A new energetics model for the assessment of the power-duration relationship during over-ground running

Vassallo, Christian; Kilduff, Liam; Cummins, Cloe; Murphy, Aron; Gray, Adrian; Waldron, Mark

doi:10.1080/17461391.2021.1931463

Journal article 1262 views 382 downloads

A new energetics model for the assessment of the power-duration relationship during over-ground running

Christian Vassallo, Liam Kilduff

, Cloe Cummins

, Aron Murphy, Adrian Gray

, Mark Waldron

European Journal of Sport Science, Volume: 22, Issue: 8, Pages: 1211 - 1221

Swansea University Authors: Christian Vassallo, Liam Kilduff , Mark Waldron

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DOI (Published version): 10.1080/17461391.2021.1931463

Abstract

We evaluated the reliability of an over-ground running three-minute all-out test (3MT) and compared this to traditional multiple-visit testing to determine the critical speed (CS) and distance > CS (D´). Using a novel energetics model during the 3MT, critical power (CP) and work > CP (W´) were...

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Published in:	European Journal of Sport Science
ISSN:	1746-1391 1536-7290
Published:	Informa UK Limited 2022
Online Access:	Check full text
URI:	https://cronfa.swan.ac.uk/Record/cronfa56757

first_indexed	2021-04-28T13:20:23Z
last_indexed	2025-01-29T19:53:00Z
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Using a novel energetics model during the 3MT, critical power (CP) and work > CP (W´) were also evaluated for reliability and compared to the multiple-visit tests. Over-ground running speed was measured using Global Positioning Systems during fixed-speed trials on a 400 m track to exhaustion, at four intensities corresponding to: (i) maximal oxygen uptake (V˙O2max) (Vmax), (ii) 110% V˙O2max(110%Vmax), (iii) Δ70% (i.e. 70% of the difference between gas exchange threshold and Vmax) and (iv) Δ85%. The participants subsequently performed the 3MT across two days to determine its reliability. There were no differences between the multiple-visit testing and the 3MT for CS (P = 0.328) and D´ (P = 0.919); however, CP (P = 0.02) and W´ (P < 0.001) were higher in the 3MT. The reliability of the 3MT was stable (P > 0.05) between trials for all variables, with coefficient of variation ranging from 2.0–8.1%. The current over-ground energetics model can reliably estimate CP and W´ based on GPS speed data during the 3MT, which supports its use for most athletic training and monitoring purposes. 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spelling	2025-01-29T15:51:59.8284719 v2 56757 2021-04-28 A new energetics model for the assessment of the power-duration relationship during over-ground running c2da7aec85a96def9b60d5af0afb22fe Christian Vassallo Christian Vassallo true false 972ed9a1dda7a0de20581a0f8350be98 0000-0001-9449-2293 Liam Kilduff Liam Kilduff true false 70db7c6c54d46f5e70b39e5ae0a056fa 0000-0002-2720-4615 Mark Waldron Mark Waldron true false 2021-04-28 EAAS We evaluated the reliability of an over-ground running three-minute all-out test (3MT) and compared this to traditional multiple-visit testing to determine the critical speed (CS) and distance > CS (D´). Using a novel energetics model during the 3MT, critical power (CP) and work > CP (W´) were also evaluated for reliability and compared to the multiple-visit tests. Over-ground running speed was measured using Global Positioning Systems during fixed-speed trials on a 400 m track to exhaustion, at four intensities corresponding to: (i) maximal oxygen uptake (V˙O2max) (Vmax), (ii) 110% V˙O2max(110%Vmax), (iii) Δ70% (i.e. 70% of the difference between gas exchange threshold and Vmax) and (iv) Δ85%. The participants subsequently performed the 3MT across two days to determine its reliability. There were no differences between the multiple-visit testing and the 3MT for CS (P = 0.328) and D´ (P = 0.919); however, CP (P = 0.02) and W´ (P < 0.001) were higher in the 3MT. The reliability of the 3MT was stable (P > 0.05) between trials for all variables, with coefficient of variation ranging from 2.0–8.1%. The current over-ground energetics model can reliably estimate CP and W´ based on GPS speed data during the 3MT, which supports its use for most athletic training and monitoring purposes. The reliability of the over-ground running 3MT for power- and speed-related indices was sufficient to detect typical training adaptations; however, it may overestimate CP (∼ 25 W) and W´ (∼ 7 kJ) compared to multiple-visit