Subscribe to RSS
DOI: 10.1055/s-2006-924490
© Georg Thieme Verlag KG Stuttgart · New York
Heart Rate Variability, Training Variation and Performance in Elite Swimmers
Publication History
Accepted after revision: June 20, 2006
Publication Date:
16 November 2006 (online)
Abstract
The aim of the present study was to investigate the relationships between heart rate variability (HRV) changes and both training variations and performances in elite swimmers. A secondary purpose was to measure catecholamine urinary excretion in elite swimmers to validate the HRV indices of sympathetic activity during training. Thirteen swimmers (4 females and 9 males) were tested before and after 4 weeks of intense training (IT) and 3 weeks of reduced training (RT). At the end of each period, the swimmers participated in an official competition of their best event. Individual performances were expressed as percentage of the previous season's best performance. Spectral analysis was used to investigate RR interval variability. HRV indices failed to show any significant changes between the study periods (p > 0.05). Pre-IT HF was correlated with performance (r = 0.45; p = 0.05) and HFnu (r = 0.59; p < 0.05) during RT. On the other hand, once RT was completed, HFnu was correlated positively to performance (r = 0.81; p < 0.01) and negatively to fatigue (r = - 0.63; p < 0.03). Conversely, the indices of sympathetic activity, i.e., LFnu and LF/HF ratio were inversely related to performance (both r = - 0.81; p < 0.01); total fatigue score was correlated to the changes in HFnu (r = - 0.63; p < 0.03) and in the LF/HF ratio (r = 0.58; p < 0.05). Changes in the adrenaline/noradrenaline ratio over the follow-up period were related to the changes in the LF/HF ratio (r = 0.45; p < 0.03). In highly trained swimmers coping well with a training program, including 4 weeks of IT followed by 3 weeks of RT, HRV indices were unaltered. On the other hand, after the 3 weeks of RT, HFnu was positively related to performance and inversely related to the fatigue score. Thus, elevated initial HF levels could be important in the parasympathetic activity increases during taper and, hence, in swimming performance improvement.
Key words
Autonomic nervous system - overreaching - tapering - swimming
References
- 1 Achten J, Jeukendrup A E. Heart rate monitoring: applications and limitations. Sports Med. 2003; 33 517-538
- 2 Atlaoui D, Duclos M, Gouarne C, Lacoste L, Barale F, Chatard J C. The 24-h urinary cortisol/cortisone ratio for monitoring training in elite swimmers. Med Sci Sports Exerc. 2004; 36 218-224
- 3 Atlaoui D, Duclos M, Gouarne C, Lacoste L, Barale F, Chatard J C. 24-hr urinary catecholamine excretion, training and performance in elite swimmers. Int J Sports Med. 2006; 27 314-321
- 4 Aubert A E, Seps B, Beckers F. Heart rate variability in athletes. Sports Med. 2003; 33 889-919
- 5 Bosquet L, Papelier Y, Leger L, Legros P. Night heart rate variability during overtraining in male endurance athletes. J Sports Med Phys Fitness. 2003; 43 506-512
- 6 Esler M, Jennings G, Korner P, Willett I, Dudley F, Hasking G, Anderson W, Lambert G. Assessment of human sympathetic nervous system activity from measurements of norepinephrine turnover. Hypertension. 1988; 11 3-20
- 7 Fortrat J O, Formet C, Frutoso J, Gharib C. Even slight movements disturb analysis of cardiovascular dynamics. Am J Physiol. 1999; 277 H261-H267
- 8 Fry R W, Morton A R, Keast D. Overtraining in athletes. An update. Sports Med. 1991; 12 32-65
- 9 Garet M, Tournaire N, Roche F, Laurent R, Lacour J R, Barthelemy J C, Pichot V. Individual Interdependence between nocturnal ANS activity and performance in swimmers. Med Sci Sports Exerc. 2004; 36 2112-2118
- 10 Goldsmith R L, Bigger Jr J T, Steinman R C, Fleiss J L. Comparison of 24-hour parasympathetic activity in endurance-trained and untrained young men. J Am Coll Cardiol. 1992; 20 552-558
- 11 Grassi G, Vailati S, Bertinieri G, Seravalle G, Stella M L, Dell'Oro R, Mancia G. Heart rate as marker of sympathetic activity. J Hypertens. 1998; 16 1635-1639
- 12 Hautala A J, Makikallio T H, Kiviniemi A, Laukkanen R T, Nissila S, Huikuri H V, Tulppo M P. Cardiovascular autonomic function correlates with the response to aerobic training in healthy sedentary subjects. Am J Physiol. 2003; 285 H1747-H1752
- 13 Hay M, Mormede P. Determination of catecholamines and methoxycatecholamines excretion patterns in pig and rat urine by ion-exchange liquid chromatography with electrochemical detection. J Chromatogr B Biomed Sci Appl. 1997; 703 15-23
- 14 Hedelin R, Bjerle P, Henriksson-Larsen K. Heart rate variability in athletes: relationship with central and peripheral performance. Med Sci Sports Exerc. 2001; 33 1394-1398
- 15 Hedelin R, Kentta G, Wiklund U, Bjerle P, Henriksson-Larsen K. Short-term overtraining: effects on performance, circulatory responses, and heart rate variability. Med Sci Sports Exerc. 2000; 32 1480-1484
