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European Journal of Applied Physiology

Erschienen in:

01.10.2004 | Original Article

Lactate removal during active recovery related to the individual anaerobic and ventilatory thresholds in soccer players

verfasst von: Carlo Baldari, Miguel Videira, Francisco Madeira, Joaquim Sergio, Laura Guidetti

Erschienen in: European Journal of Applied Physiology | Ausgabe 1-2/2004

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Abstract

The aim of this study was to compare the lactate (La) removal during active recovery at three different work rates below the individual anaerobic threshold (IAT). Recently, it has been recommended that exercise intensity should be determined in relation to the IAT instead of the percentage of maximal oxygen uptake (V̇O_2max), especially for training and research purposes. Therefore, we defined the recovery work rates by calculating 50% of the threshold difference (ΔT) between the IAT and the individual ventilatory threshold (IVT) work rates, then choosing the IVT_+50%ΔT, the IVT and the IVT_−50%ΔT. All these work rates fell within the range (30–70% V̇O_2max) previously reported for optimal La removal. After a 6-min treadmill run at 90% V̇O_2max, soccer players [n=12 male, age 22 (1) years] performed, in a random order, four 30-min recovery treatments: (1) run at IVT_+50%ΔT, (2) at IVT, (3) at IVT_−50%ΔT, (4) passive recovery. La was obtained at 1, 3, 6, 9, 12, 15, 20, 25 and 30 min of recovery. The La removal curve was significantly affected by treatments (P<0.01) and recovery timing (P<0.01), with a significant interaction between them (P<0.01). Although they were more efficient than passive recovery, the studied work rates [between 39 (7) and 60 (4)% V̇O_2max) produced different lactate removal curves. IVT and IVT_−50%ΔT were significantly more efficient than IVT_+50%ΔT, while no difference was found between IVT and IVT_−50%ΔT for any time point. In conclusion, both IVT_−50%ΔT and IVT were efficient individual work rates for La removal, and no further La decrease occurred after 20 min.

Baldari C, Guidetti L (2000) A simple method for individual anaerobic threshold as predictor of max lactate steady state. Med Sci Sports Exerc 32:1798–1802CrossRefPubMed

Baldari C, Guidetti L (2001) V̇O_2max, ventilatory and anaerobic thresholds in rhythmic gymnasts and young female dancers. J Sports Med Phys Fitness 41:177–182PubMed

Belcastro AN, Bonen A (1975) Lactic acid removal rates during controlled and uncontrolled recovery exercise. J Appl Physiol 39:932–936PubMed

Bond V, Adams RG, Tearney RJ, Gresham K, Ruff W (1991) Effects of active and passive recovery on lactate removal and subsequent isokinetic muscle function. J Sports Med Phys Fitness 31:357–361PubMed

Bonen A, Belcastro AN (1976) Comparison of self-selected recovery methods on lactic acid removal rates. Med Sci Sports 8:176–178PubMed

Brehm BA, Gutin B (1986) Recovery energy expenditure for steady state exercise in runners and nonexercisers. Med Sci Sports Exerc 18:205–210PubMed

Brooks GA (2002) Lactate shuttles in nature. Biochem Soc Trans 30:258–264CrossRefPubMed

Dodd S, Powers SK, Callender T, Brooks E (1984) Blood lactate disappearance at various intensities of recovery exercise. J Appl Physiol 57:1462–1465PubMed

Donovan CM, Pagliassotti MJ (2000) Quantitative assessment of pathways for lactate disposal in skeletal muscle fiber types. Med Sci Sports Exerc 32:772–777CrossRefPubMed

Duuncan GE, Howley ET, Johnson BN (1997) Applicability of V̇O_2max criteria: discontinuous versus continuous protocols. Med Sci Sports Exerc 29:273–278PubMed

Ekblom B (1986) Applied physiology of soccer. Sports Med 3:50–60PubMed

Evans BW, Cureton KJ (1983) Effect of physical conditioning on blood lactate disappearance after supramaximal exercise. Br J Sports Med 17:40–45PubMed

Falk B, Einbinder M, Weinstein Y, Epstein S, Karni Y, Yarom Y, Rotstein A (1995) Blood lactate concentration following exercise: effects of heat exposure and of active recovery in heat-acclimatized subjects. Int J Sports Med 16:7–12PubMed

Fell JW, Rayfield JM, Gulbin JP, Gaffney PT (1998) Evaluation of the Accusport Lactate Analyser. Int J Sports Med 19:199–204PubMed

Gisolfi C, Robinson S, Turrell ES (1966) Effects of aerobic work performed during recovery from exhausting work. J Appl Physiol 21:1767–1772PubMed

Gladden LB (2000) Muscle as a consumer of lactate. Med Sci Sports Exerc 32:764–771CrossRefPubMed

Guidetti L, Musulin A, Baldari C (2002) Physiological factors in middleweight boxing performance. J Sports Med Phys Fitness 42:309–314PubMed

Gupta S, Goswami A, Sadhukhan AK, Mathur DN (1996) Comparative study of lactate removal in short term massage of extremities, active recovery and a passive recovery period after supramaximal exercise sessions. Int J Sports Med 17:106–110PubMed

