 6.4 1.4 (0.04; 2.8) p = 0.022 RV end-diastolic area (cm²) 31.48 ± 5.8 28.59 ± 6.8 2.8 (1.1; 4.6) p = 0.001 FAC% 41.5 ± 6 45.8 ± 7 0.04 (-0.07; -0.007) p = 0.011 RV inflow/outflow ratio 1.36 ± 0.1 1.36 ± 0.2 -0.003 (-0.06; 0.06) p = 0.454 RV/LV ratio 0.82 ± 0.07 0.81 ±0.1 0.01 (-0.01; 0.04) p = 0.219

Abstract Figure. Comparison in the same veteran athlete.

Gender difference in extreme cardiac remodelling in endurance olympic athletes assessed by non-contrast CMR

Funding Acknowledgements

Type of funding sources: None.

Background

Male and female athletes present difference spectrum of cardiac remodelling related to their sport activity. However data in elite female athletes are scarce and mainly limited to echocardiography evaluation. 

Purpose

The aim of the study was to assess gender difference in extreme cardiac remodelling in Olympic athletes engaged in endurance sport assessed by non-contrast Cardiovascular Magnetic Resonance including Mapping.

Methods 

Olympic athletes engaged in endurance sport (rowing, canoeing, mid/long distance swimming) were examined with history, physical examination, 12-lead and exercise electrocardiogram, and echocardiography as part of their evaluation prior the Olympic games (Tokyo 2020). Athletes with unremarkable evaluation were undergone to non-contrast CMR including Mapping.  The following parameters were calculated: indexed left ventricle (LV) and right ventricle (RV) end-diastolic (EDVi) and end-systolic volumes (ESVi), stroke volume (SVi), ejection fraction (EF), left and right atria area (LAAi and RAAi), LV Mass (Massi) and maximum wall thickness (MWT), RV/LV EDV ratio, spericity index [SI=(long axis diameter/2)3 * 4,187], myocardial native T1 (nT1) and T2 Mapping. 

Results

51 caucasian elite athletes (without difference in term of age, years of training and hours of training/week) were enrolled and 59% were male. Male showed greater LV EDVi (123 ± 28 ml vs 103 ± 10, p = 0.003), ESVi (55 ± 14 ml vs 44 ± 7, p = 0.001), SVi (68 ± 15 ml vs 59 ± 7, p = 0.023), Massi (76 ± 19 vs 57 ± 10, p < 0.001), MWT (10 ± 1 mm vs 8 ± 1, p < 0.001) and RV EDVi (129 ± 48 ml vs 104 ± 13, p = 0.026), ESVi (57 ± 10 ml vs 45 ± 9, p < 0.001), SVi (68 ± 15 ml vs 59 ± 7, p = 0.018) compared to female, as expected. LVEF (p = 0.05) and RVEF (p = 0.17) did not show significant difference.  Despite greater volumes, SI (43 ± 12% vs 44 ± 8, p = 0.8) and RV/LV EDV ratio (0.99 ± 0.05 vs 1 ± 0.05, p = 0.405) did not differ between male and female athletes, as well as LAAi (13 ± 3 cm2 vs 13 ± 1.5, p = 0.86) and RAAi (13 ± 1.9 vs 13 ± 18, p = 0.56). Native T1 mapping was lower in male compared with female (934 ± 21 ms vs 956 ± 33, p = 0.028) while T2 Map values were slightly higher (53 ± 3.9 ms vs 50 ± 3.8, p = 0.027) . 

Conclusions

Male endurance Olympic athletes presented higher volumes and LV mass compared to their female counterparts, while atria dimension, systolic function and sphericity index did not differ. Ventricles showed balanced dilatation in both gender. Lower T1 value observed in male suggested cellular hypertrophy.

Figure 1 showed CMR images in a male (top row) and a female (bottom row) Olympic athletes: 4 chamber end-diastolic and end-systolic frame and end-diastolic basal short axis (SAX) showed balanced dilatation. Graphs showed higher EDVi and Massi in male compared o female, no difference in sphericity index and lower native T1 mapping.

