Validation of a mathematical model for road cycling power JC Martin, DL Milliken, JE Cobb, KL McFadden, AR Coggan Journal of applied biomechanics 14 (3), 276-291, 1998 | 511 | 1998 |
Improving cycling performance: how should we spend our time and money AE Jeukendrup, J Martin Sports medicine 31, 559-569, 2001 | 285 | 2001 |
Effect of pedaling technique on mechanical effectiveness and efficiency in cyclists T Korff, LM Romer, IAN Mayhew, JC Martin Medicine & Science in Sports & Exercise 39 (6), 991-995, 2007 | 198 | 2007 |
Inertial-load method determines maximal cycling power in a single exercise bout. JC Martin, BM Wagner, EF Coyle Medicine and science in sports and exercise 29 (11), 1505-1512, 1997 | 198 | 1997 |
No differences in cycling efficiency between world-class and recreational cyclists L Moseley, J Achten, JC Martin, AE Jeukendrup International journal of sports medicine, 374-379, 2004 | 171 | 2004 |
Maximal power across the lifespan JC Martin, RP Farrar, BM Wagner, WW Spirduso The Journals of Gerontology Series A: Biological Sciences and Medical …, 2000 | 171 | 2000 |
Determinants of maximal cycling power: crank length, pedaling rate and pedal speed JC Martin, WW Spirduso European journal of applied physiology 84, 413-418, 2001 | 170 | 2001 |
Joint-specific power production and fatigue during maximal cycling JC Martin, NAT Brown Journal of biomechanics 42 (4), 474-479, 2009 | 162 | 2009 |
Maximal torque-and power-pedaling rate relationships for elite sprint cyclists in laboratory and field tests AS Gardner, JC Martin, DT Martin, M Barras, DG Jenkins European journal of applied physiology 101, 287-292, 2007 | 157 | 2007 |
Understanding sprint-cycling performance: the integration of muscle power, resistance, and modeling JC Martin, CJ Davidson, ER Pardyjak International journal of sports physiology and performance 2 (1), 5-21, 2007 | 148 | 2007 |
The power profile predicts road cycling MMP MJ Quod, DT Martin, JC Martin, PB Laursen International Journal of Sports Medicine, 397-401, 2010 | 141 | 2010 |
Modeling sprint cycling using field-derived parameters and forward integration JC Martin, AS Gardner, M Barras, DT Martin Medicine & Science in Sports & Exercise 38 (3), 592-597, 2006 | 141 | 2006 |
Water and carbohydrate ingestion during prolonged exercise increase maximal neuromuscular power RG Fritzsche, TW Switzer, BJ Hodgkinson, SH Lee, JC Martin, EF Coyle Journal of Applied Physiology, 2000 | 136 | 2000 |
Joint-specific power production during submaximal and maximal cycling S Elmer, P Barratt, T Korff, J Martin ISBS-Conference Proceedings Archive, 2010 | 132 | 2010 |
Determinants of metabolic cost during submaximal cycling J McDaniel, JL Durstine, GA Hand, JC Martin Journal of Applied Physiology 93 (3), 823-828, 2002 | 127 | 2002 |
Single-leg cycle training is superior to double-leg cycling in improving the oxidative potential and metabolic profile of trained skeletal muscle CR Abbiss, LG Karagounis, PB Laursen, JJ Peiffer, DT Martin, JA Hawley, ... Journal of Applied Physiology 110 (5), 1248-1255, 2011 | 101 | 2011 |
Time course of learning to produce maximum cycling power JC Martin, D Diedrich, EF Coyle International Journal of Sports Medicine 21 (07), 485-487, 2000 | 85 | 2000 |
A cycling workstation to facilitate physical activity in office settings SJ Elmer, JC Martin Applied Ergonomics 45 (4), 1240-1246, 2014 | 80 | 2014 |
Improvements in multi‐joint leg function following chronic eccentric exercise S Elmer, S Hahn, P McAllister, C Leong, J Martin Scandinavian journal of medicine & science in sports 22 (5), 653-661, 2012 | 78 | 2012 |
Gender differences in rowing performance and power with aging. KS Seiler, WW Spirduso, JC Martin Medicine and science in sports and exercise 30 (1), 121-127, 1998 | 62 | 1998 |