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Archives of Physiology and Biochemistry
The Journal of Metabolic Diseases
Volume 103, 1995 - Issue 2
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Research Article

Times to exhaustion at 90,100 and 105% of velocity at V̇O2 max (Maximal aerobic speed) and critical speed in elite longdistance runners

V. Billat Laboratoire S.T.A.P.S. Université Paris XII, 61, Avenue du Général de, Gaulle, F-94010, Créteil
,
J. C. Renoux Laboratoire S.T.A.P.S. Université Paris XII, 61, Avenue du Général de, Gaulle, F-94010, Créteil
,
J. Pinoteau Centre de Médecine du Sport C.C.A.S., 2 Avenue Richerand F-75010, Paris, France
,
B. Petit Centre de Médecine du Sport C.C.A.S., 2 Avenue Richerand F-75010, Paris, France
&
J. P. Koralsztein Centre de Médecine du Sport C.C.A.S., 2 Avenue Richerand F-75010, Paris, France
Pages 129-135 | Accepted 23 Nov 1994, Published online: 26 Sep 2008

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Patrick Dillon, Dean Norris, Jason Siegler, David Joyce & Ric Lovell. (2021) Determination of locomotor qualities in elite Australian Football: A pragmatic approach. Journal of Sports Sciences 39:13, pages 1445-1451.
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Anders Eriksson, Hans-Christer Holmberg & Håkan Westerblad. (2016) A numerical model for fatigue effects in whole-body human exercise. Mathematical and Computer Modelling of Dynamical Systems 22:1, pages 21-38.
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J. Dekerle, X. Nesi & H. Carter. (2006) The distance – time relationship over a century of running Olympic performances: A limit on the critical speed concept. Journal of Sports Sciences 24:11, pages 1213-1221.
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PaulB. Laursen, CeciliaM. Shing & DavidG. Jenkins. (2004) Temporal Aspects of the VO2 Response at the Power Output Associated with VO2peak in Well Trained Cyclists—Implications for Interval Training Prescription. Research Quarterly for Exercise and Sport 75:4, pages 423-428.
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J. C. Renoux, B. Petit, V. Billat & J. P. Koralsztein. (2000) Calculation of times to exhaustion at 100 and 120% maximal aerobic speed. Ergonomics 43:2, pages 160-166.
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F Gazeau, J.P Koralsztein & V Billat. (1997) Biomechanical Events in the Time to Exhaustion at Maximum Aerobic Speed. Archives of Physiology and Biochemistry 105:6, pages 583-590.
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M. Kachouri, H. Vandewalle, M. Huet, M. Thomaïdis, E. Jousselin & H. Monod. (1996) Is the Exhaustion Time at Maximal Aerobic Speed an Index of Aerobic Endurance?. Archives of Physiology and Biochemistry 104:3, pages 330-336.
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Articles from other publishers (37)

Diogo H. FigueiredoDiego H. FigueiredoFrancisco A. Manoel & Fabiana A. Machado. (2023) Peak Running Velocity vs. Critical Speed: Which One Is Better to Prescribe Endurance Training to Recreational Runners?. Journal of Strength and Conditioning Research 37:9, pages 1783-1788.
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Pasquale J. Succi, Taylor K. Dinyer, M. Travis Byrd, Caleb C. Voskuil & Haley C. Bergstrom. (2022) Application of V̇o 2 to the Critical Power Model to Derive the Critical V̇o 2. Journal of Strength and Conditioning Research 36:12, pages 3374-3380.
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Sang-Hyun Lee, Su-Jin Kim, Young-Sik Kim, Chang-Sun Kim, Hyo-Bum Kwak, Ju-Hee Kang & Dong-Ho Park. (2022) Effects of 4-week Training Using Laboratory Index on Competition Record of Elite Female Middle-distance Runner: A Case Report. Exercise Science 31:3, pages 304-311.
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Gorkem Aybars Balci, Hakan As, Ozgur Ozkaya & Muzaffer Colakoglu. (2022) Development potentials of commonly used high-intensity training strategies on central and peripheral components of maximal oxygen consumption. Respiratory Physiology & Neurobiology 302, pages 103910.