Abstract Figure 1

Influence of age and physical exercise on sirtuin activity in humans

Sirtuins are NAD+-dependent lysine deacetylases. Sirtuins acquired worldwide attention because of their ability to increase yeast, flies, worms and mice lifespan. Recently, this assumption has been challenged. However, their beneficial role on the quality of ageing is widely accepted. In this work we aimed to study how and if sirtuins expression and activity levels varies in function of age and, in the case of young subjects, of exercise. Fifteen blood donors of different ages and fifteen athletes of the Italian rowing male team were enrolled and peripheral blood mononuclear cells (PBMCs) isolated from blood samples. Our results show that sirtuins deacetylases activity measured in PBMCs increases from 18 to 40 years of age and then decreases during the following 20 years. Moreover, physical exercise in professional athletes can upregulate sirtuin activity. Thus, for the first time in humans, we demonstrate that sirtuin activity is a function of age and can be altered through physical exercise.

Endothelial (dys)function: the target of physical exercise for prevention and treatment of cardiovascular disease

AIM

Endothelial dysfunction has been recognized as the early event and the common feature of chronic disorders associated with increased risk for atherosclerotic heart diseases. While the beneficial effects of aerobic, moderate-intensity exercise on endothelial function are very well assessed, an intriguing doubt exists about the effects of long-term high-intensity physical activity. The aim of the present study was to compare recent findings of our group concerning homocysteine levels in athletes to available data in literature in order to clarify the meaning of such apparent metabolic paradox.

METHODS

The studied population included 185 athletes: 180 healthy age and sex matched subjects served as control group. The assessed variables included homocysteine, folate, vitamin B12, total and HDL cholesterol, LDH, CPK and IL-6. Results were compared to available data in literature.

RESULTS

The prevalence of hyperhomocysteinemia (>15 µmol/L) in athletes and controls was 55% and 15%, respectively. In the studied population, no correlation was found between homocysteine and all the other investigated variables.

CONCLUSION

The present results suggest that intensive physical training could induce a pathological increase of homocysteine levels. With this regard, it has been suggested that the observed increases of cardio-vascular risk factors in athletes could represent an adaptative feature marker of muscle demand but would not actually lead to endothelial damage. This remains, however, a speculative hypothesis and further analysis are needed in order to clarify the clinical significance of those observations in order to better preserve the athletes immediate and future health.

Cold exposure increases exercise-induced oxidative stress

AIM

We determined the combined effects of cold and exercise on oxidative stress during submaximal exercise.

METHODS

Sixteen amateur male cyclists pedaled at a constant speed corresponding to 85% of maximal HR as determined in normal conditions. Eight athletes pedaled indoors at 23 °C while 8 athletes pedaled outdoors at a temperature of 4-6 °C. We then evaluated the levels of reactive oxygen metabolites and plasma levels of antioxidants after exercise.

RESULTS

Performing a physical task in cold conditions increased the free radical production, as demonstrated by the augmented levels of reactive oxygen metabolites and the concomitant decrease of plasma levels of antioxidants in outdoors cyclists as compared to indoors cyclists. The overall ANOVA and the post-hoc comparisons revealed a significant exercise and temperature effect. The mean level of reactive oxygen metabolites in athletes who exercised indoors was significantly lower than that of the outdoor athletes. Moreover, the outdoors group presented plasma levels of antioxidants significantly lower than those of the indoors group.

CONCLUSION

Since several sports are performed outdoors during the winter season, the increased risk of oxidative stress in cold conditions must be considered in these disciplines. Cyclists, football and rugby players, and runners are all affected by the elevation in oxygen radicals induced by cold and should take appropriate precautions, such as specific antioxidant integration.

Assessment of body fluid balance and voluntary drinking in ultimate players during a match

AIM

Ultimate is a sport played by hundreds of thousands of people in more than 42 countries; however, it is still mainly known as a recreational more than a team sport, and further studies are needed to define its physical load. Particularly, since no studies relating Ultimate to hydration have been performed, we aimed to determine body fluid balance, voluntary water intake and the most reliable method for assessing the hydration status of players after a typical 80-minute Ultimate match.

METHODS

bioimpedance, urine specific gravity and body mass changes to asses the hydration level of the players were measured.

RESULTS

It was observed that not all of the methods are adequate to determine dehydration in Ultimate players, and that measurement of body mass changes represents a reliable and accurate technique.

CONCLUSIONS

These findings demonstrate that ultimate as an intense sport that can induce significant fluid loss, which is not always replaced by individual drinking.

