Impact of elbow stiffness on running economy in trained athletes.
Details
Serval ID
serval:BIB_F7D1293BB0E5
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Impact of elbow stiffness on running economy in trained athletes.
Journal
Shoulder & elbow
ISSN
1758-5732 (Print)
ISSN-L
1758-5732
Publication state
In Press
Peer-reviewed
Oui
Language
english
Notes
Publication types: Journal Article
Publication Status: aheadofprint
Publication Status: aheadofprint
Abstract
Elbow injuries are likely to generate a decreased range of motion (ROM), which might negatively affect athletic performance. To date, the effect of elbow stiffness on endurance running performance has never been studied. We conducted an observational, prospective, cross-over study to examine the impact of elbow stiffness on running economy.
Twenty trained athletes performed running economy tests at 12 km·h <sup>-1</sup> , with and without a limited elbow ROM (flexion: 90°, extension: 45°), imposed by a dynamic brace mimicking a severe elbow stiffness. Relative intensity and performance indexes were measured during a subsequent maximal incremental exercise test.
Running economy was measured at 180 ± 10.6 mlO <sub>2</sub> ·km <sup>-1</sup> ·kg <sup>-1</sup> with a full ROM, and 180.2 ± 12.3 mlO <sub>2</sub> ·km <sup>-1</sup> ·kg <sup>-1</sup> with the limited ROM showing a non-significant 0.1% difference (p = 0.871).
Athletes experiencing post-traumatic elbow stiffness can find reassurance in knowing that it does not seem to impact a crucial metric of endurance running performance, namely running economy. Further research could explore elbow movement at different intensities of running, from higher aerobic speeds to sprinting.
Twenty trained athletes performed running economy tests at 12 km·h <sup>-1</sup> , with and without a limited elbow ROM (flexion: 90°, extension: 45°), imposed by a dynamic brace mimicking a severe elbow stiffness. Relative intensity and performance indexes were measured during a subsequent maximal incremental exercise test.
Running economy was measured at 180 ± 10.6 mlO <sub>2</sub> ·km <sup>-1</sup> ·kg <sup>-1</sup> with a full ROM, and 180.2 ± 12.3 mlO <sub>2</sub> ·km <sup>-1</sup> ·kg <sup>-1</sup> with the limited ROM showing a non-significant 0.1% difference (p = 0.871).
Athletes experiencing post-traumatic elbow stiffness can find reassurance in knowing that it does not seem to impact a crucial metric of endurance running performance, namely running economy. Further research could explore elbow movement at different intensities of running, from higher aerobic speeds to sprinting.
Keywords
biomechanics, elbow movement, endurance, joint stiffness, running efficiency, running performance
Pubmed
Web of science
Create date
09/01/2025 15:42
Last modification date
10/01/2025 7:05