Abstract
The purpose of this study was to relate measurements of blood lactate concentration, performance during a maximal anaerobic lactic test (MANLT) and training loads during a 23-week swimming season. Six elite 200-m freestyle male swimmers [mean age 19.5 (SD 1.6) years, height 184 (SD 5) cm and body mass 77.7 (SD 9.0) kg], participated in the study. The MANLT consisted of four all-out 50-m swims interspersed with 10-s recovery periods. Blood lactate concentrations were determined at 3 and 12-min post-exercise and were performed on weeks 2, 6,10,14,18 and 21. Swimmers participated in 200-m freestyle competitions on weeks 1, 7,13 and 23 (national championships). During weeks 1–10, training mostly involved aerobic exercise, while during weeks, 11–23, it involved anaerobic exercise. At 3-min and 12-min post-MANLT lactate concentrations varied throughout the season [range from 14.9 (SD 1.2) to 18.7 (SD 1.0) mmol·l−1] but demonstrated non-systematic variations. In contrast, the percentage of mean blood lactate decrease (% [La-]recovery) between min 3 and min 12 of the passive recovery post-MANLT increased from week 2 to 10 with aerobic training and decreased from week 10 to 21 with anaerobic training. The MANLT performance improved continuously throughout the season, while competition performance improved during the first three competitions but declined in the final championships, coinciding with the lowest % [La-]recovery and signs of overtraining, such as bad temper and increased sleeping heart rate. The results of this study indicated that % [La-]recovery could be an efficient marker for monitoring the impact of aerobic and anaerobic training and avoiding overtraining in elite 200-m swimmers.
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References
Basset DR, Merrill PW, Nagle FJ, Agre JC, Sampredo R (1991) Rate of decline in blood lactate after cycling exercise in endurancetrained and -untrained subjects. J Appl Physiol 70:1816–1820
Beckett KD, Steigbigel K (1993) Effect of warm down techniques on the removal of lactic acid following maximal human performance. J Swim Res 9:32–35
Bishop P, Martino M (1993) Blood lactate measurement in recovery as an adjunct to training. Practical considerations. Sports Med 16:5–13
Busso T, Carasso C, Lacour JR (1991) Adaquacy of a systems structure in the modeling of training effects on performance. J Appl Physiol 71:2044–2049
Calvert TW, Banister EW, Savage MV, Bach T (1976) A systems model of the effects of training on physical performance. IEEE Trans Syst Man Cybern 6:94–102
Carlile F, Carlile U (1957) T wave changes in the ECG associated with prolonged periods of strenuous exercise in sportsmen with special reference to training swimmers. Phys Ed J 17:10–20
Cazorla G, Dufort C, Montpetit R, Cervetti JP (1983) The influence of active recovery from swimming exhausting work on the lactate metabolism. In: Nelson RC, Morehouse CA (eds) Biomechanics and medicine in swimming. International Series on Sport Sciences. University Park Press, Baltimore, pp 244–250
Chatard JC, Paulin M, Lacour JR (1988) Post competition blood lactate measurements and swimming performance: illustrated by data from a 400 m Olympic record holder. In: Ungerechts BE et al (eds), Swimming V. Human Kinetics Champaign, Ill pp 311–316
Costill DL (1992) Lactate metabolism for swimming. In: MacLaren D, Reilly T, Lees A (eds) Swimming science VI. Spon, London pp 3–11
Costill DL, Flynn MG, Kirwan JP, Houmard JA, Mitchell JB, Thomas R, Park SH (1988) Effects of repeated days of intensified training on muscle glycogen and swimming performance. Med Sci Sports Exerc 20:249–254
Donovan CM, Brooks GA (1983) Endurance training affects lactate clearance, not lactate production. Am J Physiol 244:83–92
Donovan CM, Pagliassotti MJ (1990) Enhanced efficiency of lactate removal after endurance training. J Appl Physiol 68:1053–1058
Duan C, Winder W (1994) Effect of endurance training on activators of glycolysis in muscle during exercise. J Appl Physiol 76:846–852
Durnin JVGA, Rahaman MN (1967) The assessment of fat in the human body from measurements of skinfold thickness. Br J Nut 21:681–689
Francaux MA, Jacqmin PA, Sturbois XG (1993) The maximum lactate clearance: a new concept to approach the endurance level of an athlete. Arch Int Physiol Biochim Biocphys 101:57–61