The natural course of bicuspid aortic valve in athletes

The purpose of this study was to evaluate the impact of a long-term athletic training on the clinical course of bicuspid aortic valve. A group of 81 athletes (73 M, 8 F, 22.7 +/- 5.6 years) with bicuspid aortic valve was collected. Based on clinical and echocardiographic criteria, athletes were initially divided into 2 groups: the low-risk (51 athletes) and the high-risk group (30 athletes). The high-risk athletes were disqualified from training and competitions after the first evaluation. Over the follow-up period, all of them showed significant worsening of morphologic and hemodynamic features of bicuspid aortic valve; two underwent surgical valvular repair and one of them died suddenly. Over the same period, six of the initially low-risk athletes (7%) showed significant worsening of morphologic features of bicuspid aortic valve and/or incidence of symptoms which led to their disqualification from competition. At the end of follow-up, we observed that in high-risk subjects the progression of valvular disease occurred independently from the former athletic activity and that the majority of athletes with mild bicuspid aortic valve had a benign clinical course. However, athletes with bicuspid aortic valve should be viewed with caution, and continued clinical surveillance would be mandatory.

Atypical cutaneous manifestation of HSV-2 with Candida albicans co-infection in a patient with HIV-1

Herpes simplex virus type 2 (HSV-2) infection was one of the first opportunistic infections identified among patients with AIDS. In the literature there are many data suggesting that the natural history of HSV-2 infection is altered in HIV-HSV-2 co-infected patients. Furthermore, a relationship between HIV seropositivity and HBV infection because of their analogous way of transmission is also described. We report the case of a 37-year-old patient who suffered from multiple painful ulcerative lesions of the perianal region. Laboratory examination showed positivity for HIV and HBV infections. In HIV-positive patients perianal HSV-2 can have atypical manifestations, especially if co-infection by Candida albicans occurs.

Autonomic and psychological adaptations in Olympic rowers

AIM

Power spectral analysis of heart rate variability has been used to assess the time course of neurovegetative adaptations to training. This study was undertaken: 1) to evaluate whether and which indicator(s) of autonomic cardiac regulation and psychophysical stress can identify successful athletes during a training season culminating with the Olympic Games and 2) to evaluate the feasibility of a quasi-on-line assessment of autonomic cardiac regulation from training field, by a telematic approach.

METHODS

This study was conducted on the group of male athletes composing the Italian national team of rowing (n=34), in the season preceding the 2004 Olympic Games. Complete results are from 18 subjects (age 25.3+/-0.5 years), who were selected to participate to the Athens' Olympic games. Athletes were studied while partially detrained, at mid-training season and close to the games. The RR interval was obtained through a miniature transtelephonic-ECG recorder in the supine and standing posture, thus allowing the evaluation of cardiovascular responses to a sympathetic challenge. Data were downloaded through a telephone line, to the referral center where RR-interval variability data were analyzed with the autoregressive method. Also, in each study sessions, athletes filled a self-administered questionnaire of stress perception and somatic symptoms (4S-Q).

RESULTS

All ECG recordings were transmitted successfully by phone to the referral center. No significant difference was detected in any marker of autonomic cardiac regulation between athletes who won a medal at the Olympic Games and those who did not. However, respiratory rate was faster in medal winners (P=0.02), while the questionnaire addressing stress (4S-Q) provided greater scores in the group that did not win a medal (F=5.55, P<0.022) at mid-training season and close to the Olympic Games.

CONCLUSIONS

The results of this study would suggest the possibility of an early detection of psychosomatic symptoms resulting from long duration and elevated stress of preparing for top level competitions, whose better handling might identify the most successful athletes. In addition, it indicates the feasibility of a quasi-on-line assessment of autonomic cardiac adaptations to strenuous training directly from field to be possibly used for improving individual training programs, allowing athletes evaluation in their natural environment.

Role of exercise stress test in master athletes

BACKGROUND

The effectiveness of cardiovascular screening in minimising the risk of athletic field deaths in master athletes is not known.

OBJECTIVE

To evaluate the prevalence and clinical significance of ST segment depression during a stress test in asymptomatic apparently healthy elderly athletes.

METHODS

A total of 113 male subjects aged over 60 were studied (79 trained and 34 sedentary); 88 of them (62 trained and 26 sedentary) were followed up for four years (mean 2.16 years for athletes, 1.26 years for sedentary subjects), with a resting 12 lead electrocardiogram (ECG), symptom limited exercise ECG on a cycle ergometer, echocardiography, and 24 hour ECG Holter monitoring.