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Míriam Raquel Meira Mainenti, Patrícia dos Santos Vigário, Hugo Brito Batista, Luiz Fernando Valverde Bastos & Danielli Braga de Mello. (2022) Running velocity at maximum oxygen uptake and at maximum effort: important variables for female military pentathlon. Motriz: Revista de Educação Física 28:spe1.
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Alessandro L Colosio, Kevin Caen, Jan G. Bourgois, Jan Boone & Silvia Pogliaghi. (2021) Metabolic instability vs fibre recruitment contribution to the $${\dot{V}O_2}$$ slow component in different exercise intensity domains. Pflügers Archiv - European Journal of Physiology 473:6, pages 873-882.
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Aurélien Patoz, Nicola Pedrani, Romain Spicher, André Berchtold, Fabio Borrani & Davide Malatesta. (2021) Effect of Mathematical Modeling and Fitting Procedures on the Assessment of Critical Speed and Its Relationship With Aerobic Fitness Parameters. Frontiers in Physiology 12.
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Vicente Javier Clemente-Suárez, Juan Pedro Fuentes-García, Ricardo J. Fernandes & João Paulo Vilas-Boas. (2021) Psychological and Physiological Features Associated with Swimming Performance. International Journal of Environmental Research and Public Health 18:9, pages 4561.
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Mia Lundquist, Maximillian J. Nelson, Thomas Debenedictis, Stuart Gollan, Joel T. Fuller, Trent Larwood & Clint R. Bellenger. (2021) Set distance time trials for predicting maximal aerobic speed in female Australian Rules Footballers. Journal of Science and Medicine in Sport 24:4, pages 391-396.
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Andrew M. Jones, Brett S. Kirby, Ida E. Clark, Hannah M. Rice, Elizabeth Fulkerson, Lee J. Wylie, Daryl P. Wilkerson, Anni Vanhatalo & Brad W. Wilkins. (2021) Physiological demands of running at 2-hour marathon race pace. Journal of Applied Physiology 130:2, pages 369-379.
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Haley C. BergstromTerry J. HoushKristen C. Cochrane-Snyman, Nathaniel D.M. Jenkins, M. Travis ByrdJonathan R. SwitallaRichard J. SchmidtGlen O. Johnson. (2017) A Model for Identifying Intensity Zones Above Critical Velocity. Journal of Strength and Conditioning Research 31:12, pages 3260-3265.
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Iiro A. Välimäki, Timo Vuorimaa, Markku Ahotupa & Tommi J. Vasankari. (2016) Strenuous physical exercise accelerates the lipid peroxide clearing transport by HDL. European Journal of Applied Physiology 116:9, pages 1683-1691.
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Karim Chamari & Johnny Padulo. (2015) ‘Aerobic’ and ‘Anaerobic’ terms used in exercise physiology: a critical terminology reflection. Sports Medicine - Open 1:1.
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Clint R. Bellenger, Joel T. Fuller, Maximillian J. Nelson, Micheal Hartland, Jonathan D. Buckley & Thomas A. Debenedictis. (2015) Predicting maximal aerobic speed through set distance time-trials. European Journal of Applied Physiology 115:12, pages 2593-2598.
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Jeanne Dekerle, Kristopher Mendes de Souza, Ricardo Dantas de Lucas, Luiz Guilherme Antonacci Guglielmo, Camila Coelho Greco & Benedito Sérgio Denadai. (2015) Exercise Tolerance Can Be Enhanced through a Change in Work Rate within the Severe Intensity Domain: Work above Critical Power Is Not Constant. PLOS ONE 10:9, pages e0138428.
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Joshua D. Darrall-Jones, Ben Jones & Kevin Till. (2015) Anthropometric and Physical Profiles of English Academy Rugby Union Players. Journal of Strength and Conditioning Research 29:8, pages 2086-2096.
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Haley C. Bergstrom, Terry J. Housh, Kristen C. Cochrane, Nathaniel D.M. Jenkins, Samuel L. Buckner, Jacob A. Goldsmith, Jorge M. Zuniga, Richard J. Schmidt, Glen O. Johnson & Joel T. Cramer. (2015) Application of the Critical Heart Model to Treadmill Running. Journal of Strength and Conditioning Research 29:8, pages 2237-2248.
