Differences in joint power distribution in high and low lactate threshold cyclists

Purpose The biomechanical differences between cyclists with a high compared with a low blood lactate threshold (HLT; 80% V O 2max vs LLT, 70% V O 2max ) have yet to be completely described. We hypothesize that HLT cyclists reduce the stress placed on the knee extensor muscles by increasing the relat...

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Published in	European journal of applied physiology Vol. 121; no. 1; pp. 231 - 238
Main Authors	Leary, Brian K., Burton, Heath M., Vardarli, Emre, Wolfe, Anthony S., Crawford, Charles K., Akins, John D., Coyle, Edward F.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.01.2021 Springer Nature B.V
Subjects	Bicycling Biomedical and Life Sciences Biomedicine Hip Human Physiology Knee Lactic acid Muscles Occupational Medicine/Industrial Medicine Original Article Running Sports Medicine Lactate threshold Joint power Cycling
Online Access	Get full text
ISSN	1439-6319 1439-6327 1439-6327
DOI	10.1007/s00421-020-04513-3

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Abstract	Purpose The biomechanical differences between cyclists with a high compared with a low blood lactate threshold (HLT; 80% V O 2max vs LLT, 70% V O 2max ) have yet to be completely described. We hypothesize that HLT cyclists reduce the stress placed on the knee extensor muscles by increasing the relative contribution from the hip joint during high-intensity cycling. Method Sixteen well-trained endurance athletes, with equally high V O 2max while cycling and running completed submaximal tests during incremental exercise to identify lactate threshold ( LT V O 2 ) while running and cycling. Subjects were separated into two groups based on % V O 2max at LT during cycling (high; HLT: 80.2 ± 2.1% V O 2max ; n = 8) and (LLT: 70.3 ± 2.9% V O 2max ; n = 8; p < 0.01). Absolute and relative joint specific powers were calculated from kinematic and pedal forces using inverse dynamics while cycling at intensities ranging from 60–90% V O 2max for between group comparisons. Result There was no difference between HLT and LLT in LT V O 2 ( p > 0.05) while running. While cycling in LLT, knee joint absolute power increased with work rate ( p < 0.05); however, in HLT no changes in knee joint absolute power occurred with increased work rate ( p > 0.05). The HLT generated significantly greater relative hip power compared with the LLT group at 90% V O 2max ( p < 0.05). Conclusion These data suggest that HLT cyclists exhibit a greater relative hip contribution to power output during cycling at 90% V O 2max . These observations support the theory that lactate production during cycling can be reduced by spreading the work rate between various muscle groups.
AbstractList	The biomechanical differences between cyclists with a high compared with a low blood lactate threshold (HLT; 80% VO vs LLT, 70% VO ) have yet to be completely described. We hypothesize that HLT cyclists reduce the stress placed on the knee extensor muscles by increasing the relative contribution from the hip joint during high-intensity cycling. Sixteen well-trained endurance athletes, with equally high VO while cycling and running completed submaximal tests during incremental exercise to identify lactate threshold ([Formula: see text]) while running and cycling. Subjects were separated into two groups based on % VO at LT during cycling (high; HLT: 80.2 ± 2.1% VO ; n = 8) and (LLT: 70.3 ± 2.9% VO ; n = 8; p < 0.01). Absolute and relative joint specific powers were calculated from kinematic and pedal forces using inverse dynamics while cycling at intensities ranging from 60-90% VO for between group comparisons. There was no difference between HLT and LLT in [Formula: see text] (p > 0.05) while running. While cycling in LLT, knee joint absolute power increased with work rate (p < 0.05); however, in HLT no changes in knee joint absolute power occurred with increased work rate (p > 0.05). The HLT generated significantly greater relative hip power compared with the LLT group at 90% VO (p < 0.05). These data suggest that HLT cyclists exhibit a greater relative hip contribution to power output during cycling at 90% VO . These observations support the theory that lactate production during cycling can be reduced by spreading the work rate between various muscle groups. Purpose The biomechanical differences between cyclists with a high compared with a low blood lactate threshold (HLT; 80% V O 2max vs LLT, 70% V O 2max ) have yet to be