Effect of Long-Term Intensive Endurance Training on Left Ventricular Structure and Diastolic Function in Prepubertal Children

P. Obert; F. Stecken; D. Courteix; A.-M. Lecoq; P. Guenon

doi:10.1055/s-2007-971897

International Journal of Sports Medicine, Table of Contents

Int J Sports Med 1998; 19(2): 149-154
DOI: 10.1055/s-2007-971897

Orthopedics and Clinical Science

Effect of Long-Term Intensive Endurance Training on Left Ventricular Structure and Diastolic Function in Prepubertal Children

P. Obert, F. Stecken, D. Courteix, A.-M. Lecoq, P. Guenon

Laboratory of Muscular Exercise Physiology, Faculty of Sport Sciences, University of Orléans, France
Department of Cardiology, Hospital of La Présentation, Fleury-Les-Aubray, France

Abstract

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In children, the fact that cardiac anatomy and function, particularly during the diastolic phase, can adapt to endurance training is still uncertain. Therefore, this study was undertaken to evaluate the effect of a long-term intensive endurance swimming program on the cardiac structure and function of 10 - 11 year old children. The population consisted of 9 children who belonged to a local youth swimming team (S) and 11 recruited from a primary school to serve as a control group (C). The swimmers had been training on average 10 to 12 h · wk^-1 for at least 2 years. All the subjects were examined by M-mode, 2-di-mensional and pulsed-wave Doppler analyses according to standard procedures recommended by the American Society of Echocardiography. Investigations were carried out at rest with the subjects in a supine position. The results showed that highly trained children exhibited significantly higher left ventricular (LV) internal diameter (S: 41.6 ± 1.6,C: 39.0 ± 2.2 mm/m^1/3 surface area, p < 0.01) and LV mass (S: 68 ± 7,C: 59 ± 5 g/m² SA, p < 0.01). There were, however, no differences between S and C for chamber wall thickness (posterior wall S: 5.2 ± 0.6, C: 5.3 ± 0.6mm/m^1/3 SA; septum S: 5.8 ± 0.3, C: 5.8 ± 0.4 mm/m^1/3 SA), LV systolic function parameters (ejection fraction S: 77.1 ± 0.3, C: 77.7 ± 0.4 %; shortening fraction S: 38.9 ± 3.0, C: 39.7 ± 4.1 %) and the diastolic function parameters, estimated from LV inflow velocitometry (E wave S: 1.04 ± 0.12, C: 1.07 ± 0.16 m/s; A wave S: 0.45 ± 0.10, C: 0.55 ± 0.11 m/s). Finally, transaortic Doppler examinations demonstrated similar resting cardiac output (Qc) between both groups (S: 3.76 ± 0.81, C: 3.90 ± 0.671 min^-1). However, Qc were obtained with significantly lower heart rates (S: 69 ± 7, C: 83 + 14 beat · min^-1, P < 0.01) and higher stroke volumes (S: 55.2 ± 8.0, C: 47.5 ± 8.5 ml, P < 0.05) in S when compared to C. Thus, these findings strongly suggest that, as has been shown before in adults, several cardiac adaptations (including resting bradycardia, increased stroke volume and en-larged left ventricular internal dimensions) can occur in prepubertal children as a result of intensive endurance training. However, our results did not demonstrate any effects of such training during prepuberty on both diastolic and systolic functions parameters.

Key words

Prepuberty - echocardiography - doppler - diastolic function - endurance

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