Muscle-fiber typology is associated with sprint-cycling characteristics in world-class and elite track cyclists
- Author
- Thomas Wackwitz, Clare Minahan, Eline Lievens (UGent) , Ben Kennedy, Wim Derave (UGent) and Phillip Bellinger
- Organization
- Abstract
- Purpose: Identifying the determinants of performance is fundamental to talent identification and individualizing training prescription. Consequently, the aim of this study was to determine whether estimated muscle typology is associated with the key mechanical characteristics of track sprint cycling. Methods: Sixteen world-class and elite track cyclists (n = 7 female) completed a laboratory session wherein torque-cadence and power-cadence profiles were constructed to determine maximal power output (Pmax), optimal cadence (Fopt), and maximal cadence (Fmax), and fatigue rate per pedal stroke was determined during a 15-second maximal sprint at Fopt. Muscle typology was estimated by measuring carnosine content via proton magnetic resonance spectroscopy in the gastrocnemius and soleus. Results: Using partial correlation analysis to account for sex, greater muscle carnosine content (ie, greater estimated proportion of type II fibers) was associated with a greater Pmax (r = .68, P = .007), Fmax (r = .77, P = .0014), Fopt (r = .61, P = .0196), and absolute fatigue rate (W·stroke-1; r = -.55, P = .0418) but not relative fatigue rate (%peak power·stroke-1; r = -.33, P = .246). Conclusions: The findings from this study substantiate the mechanical differences in muscle-fiber types derived from single muscle-fiber studies and highlight the importance of estimated muscle typology for sprint cycling performance.
- Keywords
- fatigue, maximal power output, optimal cadence, FORCE-VELOCITY, MOTOR UNITS, FATIGUE, DETERMINANTS, PERFORMANCE, PROFILES, ISOFORM
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Citation
Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-01JHT91M2JT0VQT2KDMRBMQTXA
- MLA
- Wackwitz, Thomas, et al. “Muscle-Fiber Typology Is Associated with Sprint-Cycling Characteristics in World-Class and Elite Track Cyclists.” INTERNATIONAL JOURNAL OF SPORTS PHYSIOLOGY AND PERFORMANCE, vol. 20, no. 1, 2025, pp. 142–48, doi:10.1123/ijspp.2024-0089.
- APA
- Wackwitz, T., Minahan, C., Lievens, E., Kennedy, B., Derave, W., & Bellinger, P. (2025). Muscle-fiber typology is associated with sprint-cycling characteristics in world-class and elite track cyclists. INTERNATIONAL JOURNAL OF SPORTS PHYSIOLOGY AND PERFORMANCE, 20(1), 142–148. https://doi.org/10.1123/ijspp.2024-0089
- Chicago author-date
- Wackwitz, Thomas, Clare Minahan, Eline Lievens, Ben Kennedy, Wim Derave, and Phillip Bellinger. 2025. “Muscle-Fiber Typology Is Associated with Sprint-Cycling Characteristics in World-Class and Elite Track Cyclists.” INTERNATIONAL JOURNAL OF SPORTS PHYSIOLOGY AND PERFORMANCE 20 (1): 142–48. https://doi.org/10.1123/ijspp.2024-0089.
- Chicago author-date (all authors)
- Wackwitz, Thomas, Clare Minahan, Eline Lievens, Ben Kennedy, Wim Derave, and Phillip Bellinger. 2025. “Muscle-Fiber Typology Is Associated with Sprint-Cycling Characteristics in World-Class and Elite Track Cyclists.” INTERNATIONAL JOURNAL OF SPORTS PHYSIOLOGY AND PERFORMANCE 20 (1): 142–148. doi:10.1123/ijspp.2024-0089.
- Vancouver
- 1.Wackwitz T, Minahan C, Lievens E, Kennedy B, Derave W, Bellinger P. Muscle-fiber typology is associated with sprint-cycling characteristics in world-class and elite track cyclists. INTERNATIONAL JOURNAL OF SPORTS PHYSIOLOGY AND PERFORMANCE. 2025;20(1):142–8.
- IEEE
- [1]T. Wackwitz, C. Minahan, E. Lievens, B. Kennedy, W. Derave, and P. Bellinger, “Muscle-fiber typology is associated with sprint-cycling characteristics in world-class and elite track cyclists,” INTERNATIONAL JOURNAL OF SPORTS PHYSIOLOGY AND PERFORMANCE, vol. 20, no. 1, pp. 142–148, 2025.
@article{01JHT91M2JT0VQT2KDMRBMQTXA,
abstract = {{Purpose: Identifying the determinants of performance is fundamental to talent identification and individualizing training prescription. Consequently, the aim of this study was to determine whether estimated muscle typology is associated with the key mechanical characteristics of track sprint cycling.
Methods: Sixteen world-class and elite track cyclists (n = 7 female) completed a laboratory session wherein torque-cadence and power-cadence profiles were constructed to determine maximal power output (Pmax), optimal cadence (Fopt), and maximal cadence (Fmax), and fatigue rate per pedal stroke was determined during a 15-second maximal sprint at Fopt. Muscle typology was estimated by measuring carnosine content via proton magnetic resonance spectroscopy in the gastrocnemius and soleus.
Results: Using partial correlation analysis to account for sex, greater muscle carnosine content (ie, greater estimated proportion of type II fibers) was associated with a greater Pmax (r = .68, P = .007), Fmax (r = .77, P = .0014), Fopt (r = .61, P = .0196), and absolute fatigue rate (W·stroke-1; r = -.55, P = .0418) but not relative fatigue rate (%peak power·stroke-1; r = -.33, P = .246).
Conclusions: The findings from this study substantiate the mechanical differences in muscle-fiber types derived from single muscle-fiber studies and highlight the importance of estimated muscle typology for sprint cycling performance.}},
author = {{Wackwitz, Thomas and Minahan, Clare and Lievens, Eline and Kennedy, Ben and Derave, Wim and Bellinger, Phillip}},
issn = {{1555-0265}},
journal = {{INTERNATIONAL JOURNAL OF SPORTS PHYSIOLOGY AND PERFORMANCE}},
keywords = {{fatigue,maximal power output,optimal cadence,FORCE-VELOCITY,MOTOR UNITS,FATIGUE,DETERMINANTS,PERFORMANCE,PROFILES,ISOFORM}},
language = {{eng}},
number = {{1}},
pages = {{142--148}},
title = {{Muscle-fiber typology is associated with sprint-cycling characteristics in world-class and elite track cyclists}},
url = {{http://doi.org/10.1123/ijspp.2024-0089}},
volume = {{20}},
year = {{2025}},
}
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