RESULTS

A significant ST segment depression at peak exercise was detected in one athlete at the first evaluation. A further case was seen during the follow up period in a previously "negative" athlete. Both were asymptomatic, and single photon emission tomography and/or stress echocardiography were negative for myocardial ischaemia. The athletes remained symptom-free during the period of the study. One athlete died during the follow up for coronary artery disease: he showed polymorphous ventricular tachycardia during both the exercise test and Holter monitoring, but no significant ST segment depression.

CONCLUSIONS

The finding of false positive ST segment depression in elderly athletes, although still not fully understood, may be related to the physiological cardiac remodelling induced by regular training. Thus athletes with exercise induced ST segment depression, with no associated symptoms and/or complex ventricular arrhythmias, and no adverse findings at second level cardiological testing, should be considered free from coronary disease and safe to continue athletic training.

Genes and olympic performance: a co-twin study

An Olympic gold medalist in a 20 km competitive walking race and his identical twin brother, also an Olympic athlete in the same event but with inferior performance, were tested in order to obtain some further insight into the relative importance of genetic factors in modulating athletic excellence. Both twins had undergone the same strenuous, long-term training for 19 years since the age of 15 under the guidance of the same coach. An assessment of their bio-behavioural profiles at 40 years of age, i. e. 7 years after they ceased training, revealed that intrapair differences were negligible in physiological attributes but divergent in personality traits measured. Respective values for the Olympic winner and his identical counterpart were as follows: Body mass index 23.2 and 22.7, cardiac mass index 85.4 and 84.4 g x m2, squatjumping 25.3 and 27.3 cm, VO2 at running speed 9 km x h(-1) 33.1 and 33.6 ml x kg(-1) x min(-1), VO2 max 57.1 and 58.6 ml x kg(-1) x min(-1) (72.5ml x kg(-1) x min(-1) for the Olympic winner at age 22 yrs), reaction to anger 97 and 9 and anger expression 2 and 76 in percentile of the State-Trait Anger Expression Inventory. Findings suggest that although genetic constitution and years of physical training are prerequisites for making an Olympic athlete, success may be largely influenced by personality traits.

Effects of aerobic exercise training on 24 hr profile of heart rate variability in female athletes

BACKGROUND

The aim of this study was to investigate the effects of exercise training on autonomic regulation of heart rate under daily life conditions.

METHODS

Twenty-six healthy female athletes (age 24.5 +/- 1.9 yrs) involved in regular physical activity were recruited during a period of yearly rest and randomly assigned to a five-week aerobic exercise training program (n = 13) or to a non-exercise control group (n = 13).

MEASURES

Before and after the five-week training, all subjects underwent a bycicle ergometer stress test and a 24-hour dynamic ECG monitoring. Autonomic regulation of heart rate has been investigated by means of both time and frequency domain analyses of heart rate variability (HRV). Spectral analysis of R-R interval variability (autoregressive algorithm) provided markers of sympathetic (low frequency, LF, 0.10 Hz) and parasympathetic (high frequency, HF, 0.25 Hz) modulation of the sinus node.

RESULTS

Trained subjects showed a reduced heart rate response to submaximal workload. Before training there was no significant difference between the two groups. After training resting heart rate did not significantly differ between trained and untrained subjects. No significant differences were observed in the different time domain indexes of heart rate variability. The day-night difference in SD and SDRR were significantly less in the trained as compared to the untrained group. Normalized LF and HF components did not significantly differ between trained and untrained subjects, during the awake period. The decrease in the LF and the increase in the HF component during nighttime were significantly less in the trained group. The LF/HF ratio was significantly decreased during the night in the untrained group whereas it was not significantly different from the awake state in the trained group.

CONCLUSIONS

These findings of the relative night-time increase in LF and the decrease in the day-night difference in time domain indexes of heart rate variability suggest that, in young female athletes, exercise training is able to induce an increase in the sympathetic modulation of the sinus node which may coexist with signs of relatively reduced, or unaffected, vagal modulation.

