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01.01.2006 | Original Article

Living high-training low: tolerance and acclimatization in elite endurance athletes

verfasst von: Julien V. Brugniaux, Laurent Schmitt, Paul Robach, Hervé Jeanvoine, Hugues Zimmermann, Gérard Nicolet, Alain Duvallet, Jean-Pierre Fouillot, Jean-Paul Richalet

Erschienen in: European Journal of Applied Physiology | Ausgabe 1/2006

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Abstract

The “living high-training low” (LHTL) model is frequently used to enhance aerobic performance. However, the clinical tolerance and acclimatization process to this intermittent exposure needs to be examined. Forty one athletes from three federations (cross-country skiers, n=11; swimmers, n=18; runners, n=12) separately performed a 13 to 18-day training at the altitude of 1,200 m, by sleeping either at 1,200 m (CON) or in hypoxic rooms (HYP), with an O₂ fraction corresponding to 2,500 m (5 nights for swimmers and 6 for skiers and runners), 3,000 m (6 nights for skiers, 8 for swimmers and 12 for runners) and 3,500 m (6 nights for skiers). Measurements performed before, 1 or 15 days after training were ventilatory response (HVRe) and desaturation (ΔSaO₂e) during hypoxic exercise, an evaluation of cardiac function by echocardiography, and leukocyte count. Lake Louise AMS score and arterial O₂ saturation during sleep were measured daily for HYP. Subjects did not develop symptoms of AMS. Mean nocturnal SaO₂ decreased with altitude down to 90% at 3,500 m and increased with acclimatization (except at 3,500 m). Leukocyte count was not affected except at 3,500 m. The heart function was not affected by LHTL. Signs of ventilatory acclimatization were present immediately after training (increased HVRe and decreased ΔSaO₂e) and had disappeared 15 days later. In conclusion, LHTL was well tolerated and compatible with aerobic training. Comparison of the three patterns of training suggests that a LHTL session should not exceed 3,000 m, for at least 18 days, with a minimum of 12 h day⁻¹ of exposure.

Ashenden MJ, Gore CJ, Dobson GP, Hahn AG (1999) “Live high, train low” does not change the total haemoglobin mass of male endurance athletes sleeping at a simulated altitude of 3000 m for 23 nights. Eur J Appl Physiol Occup Physiol 80:479–484PubMedCrossRef

Brugniaux JV, Schmitt L, Robach P, Nicolet G, Fouillot JP, Moutereau S, Lasne F, Pialoux V, Saas P, Chorvot MC, Olsen NV, Richalet JP (2005) Eighteen days of “Living High—Training Low” stimulate erythropoiesis and enhance aerobic performance in elite middle-distance runners. J Appl Physiol (in press)

Forster HV, Dempsey JA, Birnbaum ML, Reddan WG, Thoden J, Grover RF, Rankin J (1971) Effect of chronic exposure to hypoxia on ventilatory response to CO₂ and hypoxia. J Appl Physiol 31:586–592PubMed

Gore CJ, Hahn AG, Scroop GC, Watson DB, Norton KI, Wood RJ, Campbell DP, Emonson DL (1996) Increased arterial desaturation in trained cyclists during maximal exercise at 580 m altitude. J Appl Physiol 80:2204–2210PubMed

Hahn AG, Gore CJ, Martin DT, Ashenden MJ, Roberts AD, Logan PA (2001) An evaluation of the concept of living at moderate altitude and training at sea level. Comp Biochem Physiol A Mol Integr Physiol 128:777–789PubMedCrossRef

Hultgren HN, Miller H (1965) Right ventricular hypertrophy at high altitude. Ann N Y Acad Sci 127:627–631PubMedCrossRef

Javaheri S (2000) Effects of continuous positive airway pressure on sleep apnea and ventricular irritability in patients with heart failure. Circulation 101:392–397PubMed

Katayama K, Sato Y, Ishida K, Mori S, Miyamura M (1998) The effects of intermittent exposure to hypoxia during endurance exercise training on the ventilatory responses to hypoxia and hypercapnia in humans. Eur J Appl Physiol Occup Physiol 78:189–194PubMedCrossRef

Katayama K, Sato Y, Morotome Y, Shima N, Ishida K, Mori S, Miyamura M (1999) Ventilatory chemosensitive adaptations to intermittent hypoxic exposure with endurance training and detraining. J Appl Physiol 86:1805–1811PubMed

Levine B, Stray-Gundersen J, Duhaime G, Snell P, Friedman D (1991) “Living high-training low”: the effect of altitude acclimatization/normoxic training in trained runners (Abstract). Med Sci Sports Exerc 23:S25

Levine BD, Stray-Gundersen J (1992) A practical approach to altitude training: Where to live and train for optimal performance enhancement. Int J Sports Med 13(Suppl 1):S209–S212PubMed

Levine BD, Stray-Gundersen J (1997) “Living high-training low”: effect of moderate-altitude acclimatization with low-altitude training on performance. J Appl Physiol 83:102–112PubMed

Levine BD (2002) Intermittent hypoxic training: fact and fancy. High Alt Med Biol 3:177–193PubMedCrossRef

Liu Y, Steinacker JM, Dehnert C, Menold E, Baur S, Lormes W, Lehmann M (1998) Effect of “living high-training low” on the cardiac functions at sea level. Int J Sports Med 19:380–384PubMedCrossRef

Mujika I, Busso T, Lacoste L, Barale F, Geyssant A, Chatard JC (1996) Modeled responses to training and taper in competitive swimmers. Med Sci Sports Exerc 28:251–258PubMed