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ANA SOUSA, PEDRO FIGUEIREDO, PAOLA ZAMPARO, DAVID B. PYNE, JOÃO P. VILAS-BOAS & RICARDO J. FERNANDES. (2015) Exercise Modality Effect on Bioenergetical Performance at V˙O2max Intensity. Medicine & Science in Sports & Exercise 47:8, pages 1705-1713.
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Tania Sánchez-Otero, Eliseo Iglesias-Soler, Daniel A. Boullosa & José L. Tuimil. (2014) Verification Criteria for the Determination of V[Combining Dot Above]O2max in the Field. Journal of Strength and Conditioning Research 28:12, pages 3544-3551.
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Ana C. Sousa, João P. Vilas-Boas & Ricardo J. Fernandes. (2014) Kinetics and Metabolic Contributions Whilst Swimming at 95, 100, and 105% of the Velocity at . BioMed Research International 2014, pages 1-9.
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Romulo Bertuzzi, Salomão Bueno, Leonardo A. Pasqua, Fernanda M. Acquesta, Mauro B. Batista, Hamilton Roschel, Maria A.P.D.M. Kiss, Júlio C. Serrão, Valmor Tricoli & Carlos Ugrinowitsch. (2012) Bioenergetics and Neuromuscular Determinants of the Time to Exhaustion at Velocity Corresponding to V[Combining Dot Above]O2max in Recreational Long-Distance Runners. Journal of Strength and Conditioning Research 26:8, pages 2096-2102.
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BRANDON J. SAWYER, R. HUGH MORTON, CHRISTOPHER J. WOMACK & GLENN A. GAESSER. (2012) V˙O2max May Not Be Reached during Exercise to Exhaustion above Critical Power. Medicine & Science in Sports & Exercise 44:8, pages 1533-1538.
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A. W. Midgley & S. Carroll. (2009) Emergence of the verification phase procedure for confirming ‘true’V̇O 2max . Scandinavian Journal of Medicine & Science in Sports 19:3, pages 313-322.
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Serge Berthoin, Georges Baquet, Gregory Dupont & Emmanuel Van Praagh. (2006) Critical velocity during continuous and intermittent exercises in children. European Journal of Applied Physiology 98:2, pages 132-138.
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Timo Vuorimaa, Rami Virlander, Pasi Kurkilahti, Tommi Vasankari & Keijo Häkkinen. (2005) Acute changes in muscle activation and leg extension performance after different running exercises in elite long distance runners. European Journal of Applied Physiology 96:3, pages 282-291.
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Paul B. Laursen, Cecilia M. Shing & David G. Jenkins. (2003) Reproducibility of the Cycling Time to Exhaustion at in Highly Trained Cyclists. Canadian Journal of Applied Physiology 28:4, pages 605-615.
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P.B. Laursen, S.M. Ahern, P.J. Herzig, C.M. Shing & D.G. Jenkins. (2003) Physiological responses to repeated bouts of highintensity ultraendurance cycling—a field study case report. Journal of Science and Medicine in Sport 6:2, pages 176-186.
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Paul B. Laursen & David G. Jenkins. (2002) The Scientific Basis for High-Intensity Interval Training. Sports Medicine 32:1, pages 53-73.
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Andrew M. Jones & Helen Carter. (2000) The Effect of Endurance Training on Parameters of Aerobic Fitness. Sports Medicine 29:6, pages 373-386.
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H. Arabi, H. Vandewalle, B. Kapitaniak & H. Monod. (1999) Evaluation of wheelchair users in the field and in laboratory: Feasibility of progressive tests and critical velocity tests. International Journal of Industrial Ergonomics 24:5, pages 483-491.
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TIMOTHY. P. SMITH, LARS R. McNAUGHTON & KYLIE. J. MARSHALL. (1999) Effects of 4-wk training using Vmax/Tmax on &OV0312;O2max and performance in athletes. Medicine & Science in Sports & Exercise 31:6, pages 892-896.
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DAVID W. HILL & AMY L. ROWELL. (1997) Responses to exercise at the velocity associated with ??VO2max. Medicine &amp Science in Sports &amp Exercise 29:1, pages 113-116.
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David W. Hill & Amy L. Rowell. (1996) Significance of time to exhaustion during exercise at the velocity associated with $$\dot VO_{2max}$$. European Journal of Applied Physiology and Occupational Physiology 72:4, pages 383-386.
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