Clinical significance of abnormal electrocardiographic patterns in trained athletes

BACKGROUND-The prevalence, clinical significance, and determinants of abnormal ECG patterns in trained athletes remain largely unresolved. METHODS AND RESULTS-We compared ECG patterns with cardiac morphology (as assessed by echocardiography) in 1005 consecutive athletes (aged 24+/-6 years; 75% male) who were participating in 38 sporting disciplines. ECG patterns were distinctly abnormal in 145 athletes (14%), mildly abnormal in 257 (26%), and normal or with minor alterations in 603 (60%). Structural cardiovascular abnormalities were identified in only 53 athletes (5%). Larger cardiac dimensions were associated with abnormal ECG patterns: left ventricular end-diastolic cavity dimensions were 56. 0+/-5.6, 55.4+/-5.7, and 53.7+/-5.7 mm (P<0.001) and maximum wall thicknesses were 10.1+/-1.4, 9.8+/-1.3, and 9.3+/-1.4 mm (P<0.001) in distinctly abnormal, mildly abnormal, and normal ECGs, respectively. Abnormal ECGs were also most associated with male sex, younger age (<20 years), and endurance sports (cycling, rowing/canoeing, and cross-country skiing). A subset of athletes (5% of the 1005) showed particularly abnormal or bizarre ECG patterns, but no evidence of structural cardiovascular abnormalities or an increase in cardiac dimensions. CONCLUSIONS-Most athletes (60%) in this large cohort had ECGs that were completely normal or showed only minor alterations. A variety of abnormal ECG patterns occurred in 40%; this was usually indicative of physiological cardiac remodeling. A small but important subgroup of athletes without cardiac morphological changes showed striking ECG abnormalities that suggested cardiovascular disease; however, these changes were likely an innocent consequence of long-term, intense athletic training and, therefore, another component of athlete heart syndrome. Such false-positive ECGs represent a potential limitation to routine ECG testing as part of preparticipation screening.

Lack of correlation between ventricular late potentials and left ventricular mass in top-level male athletes

PURPOSE

The aim of this study was to establish: 1) the prevalence of abnormal signal-averaged electrocardiogram (SAECG) in a large population of top-level athletes and 2) the relationship between SAECG parameters and left ventricular mass. One-hundred and fifty-three elite male athletes without apparent heart disease, symptoms, or arrhythmias were studied.

METHODS

Fifty-six athletes (37%) had increased left ventricular mass (> 134 g.m(-2)). All athletes underwent time-domain SAECG on 300-400 heart beats recorded at rest from three bipolar orthogonal tests with a filter setting of 40-250 Hz. Criteria for abnormality were 1) filtered QRS duration > 114 ms, 2) duration of low-amplitude signals > 38 ms, or 3) root mean square voltage of the last 40 ms of the filtered QRS < 20 microV.

RESULTS

The prevalence of abnormal SAECG was 7.2% (abnormality of one parameter), 6.5% (abnormality of two parameters), and 5.8%(abnormality of three parameters). The prevalence of abnormal SAECG was similar in athletes with or without increased left ventricular mass.

CONCLUSIONS

In conclusion, this study showed: 1) the low rate of positive results of SAECG parameters in top-level male athletes, similar to that found in healthy sedentary subjects; and 2) the lack of correlation between left ventricular mass and overall SAECG parameters.

The electrocardiographic T wave changes in highly trained athletes during training. An old problem revisited

OBJECTIVE

To evaluate the T-wave pattern alterations during vigorous training in elite athletes.

SETTING

Institute of Sport Science in Rome and National Rowing Center in Piediluco, Italy.

STUDY POPULATION

Nine male and 7 female rowers of the national team were examined prospectively at different times of their conditioning period.

METHODS

All athletes underwent electrocardiography and echocardiography; the ecg was analyzed for QRS voltages and axis, T-wave pattern and QTc interval; from echocardiography the left ventricular (LV) cavity dimension, wall thickness and mass were calculated. From Doppler-echocardiography the transmitral diastolic LV filling pattern was evaluated.

RESULTS

Variation of T-wave voltages was seen in all the athletes. Specifically, during the low-intensity training period the T-wave pattern was positive and increased in voltage (T-wave max amplitude in V6 increased to 130% in male and 100% in female than pretraining values). During the peak training a variety of patterns was observed, and a transient flattening was present in 50% of subjects. No concomitant alteration of heart rate, QRS and T-wave axis and QTc duration were observed. No significant changes of cavity dimension, wall thickness, LV mass index and Doppler-derived diastolic peak flow velocities were detected during the study period.

CONCLUSIONS

Transient changes of T-wave pattern may occur in athletes as an effect of athletic conditioning, without changes of cardiac dimension or alteration of indexes of LV function. This finding supports the role of ecg monitoring to follow-up the individual athletes response to training exercise load.