completely described. We hypothesize that HLT cyclists reduce the stress placed on the knee extensor muscles by increasing the relative contribution from the hip joint during high-intensity cycling. Method Sixteen well-trained endurance athletes, with equally high V O 2max while cycling and running completed submaximal tests during incremental exercise to identify lactate threshold ( LT V O 2 ) while running and cycling. Subjects were separated into two groups based on % V O 2max at LT during cycling (high; HLT: 80.2 ± 2.1% V O 2max ; n = 8) and (LLT: 70.3 ± 2.9% V O 2max ; n = 8; p < 0.01). Absolute and relative joint specific powers were calculated from kinematic and pedal forces using inverse dynamics while cycling at intensities ranging from 60–90% V O 2max for between group comparisons. Result There was no difference between HLT and LLT in LT V O 2 ( p > 0.05) while running. While cycling in LLT, knee joint absolute power increased with work rate ( p < 0.05); however, in HLT no changes in knee joint absolute power occurred with increased work rate ( p > 0.05). The HLT generated significantly greater relative hip power compared with the LLT group at 90% V O 2max ( p < 0.05). Conclusion These data suggest that HLT cyclists exhibit a greater relative hip contribution to power output during cycling at 90% V O 2max . These observations support the theory that lactate production during cycling can be reduced by spreading the work rate between various muscle groups. PurposeThe biomechanical differences between cyclists with a high compared with a low blood lactate threshold (HLT; 80% VO2max vs LLT, 70% VO2max) have yet to be completely described. We hypothesize that HLT cyclists reduce the stress placed on the knee extensor muscles by increasing the relative contribution from the hip joint during high-intensity cycling.MethodSixteen well-trained endurance athletes, with equally high VO2max while cycling and running completed submaximal tests during incremental exercise to identify lactate threshold (LTVO2) while running and cycling. Subjects were separated into two groups based on % VO2max at LT during cycling (high; HLT: 80.2 ± 2.1% VO2max; n = 8) and (LLT: 70.3 ± 2.9% VO2max; n = 8; p < 0.01). Absolute and relative joint specific powers were calculated from kinematic and pedal forces using inverse dynamics while cycling at intensities ranging from 60–90% VO2max for between group comparisons.ResultThere was no difference between HLT and LLT in LTVO2 (p > 0.05) while running. While cycling in LLT, knee joint absolute power increased with work rate (p < 0.05); however, in HLT no changes in knee joint absolute power occurred with increased work rate (p > 0.05). The HLT generated significantly greater relative hip power compared with the LLT group at 90% VO2max (p < 0.05).ConclusionThese data suggest that HLT cyclists exhibit a greater relative hip contribution to power output during cycling at 90% VO2max. These observations support the theory that lactate production during cycling can be reduced by spreading the work rate between various muscle groups. The biomechanical differences between cyclists with a high compared with a low blood lactate threshold (HLT; 80% VO2max vs LLT, 70% VO2max) have yet to be completely described. We hypothesize that HLT cyclists reduce the stress placed on the knee extensor muscles by increasing the relative contribution from the hip joint during high-intensity cycling.PURPOSEThe biomechanical differences between cyclists with a high compared with a low blood lactate threshold (HLT; 80% VO2max vs LLT, 70% VO2max) have yet to be completely described. We hypothesize that HLT cyclists reduce the stress placed on the knee extensor muscles by increasing the relative contribution from the hip joint during high-intensity cycling.Sixteen well-trained endurance athletes, with equally high VO2max while cycling and running completed submaximal tests during incremental exercise to identify lactate threshold ([Formula: see text]) while running and cycling. Subjects were separated into two groups based on % VO2max at LT during cycling (high; HLT: 80.2 ± 2.1% VO2max; n = 8) and (LLT: 70.3 ± 2.9% VO2max; n = 8; p < 0.01). Absolute and relative joint specific powers were calculated from kinematic and pedal forces using inverse dynamics while cycling at intensities ranging from 60-90% VO2max for between group comparisons.METHODSixteen well-trained endurance athletes, with equally high VO2max while cycling and running completed submaximal tests during incremental