- 16 Hedelin R, Wiklund U, Bjerle P, Henriksson-Larsen K. Cardiac autonomic imbalance in an overtrained athlete. Med Sci Sports Exerc. 2000; 32 1531-1533
- 17 Hedelin R, Wiklund U, Bjerle P, Henriksson-Larsen K. Pre- and post-season heart rate variability in adolescent cross-country skiers. Scand J Med Sci Sports. 2000; 10 298-303
- 18 Iellamo F, Legramante J M, Pigozzi F, Spataro A, Norbiato G, Lucini D, Pagani M. Conversion from vagal to sympathetic predominance with strenuous training in high-performance world class athletes. Circulation. 2002; 105 2719-2724
- 19 Iellamo F, Pigozzi F, Spataro A, Lucini D, Pagani M. T-wave and heart rate variability changes to assess training in world-class athletes. Med Sci Sports Exerc. 2004; 36 1342-1346
- 20 Iellamo F, Pizzinelli P, Massaro M, Raimondi G, Peruzzi G, Legramante J M. Muscle metaboreflex contribution to sinus node regulation during static exercise: insights from spectral analysis of heart rate variability. Circulation. 1999; 100 27-32
- 21 Kingwell B A, Thompson J M, Kaye D M, McPherson G A, Jennings G L, Esler M D. Heart rate spectral analysis, cardiac norepinephrine spillover, and muscle sympathetic nerve activity during human sympathetic nervous activation and failure. Circulation. 1994; 90 234-240
- 22 Knöpfli B, Calvert R, Bar-Or O, Villiger B, Von Duvillard S P. Competition performance and basal nocturnal catecholamine excretion in cross-country skiers. Med Sci Sports Exerc. 2001; 33 1228-1232
- 23 Kuipers H, Keizer H A. Overtraining in elite athletes. Review and directions for the future. Sports Med. 1988; 6 79-92
- 24 Lee C M, Wood R H, Welsch M A. Influence of short-term endurance exercise training on heart rate variability. Med Sci Sports Exerc. 2003; 35 961-969
- 25 Montano N, Cogliati C, Porta A, Pagani M, Malliani A, Narkiewicz K, Abboud F M, Birkett C, Somers V K. Central vagotonic effects of atropine modulate spectral oscillations of sympathetic nerve activity. Circulaion. 1998; 98 1394-1399
- 26 Mujika I, Chatard J C, Busso T, Geyssant A, Barale F, Lacoste L. Effects of training on performance in competitive swimming. Can J Appl Physiol. 1995; 20 395-406
- 27 Nakamura Y, Yamamoto Y, Muraoka I. Autonomic control of heart rate during physical exercise and fractal dimension of heart rate variability. J Appl Physiol. 1993; 74 875-881
- 28 Pagani M, Montano N, Porta A, Malliani A, Abboud F M, Birkett C, Somers V K. Relationship between spectral components of cardiovascular variabilities and direct measures of muscle sympathetic nerve activity in humans. Circulation. 1997; 95 1441-1448
- 29 Pichot V, Roche F, Gaspoz J M, Enjolras F, Antoniadis A, Minini P, Costes F, Busso T, Lacour J R, Barthelemy J C. Relation between heart rate variability and training load in middle-distance runners. Med Sci Sports Exerc. 2000; 32 1729-1736
- 30 Portier H, Louisy F, Laude D, Berthelot M, Guezennec C Y. Intense endurance training on heart rate and blood pressure variability in runners. Med Sci Sports Exerc. 2001; 33 1120-1125
- 31 Ruha A, Sallinen S, Nissila S. A real-time microprocessor QRS detector system with a 1-ms timing accuracy for the measurement of ambulatory HRV. IEEE Trans Biomed Eng. 1997; 44 159-167
- 32 Task-Force . Heart rate variability. Standards of measurement, physiological interpretation, and clinical use. Task Force of the European Society of Cardiology and the North American Society of Pacing and Electrophysiology. Eur Heart J. 1996; 17 354-381
- 33 Tulppo M P, Huikuri H V, Tutungi E, Kimmerly D S, Gelb A W, Hughson R L, Makikallio T H, Shoemaker J K. Feedback effects of circulating norepinephrine on sympathetic outflow in healthy subjects. Am J Physiol. 2005; 288 H710-H715
- 34 Tulppo M P, Makikallio T H, Takala T E, Seppanen T, Huikuri H V. Quantitative beat-to-beat analysis of heart rate dynamics during exercise. Am J Physiol. 1996; 271 H244-H252
- 35 Uusitalo A L, Uusitalo A J, Rusko H K. Endurance training, overtraining and baroreflex sensitivity in female athletes. Clin Physiol. 1998; 18 510-520
- 36 Uusitalo A L, Uusitalo A J, Rusko H K. Exhaustive endurance training for 6 - 9 weeks did not induce changes in intrinsic heart rate and cardiac autonomic modulation in female athletes. Int J Sports Med. 1998; 19 532-540
- 37 Yamamoto K, Miyachi M, Saitoh T, Yoshioka A, Onodera S. Effects of endurance training on resting and post-exercise cardiac autonomic control. Med Sci Sports Exerc. 2001; 33 1496-1502
- 38 Zouhal H, Rannou F, Gratas-Delamarche A, Monnier M, Bentue-Ferrer D, Delamarche P. Adrenal medulla responsiveness to the sympathetic nervous activity in sprinters and untrained subjects during a supramaximal exercise. Int J Sports Med. 1998; 19 172-176
Djamila Atlaoui
Service de Médecine du Sport
Pavillon 9, Bellevue
CHU de Saint-Etienne
42055 Saint-Etienne Cedex 2
France
Fax: + 33 4 77 12 72 29
Email: djamila.atlaoui@univ-st-etienne.fr