Freund H, Zouloumian P, Oyono S, Lambert E (1984) Lactate kinetics after maximal exercise in man. Med. Sport Sci 17:9–24
Freund H, Oyono-Enguelle S, Heitz A, Marbach J, Ott C, Gartner M (1989) Effect of exercise duration on lactate kinetics after short muscular exercise. Eur J Appl Physiol 58:534–542
Fry RW, Morton AR, Keast D (1991) Overtraining in athletes. An update. Sports Med 12:32–65
Fukuba, Y, Walsh ML, Cameron BJ, Morton RH, Kenny CT, Banister EW (1992) The clearance rate of exercise-elevated blood lactate following physical training. Ann Physiol Anthropol 11:369–376
Heppes L, Telander T, Forbes T, Lawerence M, Troup JP (1988) The effect of work intensity of lactate production and recovery in highly trained swimmers. Med Sci Sport Exercise 20:S49
Hooper SL, Mackinnon LT, Gordon RD, Bachmann AW (1993) Hormonal responses of elite swimmers to overtraining. Med Sci Sports Exerc 25:741–747
Hooper SL, Mackinnon LT, Howard A, Gordon RD, Bachmann AW (1995) Markers for monitoring overtraning and recovery. Med Sci Sports Exerc 1:106–112
Jeukendrup AE, Hesselink MKC, Snyder AC, Kuipers H, Keizer HA (1992) Physiological changes in male competitive cyclists after two weeks of intensified training. Int J Sports Med 13:534–541
Kame VD, Pendergast DR, Termin B (1990) Physiological responses to high intensity training in competitive university swimmers. J Swim Res 6:5–9
Keskinen KL, Komi PV, Rusko H (1989) A comparative study of blood lactate tests in swimming. Int J Sports Med 10:197–201
Kirwan JP, Costill DL, Flynn MG, Mitchell JB, Fink WJ, Neuter PD, Houmard JA (1988) Physiological responses to successive days of intense training in competitive swimmers. Med Sci Sports Exerc 20:255–259
Kuipers H, Keizer HA (1988) Overtraining in elite athletes. Review and directions for the future. Sports Med 6:79–92
Lavoie JM, Leger LA, Leone M, Provencher PJ (1985) A maximal multistage swim test to determinate the functional and maximal aerobic power of competitive swimmers. J Swim Res 1:17–22
Lehmann M, Foster C, Keul J (1993) Overtraining in endurance athletes: a brief review. Med Sci Sports Exerc 25:854–862
Lindinger MI, McKelvie RS, Heigenshauser GJF (1995) K+ and Lac− distribution in humans during and after high-intensity exercise: role in muscle fatigue attenuation? J Appl Physiol 78:765–777
MacMaster WC, Stoddard T, Duncan W (1989) Enhancement of blood lactate clearance following maximal swimming. Effect of velocity of recovery swimming. Am J Sports Med 17:472–477
MacRae HS, Dennis SC, Bosh AN, Noakes TD (1992) Effects of training on lactate production and removal during progressive exercise in humans. J Appl Physiol 72:1649–1656
Mader AM, Heck C, Hollmann W (1978) Evaluation of lactic acid anaerobic energy contribution by determination of post-exercise lactic acid concentration of ear capillary blood in middle distance runners and swimmers. Exerc Physiol 4:181–187
Noll A (1974) Methoden der enzymatischen Analyse, 3rd edn. In: Bergmeyer HU led) 2. Verlag Chimie, Weinheim p. 1521
Pelayo P (1985) Variations de l'équilibre acido-basique et charges d'entramement chez le nageur de compétition (100 et 200 mètres). STAPS 6:23–28
Pelayo P, Moretto P, Robin H, Sidney M, Gerbeaux M, Latour M, Lavoie JM (1995) Adaptation of maximal aerobic and anaerobic tests for disabled swimmers. Eur J Appl Physiol 71:512–517
Rushall BS, King HA (1994) The value of physiological testing with a elite group of swimmers. Aust J Sci Med Sport 26:14–21
Ryan R, Cotle E, Quick R (1990) Blood lactate profile throughout a training season in elite female swimmers. J Swim Res 6:5–9
Sahlin K, Henriksson J (1984) Buffer capacity and lactate accumulation in skeletal muscle of trained and untrained men. Acta Physiol Scand 122:331–339
Sawka MN, Knowlton RO, Miles DS, Critz JB (1979) Post competition blood lactate concentrations in collegiate swimmers. Eur J Appl Physiol 41:93–99
Snyder AC, Jeukendrup AE, Hesselink MKC, Kuipers H, Foster C (1993) A physiological/psychological indicator of over-reaching during intensive training. Int J Sports Med 14:29–32
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Pelayo, P., Mujika, I., Sidney, M. et al. Blood lactate recovery measurements, training, and performance during a 23-week period of competitive swimming. Europ. J. Appl. Physiol. 74, 107–113 (1996). https://doi.org/10.1007/BF00376502
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DOI: https://doi.org/10.1007/BF00376502