Int J Sports Med 2007; 28(2): 125-134
DOI: 10.1055/s-2006-924146
Training & Testing

© Georg Thieme Verlag KG Stuttgart · New York

Monitoring Changes in Performance, Physiology, Biochemistry, and Psychology during Overreaching and Recovery in Triathletes

A. J. Coutts1 , L. K. Wallace1 , K. M. Slattery1
  • 1Human Performance Laboratory, School of Leisure, Sport and Tourism, University of Technology, Sydney, Australia
Further Information

Publication History

Accepted after revision: March 27, 2006

Publication Date:
11 July 2006 (online)

Abstract

The present investigation compared responses in previously identified physiological, biochemical, and psychological markers of overreaching in triathletes. Sixteen experienced male triathletes (V·O2max [mean ± SD] = 55.7 ± 4.9 mL · kg-1 · min-1, age = 31.3 ± 11.7 yr) were divided into matched groups according to physical and performance characteristics, and were randomly assigned to either intensified training (IT) or normal training (NT) groups. Physiological, biochemical, and psychological measures were taken at baseline, following four weeks of overload training and following a two-week taper. The IT group completed 290 % greater physical training load than the NT group during the overload period. The subjects completed a 3-km run time trial (3-km RTT) each week in order to assess the time course of change in endurance performance. 3-km RTT performance was significantly reduced (3.7 ± 7.5 %; p < 0.05) following four weeks of overload training in the IT group confirming a state of overreaching. During the same period, 3-km RTT performance significantly improved in the NT group (3.0 ± 1.1 %; p < 0.05). Following the two-week taper, 3-km RTT performance significantly improved in the IT group (7.0 ± 5.6 %; p < 0.05). Hemoglobin concentration significantly decreased and urea increased in both groups during the overload period (p < 0.05). During the taper hemoglobin normalized with a greater increase in the IT group compared to the NT group (p < 0.05). A significant increase in free testosterone to cortisol ratio was also observed in the IT group compared to the NT group during the taper (p < 0.05). No significant changes were observed for any other biochemical variables during the period of investigation. The RESTQ-76 Sport questionnaire showed an impaired recovery-stress state with increased training load, which improved following the taper in the IT group (p < 0.05). These present results suggest that none of the physiological and biochemical variables measured in this study were effective for the early identification of overreaching in experienced triathletes. However, the RESTQ-76 Sport questionnaire may provide a practical tool for recognizing overreaching in its early stages. These findings have implications for monitoring training status in athletes in a practical training setting.