Athlete's heart in women. Echocardiographic characterization of highly trained elite female athletes

OBJECTIVES; To define the expression of "athlete's heart" in women by determining the alterations in cardiac dimensions associated with long-term intense conditioning in elite female athletes. DESIGN; Prospective cardiovascular assessment conducted from 1986 through 1993. Subjects were evaluated using 2-dimensional, M-mode, and Doppler echo-cardiographic studies.

SETTING

Institute of Sports Science, Italian National Olympic Committee, Rome, Italy.

PARTICIPANTS

A total of 600 elite female athletes (mean age, 21 years; range, 12-49 years) who had participated in vigorous training (mean duration, 9 years; range, 2-32 years) and had competed in 27 sports, including 211 athletes at the international level and 389 at the national level. A control group consisted of 65 sedentary volunteer women (mean age, 23.7 years; range, 14-41 years) who were free of cardiovascular disease and who did not participate in regular athletic training.

MAIN OUTCOME MEASURES

Left ventricular end-diastolic cavity dimension and wall thickness.

RESULTS

Athletes demonstrated larger left ventricular end-diastolic cavity dimension (mean +/- SD) (49 +/- 4 mm) and greater maximal wall thickness (8.2 +/- 0.9 mm) than controls (46 +/- 3 mm and 7.2 +/- 0.6 mm; P < .001). These dimensions were 6% and 14% larger in athletes. Among athletes, left ventricular cavity dimension was 40 mm to 66 mm, exceeded normal limits ( > 54 mm) in 47 women (8%), and was within the range consistent with primary dilated cardiomyopathy ( > or = 60 mm) in 4 athletes (1%). Training for endurance sports, such as cycling, cross-country skiing, and rowing had the greatest effect on cavity dimension. Left ventricular wall thickness was 6 mm to 12 mm in athletes and did not exceed normal limits or extend into the borderline gray zone with hypertrophic cardiomyopathy in any subject. Compared with data from 738 previously studied male athletes, female athletes showed significantly smaller left ventricular cavity dimension (11% less; P < .001) and wall thickness (23% less; P < .001).

CONCLUSIONS

Highly trained women athletes frequently demonstrate cardiac dimensional changes as an adaptation to physical training, although absolute left ventricular cavity size exceeding normal limits was evident in a minority (8%) of women athletes and was rarely (1% of athletes) within the range of dilated cardiomyopathy. Athletic training was not a stimulus for substantial increases in absolute left ventricular wall thickness, which was within normal limits for all women athletes. These findings suggest that the clinical differentiation of athlete's heart and hypertrophic cardiomyopathy appears to be a diagnostic dilemma that is limited to male athletes.

Morphology of the "athlete's heart" assessed by echocardiography in 947 elite athletes representing 27 sports

In the present study, we used echocardiography to investigate the morphologic adaptations of the heart to athletic training in 947 elite athletes representing 27 sports who achieved national or international levels of competition. Cardiac morphology was compared for these sports, using multivariate statistical models. Left ventricular (LV) diastolic cavity dimension above normal (> 54 mm, ranging up to 66 mm) was identified in 362 (38%) of the 947 athletes. LV wall thickness above normal (> 12 mm, ranging up to 16 mm) was identified in only 16 (1.7%) of the athletes. Athletes training in the sports examined showed considerable differences with regard to cardiac dimensions. Endurance cyclists, rowers, and swimmers had the largest LV diastolic cavity dimensions and wall thickness. Athletes training in sports such as track sprinting, field weight events, and diving were at the lower end of the spectrum of cardiac adaptations to athletic training. Athletes training in sports associated with larger LV diastolic cavity dimensions also had higher values for wall thickness. Athletes training in isometric sports, such as weightlifting and wrestling, had high values for wall thickness relative to cavity dimension, but their absolute wall thickness remained within normal limits. Analysis of gender-related differences in cardiac dimensions showed that female athletes had smaller LV diastolic cavity dimension (average 2 mm) and smaller wall thickness (average 0.9 mm) than males of the same age and body size who were training in the same sport.(ABSTRACT TRUNCATED AT 250 WORDS)

Absence of left ventricular wall thickening in athletes engaged in intense power training