Pyne DB, McDonald WA, Morton DS, Swigget JP, Foster M, Sonnenfeld G, Smith JA (2000) Inhibition of interferon, cytokine, and lymphocyte proliferative response in elite swimmers with altitude exposure. J Interferon Cytokine Res 20:411–418PubMedCrossRef

Richalet JP, Kéromès A, Dersch B, Corizzi F, Mehdioui H, Pophillat B, Chardonnet H, Tassery F, Herry JP, Rathat C, Chaduteau C, Darnaud B (1988) Caractéristiques physiologiques des alpinistes de haute altitude. Sci Sports 3:89–108CrossRef

Richalet JP, Robach P, Jarrot S, Schneider JC, Mason NP, Cauchy E, Herry JP, Bienvenu A, Gardette B, Gortan C (1999) Operation Everest III: effects of prolonged and progressive hypoxia on humans during a simulated ascent to 8,848 m in a hypobaric chamber (COMEX’97). Adv Exp Med Biol 474:297–317PubMed

Richalet JP, Vargas Donoso M, Jiménez D, Antezana AM, Hudson C, Cortès G, Osorio J, Leòn A (2002) Chilean miners commuting from sea level to 4500 m: a prospective study. High Alt Med Biol 3:159–166PubMedCrossRef

Richalet JP, Herry JP (2003) Médecine de l’alpinisme, 3ème édn. Masson, Paris, pp 110–111

Richalet JP, Gratadour P, Robach P, Pham I, Déchaux M, Joncquiert-Latarjet A, Mollard P, Brugniaux J, Cornolo J (2005) Sildenafil inhibits altitude-induced hypoxemia and hypertension. Am J Respir Crit Care Med 171(3):275–281PubMedCrossRef

Robach P, Scmitt L, Brugniaux J, Nicolet G, Duvallet A, Fouillot JP, Pialoux V, Poutéreau S, Lasne F (2002) Living High-Training Low: effect on erythropoiesis and aerobic performance in highly trained cross-country skiers (Abstract). High Alt Med Biol 3(4):430

Robach P, Schmitt L, Brugniaux JV, Roels B, Millet G, Hellard P, Nicolet G, Duvallet A, Fouillot J-P, Moutereau S, Lasne F, Pialoux V, Olsen NV, Richalet J-P (2005) Living high – training low: effect on erythropoiesis and aerobic performance in highly-trained swimmers. Eur J Appl Physiol (submission number: EJAP-00251-2005)

Robergs RA, Quintana R, Parker DL, Frankel CC (1998) Multiple variables explain the variability in the decrement in \( \ifmmode\expandafter\dot\else\expandafter\.\fi{V}{\text{O}}_{2} \max \) during acute hypobaric hypoxia. Med Sci Sports Exerc 30:869–879

Sarybaev AS, Palasiewicz G, Usupbaeva DA, Plywaczewski R, Maripov AM, Sydykov AS, Mirrakhimov MM, Le Roux H, Kadyrov T, Zielinski J (2003) Effects of intermittent exposure to high altitude on pulmonary hemodynamics: a prospective study. High Alt Med Biol 4:455–463PubMedCrossRef

Sato M, Severinghaus JW, Bickler P (1994) Time course of augmentation and depression of hypoxic ventilatory responses at altitude. J Appl Physiol 77:313–316PubMed

Sawka MN, Convertino VA, Eichner ER, Schnieder SM, Young AJ (2000) Blood volume: importance and adaptations to exercise training, environmental stresses, and trauma/sickness. Med Sci Sports Exerc 32(2):332–348PubMedCrossRef

Tansley JG, Fatemian M, Howard LSGE, Poulin M, Robbins P (1998) Changes in respiratory control during and after 48 h of isocapnic and poikilocapnic hypoxia in humans. J Appl Physiol 85(6):2125–2134PubMed

The Lake Louise Consensus on the definition, quantification of altitude illness (1992) In: Sutton JR, Coates G, Houston CS (eds) Hypoxia and mountain medicine. Queen City Printers Inc., Burlington, pp 327–330

Tiollier E, Schmitt L, Burnat P, Fouillot JP, Robach P, Filaire E, Guezennec C, Richalet JP (2005) Living high-training low altitude training: effects on mucosal immunity. Eur J Appl Physiol 94(3):298–304PubMedCrossRef

Townsend NE, Gore CJ, Hahn AG, Mckenna MJ, Aughey RJ, Clark SA, Kinsman T, Hawley JA, Chow CM (2002) Living high-training low increases hypoxic ventilatory response of well-trained endurance athletes. J Appl Physiol 93:1498–1505PubMed

Weil JV, Byrne-Quinn E, Sodal IE, Friesen WO, Underhill B, Filley GF, Grover RF (1970) Hypoxic ventilatory drive in normal man. J Clin Invest 49:1061–1072PubMedCrossRef

Titel: Living high-training low: tolerance and acclimatization in elite endurance athletes
verfasst von: Julien V. Brugniaux
Laurent Schmitt
Paul Robach
Hervé Jeanvoine
Hugues Zimmermann
Gérard Nicolet
Alain Duvallet
Jean-Pierre Fouillot
Jean-Paul Richalet
Publikationsdatum: 01.01.2006
Verlag: Springer-Verlag
Erschienen in: European Journal of Applied Physiology / Ausgabe 1/2006
Print ISSN: 1439-6319
Elektronische ISSN: 1439-6327
DOI: https://doi.org/10.1007/s00421-005-0065-9

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