Literature DB >> 19229554

Efficiency in cycling: a review.

Gertjan Ettema1, Håvard Wuttudal Lorås.   

Abstract

We focus on the effect of cadence and work rate on energy expenditure and efficiency in cycling, and present arguments to support the contention that gross efficiency can be considered to be the most relevant expression of efficiency. A linear relationship between work rate and energy expenditure appears to be a rather consistent outcome among the various studies considered in this review, irrespective of subject performance level. This relationship is an example of the Fenn effect, described more than 80 years ago for muscle contraction. About 91% of all variance in energy expenditure can be explained by work rate, with only about 10% being explained by cadence. Gross efficiency is strongly dependent on work rate, mainly because of the diminishing effect of the (zero work-rate) base-line energy expenditure with increasing work rate. The finding that elite athletes have a higher gross efficiency than lower-level performers may largely be explained by this phenomenon. However, no firm conclusions can be drawn about the energetically optimal cadence for cycling because of the multiple factors associated with cadence that affect energy expenditure.

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Year:  2009        PMID: 19229554     DOI: 10.1007/s00421-009-1008-7

Source DB:  PubMed          Journal:  Eur J Appl Physiol        ISSN: 1439-6319            Impact factor:   3.078


  79 in total

1.  The reliability of cycling efficiency.

Authors:  L Moseley; A E Jeukendrup
Journal:  Med Sci Sports Exerc       Date:  2001-04       Impact factor: 5.411

2.  Effect of cadence, cycling experience, and aerobic power on delta efficiency during cycling.

Authors:  A P Marsh; P E Martin; K O Foley
Journal:  Med Sci Sports Exerc       Date:  2000-09       Impact factor: 5.411

3.  Differences in leg muscle activity during running and cycling in humans.

Authors:  K E Bijker; G de Groot; A P Hollander
Journal:  Eur J Appl Physiol       Date:  2002-07-13       Impact factor: 3.078

4.  Load and velocity of contraction influence gross and delta mechanical efficiency.

Authors:  L S Sidossis; J F Horowitz; E F Coyle
Journal:  Int J Sports Med       Date:  1992-07       Impact factor: 3.118

5.  The relation between the work performed and the energy liberated in muscular contraction.

Authors:  W O Fenn
Journal:  J Physiol       Date:  1924-05-23       Impact factor: 5.182

6.  The efficiency of bicycle-pedalling, as affected by speed and load.

Authors:  S Dickinson
Journal:  J Physiol       Date:  1929-06-07       Impact factor: 5.182

7.  Cycling efficiency and pedalling frequency in road cyclists.

Authors:  J Chavarren; J A Calbet
Journal:  Eur J Appl Physiol Occup Physiol       Date:  1999 Nov-Dec

8.  Cardiovascular responses to active and passive cycling movements.

Authors:  A C Nóbrega; J W Williamson; D B Friedman; C G Araújo; J H Mitchell
Journal:  Med Sci Sports Exerc       Date:  1994-06       Impact factor: 5.411

9.  Oxygen cost of internal work during cycling.

Authors:  M P Francescato; M Girardis; P E di Prampero
Journal:  Eur J Appl Physiol Occup Physiol       Date:  1995

10.  External, internal and total work in human locomotion.

Authors:  P A Willems; G A Cavagna; N C Heglund
Journal:  J Exp Biol       Date:  1995-02       Impact factor: 3.312
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  47 in total

1.  The influence of incline and speed on work rate, gross efficiency and kinematics of roller ski skating.

Authors:  Øyvind Sandbakk; Gertjan Ettema; Hans-Christer Holmberg
Journal:  Eur J Appl Physiol       Date:  2011-11-30       Impact factor: 3.078

Review 2.  The Effect of Exercise Training on the Energetic Cost of Cycling.

Authors:  David Montero; Carsten Lundby
Journal:  Sports Med       Date:  2015-11       Impact factor: 11.136

3.  Muscle coordination limits efficiency and power output of human limb movement under a wide range of mechanical demands.

Authors:  Ollie M Blake; James M Wakeling
Journal:  J Neurophysiol       Date:  2015-10-07       Impact factor: 2.714

4.  Muscle fatigue in participants of indoor cycling.

Authors:  Ricardo de Melo Dos Santos; Flavio Costa E Costa; Thais Sepeda Saraiva; Bianca Callegari
Journal:  Muscles Ligaments Tendons J       Date:  2017-05-10

5.  Metabolic rate and gross efficiency at high work rates in world class and national level sprint skiers.

Authors:  Øyvind Sandbakk; Hans-Christer Holmberg; Stig Leirdal; Gertjan Ettema
Journal:  Eur J Appl Physiol       Date:  2010-02-12       Impact factor: 3.078

6.  The physiological and biomechanical differences between double poling and G3 skating in world class cross-country skiers.

Authors:  Øyvind Sandbakk; Stig Leirdal; Gertjan Ettema
Journal:  Eur J Appl Physiol       Date:  2014-11-02       Impact factor: 3.078

7.  Limit to steady-state aerobic power of skeletal muscles.

Authors:  A Paglietti
Journal:  J Biol Phys       Date:  2018-10-02       Impact factor: 1.365

8.  Changes in arm coordination and stroke parameters on transition through the lactate threshold.

Authors:  Pedro Figueiredo; Pedro Morais; João Paulo Vilas-Boas; Ricardo J Fernandes
Journal:  Eur J Appl Physiol       Date:  2013-03-21       Impact factor: 3.078

9.  Gender differences in power production, energetic capacity and efficiency of elite cross‑country skiers during whole‑body, upper‑body, and arm poling.

Authors:  Ann Magdalen Hegge; Elias Bucher; Gertjan Ettema; Oliver Faude; Hans-Christer Holmberg; Øyvind Sandbakk
Journal:  Eur J Appl Physiol       Date:  2016-02       Impact factor: 3.078

10.  Effects of cadence on aerobic capacity following a prolonged, varied intensity cycling trial.

Authors:  Charles L Stebbins; Jesse L Moore; Gretchen A Casazza
Journal:  J Sports Sci Med       Date:  2014-01-20       Impact factor: 2.988
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