There is a widely held perception that power training increases left ventricular (LV) wall thickness. Consequently, in individual power-trained athletes, confusion may legitimately occur with regard to the differential diagnosis of athlete's heart and nonobstructive hypertrophic cardiomyopathy. To investigate the effects of systematic strength training on cardiac dimensions (particularly absolute LV wall thickness), 100 relatively young and highly conditioned athletes participating in weight and power lifting, wrestling, bobsledding and weight-throwing events for 3 to 24 years (mean 7) were studied by echocardiography. No athlete showed a maximal absolute LV wall thickness that exceeded the generally accepted upper limits of normal (i.e., 12 mm; range 8 to 12). When compared with 26 normal, sedentary control subjects of similar age and body surface area, maximal septal thickness was mildly but significantly greater in athletes (9.6 +/- 0.8 vs 9.0 +/- 0.5 mm; p < 0.001), as was the calculated LV mass index (96 +/- 12 vs 81 +/- 8 g/m2; p < 0.001); LV end-diastolic cavity dimension was similar in athletes and controls (55 +/- 4 and 54 +/- 3, respectively; p > 0.05). Consequently, echocardiographic data in this selected group of purely strength-trained athletes show that whereas this form of conditioning is associated with increased LV mass and a disproportionate increase in wall thickness in relation to cavity dimension, only modest alterations in absolute wall thickness occur (which do not exceed upper normal limits). Therefore, in highly conditioned, strength-trained, competitive athletes, the presence of substantial LV wall thickening (> 13 mm) should suggest alternative explanations, such as the diagnosis of pathologic hypertrophy (i.e., hypertrophic cardiomyopathy).

Reduction in left ventricular wall thickness after deconditioning in highly trained Olympic athletes

BACKGROUND

Clinical distinction between athlete's heart and hypertrophic cardiomyopathy in a trained athlete is often difficult. In an effort to identify variables that may aid in this differential diagnosis, the effects of deconditioning on left ventricular wall thickness were assessed in six highly trained elite athletes who had competed in rowing or canoeing at the 1988 Seoul Olympic Games. Each of these athletes showed substantial ventricular septal thickening associated with training (13-15 mm) which resembled that of hypertrophic cardiomyopathy.

METHODS

The athletes voluntarily reduced their training substantially for 6-34 weeks (mean 13) after the Olympic competition. Echocardiography was performed at peak training and also after deconditioning, and cardiac dimensions were assessed blindly.

RESULTS

Maximum ventricular septal thickness was 13.8 (0.9) mm in the trained state and 10.5 (0.5) in the deconditioned state (p < 0.005) (change 15-33%).

CONCLUSIONS

The finding that deconditioning may be associated with a considerable reduction in ventricular septal thickness in elite athletes over short periods strongly suggests that these athletes had a physiological form of left ventricular hypertrophy induced by training. Such a reduction in wall thickness with deconditioning may help to distinguish between the physiological hypertrophy of athlete's heart and primary pathological hypertrophy (for example, hypertrophic cardiomyopathy) in selected athletes with increased left ventricular wall thickness.

The upper limit of physiologic cardiac hypertrophy in highly trained elite athletes

BACKGROUND

In some highly trained athletes, the thickness of the left ventricular wall may increase as a consequence of exercise training and resemble that found in cardiac diseases associated with left ventricular hypertrophy, such as hypertrophic cardiomyopathy. In these athletes, the differential diagnosis between physiologic and pathologic hypertrophy may be difficult.

METHODS

To address this issue, we measured left ventricular dimensions with echocardiography in 947 elite, highly trained athletes who participated in a wide variety of sports.

RESULTS

The thickest left ventricular wall among the athletes measured 16 mm. Wall thicknesses within a range compatible with the diagnosis of hypertrophic cardiomyopathy (greater than or equal to 13 mm) were identified in only 16 of the 947 athletes (1.7 percent); 15 were rowers or canoeists, and 1 was a cyclist. Therefore, the wall was greater than or equal to 13 mm thick in 7 percent of 219 rowers, canoeists, and cyclists but in none of 728 participants in 22 other sports. All athletes with walls greater than or equal to 13 mm thick also had enlarged left ventricular end-diastolic cavities (dimensions, 55 to 63 mm).

CONCLUSIONS

On the basis of these data, a left-ventricular-wall thickness of greater than or equal to 13 mm is very uncommon in highly trained athletes, virtually confined to athletes training in rowing sports, and associated with an enlarged left ventricular cavity. In addition, the upper limit to which the thickness of the left ventricular wall may be increased by athletic training appears to be 16 mm. Therefore, athletes with a wall thickness of more than 16 mm and a nondilated left ventricular cavity are likely to have primary forms of pathologic hypertrophy, such as hypertrophic cardiomyopathy.