exercise to identify lactate threshold ([Formula: see text]) while running and cycling. Subjects were separated into two groups based on % VO2max at LT during cycling (high; HLT: 80.2 ± 2.1% VO2max; n = 8) and (LLT: 70.3 ± 2.9% VO2max; n = 8; p < 0.01). Absolute and relative joint specific powers were calculated from kinematic and pedal forces using inverse dynamics while cycling at intensities ranging from 60-90% VO2max for between group comparisons.There was no difference between HLT and LLT in [Formula: see text] (p > 0.05) while running. While cycling in LLT, knee joint absolute power increased with work rate (p < 0.05); however, in HLT no changes in knee joint absolute power occurred with increased work rate (p > 0.05). The HLT generated significantly greater relative hip power compared with the LLT group at 90% VO2max (p < 0.05).RESULTThere was no difference between HLT and LLT in [Formula: see text] (p > 0.05) while running. While cycling in LLT, knee joint absolute power increased with work rate (p < 0.05); however, in HLT no changes in knee joint absolute power occurred with increased work rate (p > 0.05). The HLT generated significantly greater relative hip power compared with the LLT group at 90% VO2max (p < 0.05).These data suggest that HLT cyclists exhibit a greater relative hip contribution to power output during cycling at 90% VO2max. These observations support the theory that lactate production during cycling can be reduced by spreading the work rate between various muscle groups.CONCLUSIONThese data suggest that HLT cyclists exhibit a greater relative hip contribution to power output during cycling at 90% VO2max. These observations support the theory that lactate production during cycling can be reduced by spreading the work rate between various muscle groups.
Author	Burton, Heath M. Crawford, Charles K. Leary, Brian K. Vardarli, Emre Coyle, Edward F. Akins, John D. Wolfe, Anthony S.
Author_xml	– sequence: 1 givenname: Brian K. orcidid: 0000-0002-4862-4061 surname: Leary fullname: Leary, Brian K. organization: Human Performance Laboratory, Department of Kinesiology and Health Education, University of Texas at Austin – sequence: 2 givenname: Heath M. surname: Burton fullname: Burton, Heath M. organization: Human Performance Laboratory, Department of Kinesiology and Health Education, University of Texas at Austin – sequence: 3 givenname: Emre surname: Vardarli fullname: Vardarli, Emre organization: Human Performance Laboratory, Department of Kinesiology and Health Education, University of Texas at Austin – sequence: 4 givenname: Anthony S. surname: Wolfe fullname: Wolfe, Anthony S. organization: Human Performance Laboratory, Department of Kinesiology and Health Education, University of Texas at Austin – sequence: 5 givenname: Charles K. surname: Crawford fullname: Crawford, Charles K. organization: Human Performance Laboratory, Department of Kinesiology and Health Education, University of Texas at Austin – sequence: 6 givenname: John D. surname: Akins fullname: Akins, John D. organization: Human Performance Laboratory, Department of Kinesiology and Health Education, University of Texas at Austin – sequence: 7 givenname: Edward F. surname: Coyle fullname: Coyle, Edward F. email: coyle@austin.utexas.edu organization: Human Performance Laboratory, Department of Kinesiology and Health Education, University of Texas at Austin
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Snippet	Purpose The biomechanical differences between cyclists with a high compared with a low blood lactate threshold (HLT; 80% V O 2max vs LLT, 70% V O 2max ) have... The biomechanical differences between cyclists with a high compared with a low blood lactate threshold (HLT; 80% VO vs LLT, 70% VO ) have yet to be completely... PurposeThe biomechanical differences between cyclists with a high compared with a low blood lactate threshold (HLT; 80% VO2max vs LLT, 70% VO2max) have yet to... The biomechanical differences between cyclists with a high compared with a low blood lactate threshold (HLT; 80% VO2max vs LLT, 70% VO2max) have yet to be...
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StartPage	231
SubjectTerms	Bicycling Biomedical and Life Sciences Biomedicine Hip Human Physiology Knee Lactic acid Muscles Occupational Medicine/Industrial Medicine Original Article Running Sports Medicine
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Title	Differences in joint power distribution in high and low lactate threshold cyclists
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