References

  • 1 Bonifazi M, Bela E, Carli G, Lodi L, Martelli G, Zhu B, Lupo C. Influence of training on the response of androgen plasma concentrations to exercise in swimmers.  Eur J Appl Physiol. 1995;  70 109-114
  • 2 Bonifazi M, Sardella F, Lupo C. Preparatory versus main competitions: differences in performances, lactate responses, and pre-competition plasma cortisol concentrations in elite male swimmers.  Eur J Appl Physiol. 2000;  82 368-373
  • 3 Borg G, Ljunggren G, Ceci R. The increase of perceived exertion aches and pain in the legs, heart rate, and blood lactate during exercise on a bicycle ergometer.  Eur J Appl Physiol. 1985;  54 343-349
  • 4 Chicharro J L, Lopez-Mojares L M, Lucía A, Pérez M, Alvarez J, Labanda P, Calvo F, Vaquero A F. Overtraining parameters in special military units.  Aviat Space Environ Med. 1998;  69 562-568
  • 5 Costill D L, Thomas R, Robergs R A, Pascoe D, Lambert C, Barr S, Fink W J. Adaptations to swimming training: influence of training volume.  Med Sci Sports Exerc. 1991;  23 371-377
  • 6 Coutts A J, Reaburn P RJ, Piva T, Rowsell G, Murphy A J. Predictors of changes in V·O2max during periods of intense training in rugby league players. Reilly T, Araújo D, Cabri J Science and Football V. London, UK; Routledge 2005: 387-394
  • 7 Dill D B, Costill D L. Calculation of percentage changes in volumes of blood, plasma, and red cells in dehydration.  J Appl Physiol. 1974;  37 247-248
  • 8 Foster C, Hector L L, Welsh R, Schrager M, Green M A, Snyder A C. Effects of specific versus cross-training on running performance.  Eur J Appl Physiol. 1995;  70 367-372
  • 9 Halson S L, Bridge M W, Meeusen R, Busschaert B, Gleeson M, Jones D A, Jeukendrup A E. Time course of performance changes and fatigue markers during intensified training in cyclists.  J Appl Physiol. 2002;  93 947-956
  • 10 Halson S L, Jeukendrup A E. Does overtraining exist? An analysis of overreaching and overtraining research.  Sports Med. 2004;  34 967-981
  • 11 Halson S L, Lancaster G, Jeukendrup A E, Gleeson M. Immunological responses to overreaching in cyclists.  Med Sci Sports Exerc. 2003;  35 854-861
  • 12 Hartmann U, Mester J. Training and overtraining markers in selected sport events.  Med Sci Sports Exerc. 2000;  32 209-215
  • 13 Hooper S L, Mackinnon L T, Hanrahan S. Mood states as an indication of staleness and recovery.  Int J Sports Psychol. 1997;  28 1-12
  • 14 Kargotich S, Goodman C, Keast D, Morton A R. The influence of exercise-induced plasma volume changes on the interpretation of biochemical parameters used for monitoring exercise, training and sport.  Sports Med. 1998;  26 101-117
  • 15 Kellmann M, Altenburg D, Lormes W, Steinacker J M. Assessing stress and recovery during preparation for the world championships in rowing.  Sport Psy. 2001;  15 151-167
  • 16 Kellmann M, Günther K. Changes in stress and recovery in elite rowers during preparation for the Olympic Games.  Med Sci Sports Exerc. 2000;  32 676-683
  • 17 Kellmann M, Kallus K W. Mood, recovery-stress state, and regeneration. Lehmann M, Foster C, Gastmann U, Keizer H, Steinacker JM Overload, Performance Incompetence and Regeneration in Sport. New York; Kluwer Academic/Plenum Publisher 1999: 101-118
  • 18 Kellmann M, Kallus K W. Recovery-Stress Questionnaire for Athletes: User Manual. Champaign, IL; Human Kinetics 2001: 35-64
  • 19 Koutedakis Y, Sharp N C. Seasonal variations of injury and overtraining in elite athletes.  Clin J Sports Med. 1998;  8 18-21
  • 20 Kreider R B, Fry A C, O'Toole M L. Overtraining in sport: terms, definitions and prevalence. Kreider RB, Fry AC, O'Toole ML Overtraining in Sport. Champaign, IL; Human Kinetics 1998: vii-ix
  • 21 Lac G, Berthon P. Changes in cortisol and testosterone levels and T/C ratio during an endurance competition and recovery.  J Sports Med Phys Fit. 2000;  40 139-144
  • 22 Lac G, Maso F. Biological markers for the follow-up of athletes throughout the training season.  Pathol Biol (Paris). 2004;  52 43-49
  • 23 Lehmann M, Foster C, Keul J. Overtraining in endurance athletes: a brief review.  Med Sci Sports Exerc. 1993;  25 854-862
  • 24 Lehmann M, Lormes W, Opitz Gress A, Steinacker J M, Netzer N, Foster C, Gastmann U. Training and overtraining: an overview and experimental results in endurance sports.  J Sports Med Phys Fit. 1997;  37 7-17
  • 25 Lehmann M, Wieland H, Gastmann U. Influence of an unaccustomed increase in training volume vs. intensity on performance, hematological and blood-chemical parameters in distance runners.  J Sports Med Phys Fit. 1997;  37 110-116
  • 26 Mackinnon L T, Hooper S L, Jones S, Gordon R D, Bachmann A W. Hormonal, immunological, and hematological responses to intensified training in elite swimmers.  Med Sci Sports Exerc. 1997;  29 1637-1645
  • 27 Mujika I, Padilla S. Scientific bases for precompetition tapering strategies.  Med Sci Sports Exerc. 2003;  35 1182-1187
  • 28 Naessens G, Chandler T J, Kibler W B, Driessens M. Clinical useful of nocturnal urinary noradrenaline excretion patterns in the follow-up of training processes in high-level soccer players.  J Strength Cond Res. 2000;  14 125-131
  • 29 Passelergue P. Saliva cortisol, testosterone and T/C ratio variations during a wrestling competition and during the post-competitive recovery period.  Int J Sports Med. 1999;  20 109-113
  • 30 Rietjens G J, Kuipers H, Adam J J, Saris W H, van Breda E, van Hamont D, Keizer H A. Physiological, biochemical, and psychological markers of strenuous training-induced fatigue.  Int J Sports Med. 2005;  26 16-26
  • 31 Rowbottom D G, Keast D, Morton A R. Monitoring and preventing of overreaching and overtraining in endurance athletes. Kreider RB, Fry AC, O'Toole ML Overtraining in Sport. Champaign, IL; Human Kinetics 1998: 47-66
  • 32 Smith D J. A framework for understanding the training process leading to elite performance.  Sports Med. 2003;  33 1103-1126
  • 33 Smith L L. Tissue trauma: the underlying cause of overtraining syndrome?.  J Strength Cond Res. 2004;  18 185-193
  • 34 Urhausen A, Gabriel H H, Weiler B, Kindermann W. Ergometric and psychological findings during overtraining: a long-term follow-up study in endurance athletes.  Int J Sports Med. 1998;  19 114-120
  • 35 Urhausen A, Kindermann W. Diagnosis of overtraining. What tools do we have?.  Sports Med. 2002;  32 95-102
  • 36 Urhausen A, Kullmer T, Kindermann W. A 7-week follow-up study of the behaviour of testosterone and cortisol during the competition period in rowers.  Eur J Appl Physiol. 1987;  56 528-533

Ph.D. Aaron J. Coutts

School of Leisure, Sport and Tourism
University of Technology, Sydney
Kuring-gai Campus

P.O. Box 222

Lindfield, NSW 2070

Sydney

Australia

Phone: + 61295145188

Fax: + 61 2 95 14 51 95

Email: aaron.coutts@uts.edu.au

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