Hagan RD, Smith MG (1984) Pulmonary ventilation in relation to oxygen uptake and carbon dioxide production during incremental load work. Int J Sports Med 5:193–197PubMed

Hermansen L, Stensvold I (1972) Production and removal of lactate during exercise in man. Acta Physiol Scand 86:191–201PubMed

Hollmann W (1959) Report on the Pan-American Congress of Sport Physicians in Chicago (1–2 September 1959) (in German). Sportarzt Ver Sportmed 10(12):285–286

Hollmann W (2001) 42 years ago—development of the concepts of ventilatory and lactate threshold. Sports Med 31:315–320PubMed

Issekutz B, Birkhead NC, Rodahl K (1962) Use of the respiratory quotients in assessment of aerobic capacity. J Appl Physiol 17:47–50

Kindermann W, Simon G, Keul J (1979) The significance of the aerobic–anaerobic transition for the determination of work load intensities during endurance training. Eur J Appl Physiol 42:25–34PubMed

McArdle WD, Katch FI, Katch VL (1996) Exercise physiology: energy, nutrition, and human performance. Williams & Wilkins, Baltimore, p 198

McGrail JC, Bonen A, Belcastro AN (1978) Dependence of lactate removal on muscle metabolism in man. Eur J Appl Physiol 39:89–97

McLellan TM, Skinner JS (1982) Blood lactate removal during active recovery related to the aerobic threshold. Int J Sports Med 3:224–229

McLellan TM, Cheung KS, Jacobs I (1991) Incremental test protocol, recovery mode and the individual anaerobic threshold. Int J Sports Med 12:190–195PubMed

Messonnier L, Freund H, Feasson L, Prieur F, Castells J, Denis C, Linossier MT, Geyssant A, Lacour JR (2001) Blood lactate exchange and removal abilities after relative high-intensity exercise: effects of training in normoxia and hypoxia. Eur J Appl Physiol 84:403–412CrossRefPubMed

Metra M, Raddino R, Dei Cas L, Visioli O (1990) Assessment of peak oxygen consumption, lactate and ventilatory thresholds and correlation with resting and exercise hemodynamic data in chronic congestive heart failure. Am J Cardiol 65:1127–1133CrossRefPubMed

Meyer T, Gabriel HH, Kinderman W (1999) Is determination of exercise intensities as percentages of V̇O_2max or HR_max adequate? Med Sci Sports Exerc 31:1342–1345CrossRefPubMed

Monedero J, Donne B (2000) Effect of recovery interventions on lactate removal and subsequent performance. Int J Sports Med 21:593–597CrossRefPubMed

Reilly T (1997) Energetics of high-intensity exercise (soccer) with particular reference to fatigue. J Sports Sci 15:257–263CrossRefPubMed

Reilly T, Bangsbo J, Franks A (2000) Anthropometric and physiological predispositions for elite soccer. J Sports Sci 18:669–683

Sahlin K (1992) Metabolic factors in fatigue. Sports Med 13:99–107PubMed

Sahlin K, Henriksson J (1984) Buffer capacity and lactate accumulation in skeletal muscle of trained and untrained men. Acta Physiol Scand 122:331–339PubMed

Shephard RJ (1999) Biology and medicine of soccer: an update. J Sports Sci 17:757–786CrossRefPubMed

Skinner JS, McLellan TH (1980) The transition from aerobic to anaerobic metabolism. Res Q Exerc Sport 51:234–248PubMed

Stamford BA, Weltman A, Moffatt R, Sady S (1981) Exercise recovery above and below anaerobic threshold following maximal work. J Appl Physiol 51:840–844PubMed

Stegmann H, Kindermann W (1982) Comparison of prolonged exercise tests at the individual anaerobic threshold and the fixed anaerobic threshold of 4 mmoll⁻¹ lactate. Int J Sports Med 3:105–110PubMed

Stegmann H, Kindermann W, Schnabel A (1981) Lactate kinetics and individual anaerobic threshold. Int J Sports Med 2:160–165PubMed

Taoutaou Z, Granier P, Mercier B, Mercier J, Ahmaidi S, Perfaut C (1996) Lactate kinetics during passive and partially active recovery in endurance and sprint athletes. Eur J Appl Physiol 73:465–470

Urhausen A, Coen B, Weiler B, Kindermann W (1993) Individual anaerobic threshold and maximum lactate steady state. Int J Sports Med 14:134–139PubMed

Urhausen A, Weiler B, Coen B, Kindermann W (1994) Plasma catecholamines during endurance exercise of different intensities as related to the individual anaerobic threshold. Eur J Appl Physiol 69:16–20

Titel: Lactate removal during active recovery related to the individual anaerobic and ventilatory thresholds in soccer players
verfasst von: Carlo Baldari
Miguel Videira
Francisco Madeira
Joaquim Sergio
Laura Guidetti
Publikationsdatum: 01.10.2004
Verlag: Springer-Verlag
Erschienen in: European Journal of Applied Physiology / Ausgabe 1-2/2004
Print ISSN: 1439-6319
Elektronische ISSN: 1439-6327
DOI: https://doi.org/10.1007/s00421-004-1203-5

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