tests. Journal Article European Journal of Sport Science 22 8 1211 1221 Informa UK Limited 1746-1391 1536-7290 Critical power, critical speed, energetics, endurance 3 8 2022 2022-08-03 10.1080/17461391.2021.1931463 COLLEGE NANME Engineering and Applied Sciences School COLLEGE CODE EAAS Swansea University Not Required 2025-01-29T15:51:59.8284719 2021-04-28T14:18:07.9506569 Faculty of Science and Engineering School of Engineering and Applied Sciences - Sport and Exercise Sciences Christian Vassallo 1 Liam Kilduff 0000-0001-9449-2293 2 Cloe Cummins 0000-0003-1960-8916 3 Aron Murphy 4 Adrian Gray 0000-0002-9302-9632 5 Mark Waldron 0000-0002-2720-4615 6 56757__19772__382d06b6e2ea4fbe8d71fcd17368dc2e.pdf 56757.pdf 2021-04-28T14:20:00.5913262 Output 1004112 application/pdf Accepted Manuscript true 2022-05-16T00:00:00.0000000 © 2021 All rights reserved. Released under a Creative Commons Attribution-NonCommercial License (CC-BY-NC). true eng http://creativecommons.org/licenses/by-nc-nd/4.0/
title	A new energetics model for the assessment of the power-duration relationship during over-ground running
spellingShingle	A new energetics model for the assessment of the power-duration relationship during over-ground running Christian Vassallo Liam Kilduff Mark Waldron
title_short	A new energetics model for the assessment of the power-duration relationship during over-ground running
title_full	A new energetics model for the assessment of the power-duration relationship during over-ground running
title_fullStr	A new energetics model for the assessment of the power-duration relationship during over-ground running
title_full_unstemmed	A new energetics model for the assessment of the power-duration relationship during over-ground running
title_sort	A new energetics model for the assessment of the power-duration relationship during over-ground running
author_id_str_mv	c2da7aec85a96def9b60d5af0afb22fe 972ed9a1dda7a0de20581a0f8350be98 70db7c6c54d46f5e70b39e5ae0a056fa
author_id_fullname_str_mv	c2da7aec85a96def9b60d5af0afb22fe_*_Christian Vassallo 972ed9a1dda7a0de20581a0f8350be98__Liam Kilduff 70db7c6c54d46f5e70b39e5ae0a056fa_**_Mark Waldron
author	Christian Vassallo Liam Kilduff Mark Waldron
author2	Christian Vassallo Liam Kilduff Cloe Cummins Aron Murphy Adrian Gray Mark Waldron
format	Journal article
container_title	European Journal of Sport Science
container_volume	22
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container_start_page	1211
publishDate	2022
institution	Swansea University
issn	1746-1391 1536-7290
doi_str_mv	10.1080/17461391.2021.1931463
publisher	Informa UK Limited
college_str	Faculty of Science and Engineering
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description	We evaluated the reliability of an over-ground running three-minute all-out test (3MT) and compared this to traditional multiple-visit testing to determine the critical speed (CS) and distance > CS (D´). Using a novel energetics model during the 3MT, critical power (CP) and work > CP (W´) were also evaluated for reliability and compared to the multiple-visit tests. Over-ground running speed was measured using Global Positioning Systems during fixed-speed trials on a 400 m track to exhaustion, at four intensities corresponding to: (i) maximal oxygen uptake (V˙O2max) (Vmax), (ii) 110% V˙O2max(110%Vmax), (iii) Δ70% (i.e. 70% of the difference between gas exchange threshold and Vmax) and (iv) Δ85%. The participants subsequently performed the 3MT across two days to determine its reliability. There were no differences between the multiple-visit testing and the 3MT for CS (P = 0.328) and D´ (P = 0.919); however, CP (P = 0.02) and W´ (P < 0.001) were higher in the 3MT. The reliability of the 3MT was stable (P > 0.05) between trials for all variables, with coefficient of variation ranging from 2.0–8.1%. The current over-ground energetics model can reliably estimate CP and W´ based on GPS speed data during the 3MT, which supports its use for most athletic training and monitoring purposes. The reliability of the over-ground running 3MT for power- and speed-related indices was sufficient to detect typical training adaptations; however, it may overestimate CP (∼ 25 W) and W´ (∼ 7 kJ) compared to multiple-visit tests.
published_date	2022-08-03T04:50:48Z
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score	11.090009

A new energetics model for the assessment of the power-duration relationship during over-ground running

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