Do sex differences in physiology confer a female advantage in ultra-endurance sport?

Tiller, NB, Elliott-Sale, KJ ORCID logoORCID: https://orcid.org/0000-0003-1122-5099, Knechtle, B, Wilson, PB, Roberts, JD and Millet, GY, 2021. Do sex differences in physiology confer a female advantage in ultra-endurance sport? Sports Medicine. ISSN 0112-1642

[thumbnail of 1405116_a1532_Elliott-Sale.pdf]
Preview
Text
1405116_a1532_Elliott-Sale.pdf - Post-print

Download (752kB) | Preview

Abstract

Ultra-endurance has been defined as any exercise bout that exceeds 6 h. A number of exceptional, record-breaking performances by female athletes in ultra-endurance sport have roused speculation that they might be predisposed to success in such events. Indeed, while the male-to-female performance gap in traditional endurance sport (e.g., marathon) remains at ~ 10%, the disparity in ultra-endurance competition has been reported as low as 4% despite the markedly lower number of female participants. Moreover, females generally outperform males in extreme-distance swimming. The issue is complex, however, with many sports-specific considerations and caveats. This review summarizes the sex-based differences in physiological functions and draws attention to those which likely determine success in extreme exercise endeavors. The aim is to provide a balanced discussion of the female versus male predisposition to ultra-endurance sport. Herein, we discuss sex-based differences in muscle morphology and fatigability, respiratory-neuromechanical function, substrate utilization, oxygen utilization, gastrointestinal structure and function, and hormonal control. The literature indicates that while females exhibit numerous phenotypes that would be expected to confer an advantage in ultra-endurance competition (e.g., greater fatigue resistance, greater substrate efficiency, and lower energetic demands), they also exhibit several characteristics that unequivocally impinge on performance (e.g., lower O2-carrying capacity, increased prevalence of GI distress, and sex-hormone effects on cellular function/injury risk). Crucially, the advantageous traits may only manifest as ergogenic in the extreme endurance events which, paradoxically, are those that females less often contest. The title question should be revisited in the coming years, when/if the number of female participants increases.

Item Type: Journal article
Publication Title: Sports Medicine
Creators: Tiller, N.B., Elliott-Sale, K.J., Knechtle, B., Wilson, P.B., Roberts, J.D. and Millet, G.Y.
Publisher: Springer
Date: 27 January 2021
ISSN: 0112-1642
Identifiers:
Number
Type
10.1007/s40279-020-01417-2
DOI
1405116
Other
Divisions: Schools > School of Science and Technology
Record created by: Linda Sullivan
Date Added: 02 Feb 2021 11:06
Last Modified: 27 Jan 2022 03:00
URI: https://irep.ntu.ac.uk/id/eprint/42168

Actions (login required)

Edit View Edit View

Statistics

Views

Views per month over past year

Downloads

Downloads per month over past year