Coronary arteries in physiological hypertrophy: echocardiographic evidence of increased proximal size in elite athletes

One hundred and twenty-five healthy, male top-level athletes were evaluated by echocardiography (Echo) and assigned to six groups according to the size of the left ventricular mass (L. V. Mass), calculated according to Devereux R. B. et al.: less than or equal to 200, 201-250, 251-300, 301-350, 351-400, or greater than 400 g. Echo evaluation of coronary artery (c.a.) proximal size was performed following the method described by Kalavathy et al. (J Am Coll cardiol 1986, 8, 1119-1124). Two of us separately conducted the measurement of the c.a. diameter at congruent to 1 cm from the respective aortic ostium on M-Mode tracings and 2-D end-diastolic frames. The inter-observer variability was lower for the M-Mode (4.2%) than 2D (9.3%) measurements: the correlation between A and B observers equals r = 0.867 for the right c.a., and r = 0.859 for the left main c.a.

[Extreme cardiac hypertrophy in athletes. Morphological and functional echographic study]

Cardiac hypertrophy is an adaptation phenomenon of the heart as a result of increased hemodynamic load due to intense and prolonged training in athletes. This is mainly seen in endurance athletes. In some cases cardiac hypertrophy can mimic hypertrophic cardiomyopathy, specially if hypertrophy is mainly localized at the interventricular septum as compared to the left ventricular free wall. In our study we tried to evaluate the different diagnostic features obtained by echocardiography and clinical examination in a group of 23 athletes with marked hypertrophy (all were participants to the 1984 Olympic Games held in Los Angeles) as compared to a group of 11 sportsmen with non-obstructive hypertrophic cardiomyopathy (HC). Cardiomyopathy was diagnosed on the basis of clinical, echocardiographic and angio-scintigraphic findings. The 23 athletes were selected on the basis of M-Mode and 2D echocardiographic thickness of the interventricular septum (IVS) which was in diastole greater than or equal to 15 mm. They were all asymptomatic, only 4 of the 23 athletes had ECG anomalies due to left axis deviation (LAS) and T wave inversion. Only 4 of the subjects with HC had a family history of HC. ECG changes were the following: T wave inversion (9 subjects), left axis deviation (LAD) (4 subjects), deep Q wave in D2-3, aVF, V5-6 (2 subjects) and low voltage R wave in V5-6 (1 subject). All the athletes had marked hypertrophy of the IVS. Interventricular septum thickness (IVST) was 15.7 +/- 0.6 mm, with a range from 15 to 17.5 mm. Posterior wall thickness (PWT) was 13.7 +/- 1.1 with a range from 12 to 16 mm. The sportsmen with HC had an IVST of 16.2 +/- 3.5 mm and a PWT of 11.3 +/- 1.5 mm. The IVST/PWT ratio was significantly lower (p less than 0.01) in the athletes (1.14 +/- 0.02) when compared to the group with HC (1.4 +/- 0.3). In 7 of the subjects with HC the hypertrophy was mainly localized at the anterolateral segment of the interventricular septum (in 4 of these subjects the hypertrophy involved also the antero-lateral part of the left ventricular free wall).(ABSTRACT TRUNCATED AT 400 WORDS)

[Chronobiologic study of the dynamic electrocardiogram in healthy athletes with frequent ventricular ectopic beats]

The chronobiologic analysis has been applied to Dynamic ECG data in order to verify whether or not a circadian rhythm for heart rate (HR) and ventricular ectopic beats (VEB's) can be detected in athletes with frequent ventricular arrhythmia (range 169-2120 VEB's/hour). The study was carried out on 10 athletes (7 males and 3 females, aged 11-23 years), taking part in various sports, asymptomatic but characterized by a frequent VEB's. Data have been analysed by means of cosinor method. A circadian rhythm for HR was documented. A circadian rhythm for VEB's was validated in all but one of the athletes. The circadian acrophases for HR occur early in the afternoon. The circadian acrophases for VEB's are prominently diurnal (7 out of 10 cases). The VEB's circadian crest is not associated with the physical activity supporting a relative independency of the rhythmic generator of VEB's.