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Validity and Reliability of Sprint Force-Velocity Profiling in Elite Football: Comparison of MySprint, GPS, and radar devices.

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Validity and Reliability of Sprint Force-Velocity Profiling in Elite Football: Comparison of MySprint, GPS, and radar devices. / Stockdale, Robert; Dos’Santos, Thomas; McDaid, Kevin et al.
In: PLoS ONE, Vol. 20, No. 6, e0325611, 04.06.2025.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Stockdale, R, Dos’Santos, T, McDaid, K, Nagy, P, Gaffney, C & Barry, T 2025, 'Validity and Reliability of Sprint Force-Velocity Profiling in Elite Football: Comparison of MySprint, GPS, and radar devices.', PLoS ONE, vol. 20, no. 6, e0325611. https://doi.org/10.1371/journal.pone.0325611

APA

Stockdale, R., Dos’Santos, T., McDaid, K., Nagy, P., Gaffney, C., & Barry, T. (2025). Validity and Reliability of Sprint Force-Velocity Profiling in Elite Football: Comparison of MySprint, GPS, and radar devices. PLoS ONE, 20(6), Article e0325611. https://doi.org/10.1371/journal.pone.0325611

Vancouver

Stockdale R, Dos’Santos T, McDaid K, Nagy P, Gaffney C, Barry T. Validity and Reliability of Sprint Force-Velocity Profiling in Elite Football: Comparison of MySprint, GPS, and radar devices. PLoS ONE. 2025 Jun 4;20(6):e0325611. doi: 10.1371/journal.pone.0325611

Author

Stockdale, Robert ; Dos’Santos, Thomas ; McDaid, Kevin et al. / Validity and Reliability of Sprint Force-Velocity Profiling in Elite Football : Comparison of MySprint, GPS, and radar devices. In: PLoS ONE. 2025 ; Vol. 20, No. 6.

Bibtex

@article{522553a2de4b4bbfa05452bd291a3cd9,
title = "Validity and Reliability of Sprint Force-Velocity Profiling in Elite Football: Comparison of MySprint, GPS, and radar devices.",
abstract = "The aims were to examine the validity and within-session inter-trial, intra- and interrater reliability of sprint force-velocity profiling (FVP) techniques in elite football. Twelve elite youth football players from an English Premier League academy participated in this study. A 30-m maximal effort linear sprint testing protocol was conducted, simultaneously measured using the MySprint app, GPS units, and radar device to derive theoretical maximal horizontal force (F0), theoretical maximal running velocity (V0), and the overall orientation of the profile (FVslope). There were significant differences in F0, V0, and FVslope (p < 0.05) between the MySprint app and radar device, with large effect sizes (ε2 = 0.683, 0.513, and 0.482), but not in F0 or V0 (p > 0.05), between the GPS and radar devices. There were no significant differences in F0 or V0 (p > 0.05) between each players{\textquoteright} sprint repeats for all equipment types, with these effect sizes (rrb): MySprint (0.047, 0.523), GPS (0.236, -0.163), radar (0.785, -0.777). RMSE and CV values for F0 and V0 were 0.72–1.20 N/Kg and 3.76 – 9.59%, 0.21 – 0.40 m/s and 1.48 – 2.64%, respectively, with improved reliability and agreement in V0 vs. F0. There was no significant difference in F0 or V0 (p > 0.05), with medium-to-large effect sizes (rrb = -0.242 and -0.636) when the MySprint analysis was repeated by the same rater. RMSE and CV values for F0 and V0 were 0.19 N/Kg and 2.9%, 0.07 m/s and 0.54%. There was no significant difference in F0 or V0 (p > 0.05) between the two raters{\textquoteright} MySprint analysis, and ICC demonstrated excellent agreement (F0 = 0.986, CI = 0.950 – 0.996, and V0 = 0.988, CI = 0.957 – 0.997). This study reports high intra- and inter-rater reliability when using the MySprint app to derive FVP{\textquoteright}s from 30-m maximal sprint testing whilst indicating GPS as the most valid and reliable force-velocity profiling technique against the reference radar device.",
author = "Robert Stockdale and Thomas Dos{\textquoteright}Santos and Kevin McDaid and Philip Nagy and Christopher Gaffney and Timothy Barry",
year = "2025",
month = jun,
day = "4",
doi = "10.1371/journal.pone.0325611",
language = "English",
volume = "20",
journal = "PLoS ONE",
issn = "1932-6203",
publisher = "Public Library of Science",
number = "6",

}

RIS

TY - JOUR

T1 - Validity and Reliability of Sprint Force-Velocity Profiling in Elite Football

T2 - Comparison of MySprint, GPS, and radar devices.

AU - Stockdale, Robert

AU - Dos’Santos, Thomas

AU - McDaid, Kevin

AU - Nagy, Philip

AU - Gaffney, Christopher

AU - Barry, Timothy

PY - 2025/6/4

Y1 - 2025/6/4

N2 - The aims were to examine the validity and within-session inter-trial, intra- and interrater reliability of sprint force-velocity profiling (FVP) techniques in elite football. Twelve elite youth football players from an English Premier League academy participated in this study. A 30-m maximal effort linear sprint testing protocol was conducted, simultaneously measured using the MySprint app, GPS units, and radar device to derive theoretical maximal horizontal force (F0), theoretical maximal running velocity (V0), and the overall orientation of the profile (FVslope). There were significant differences in F0, V0, and FVslope (p < 0.05) between the MySprint app and radar device, with large effect sizes (ε2 = 0.683, 0.513, and 0.482), but not in F0 or V0 (p > 0.05), between the GPS and radar devices. There were no significant differences in F0 or V0 (p > 0.05) between each players’ sprint repeats for all equipment types, with these effect sizes (rrb): MySprint (0.047, 0.523), GPS (0.236, -0.163), radar (0.785, -0.777). RMSE and CV values for F0 and V0 were 0.72–1.20 N/Kg and 3.76 – 9.59%, 0.21 – 0.40 m/s and 1.48 – 2.64%, respectively, with improved reliability and agreement in V0 vs. F0. There was no significant difference in F0 or V0 (p > 0.05), with medium-to-large effect sizes (rrb = -0.242 and -0.636) when the MySprint analysis was repeated by the same rater. RMSE and CV values for F0 and V0 were 0.19 N/Kg and 2.9%, 0.07 m/s and 0.54%. There was no significant difference in F0 or V0 (p > 0.05) between the two raters’ MySprint analysis, and ICC demonstrated excellent agreement (F0 = 0.986, CI = 0.950 – 0.996, and V0 = 0.988, CI = 0.957 – 0.997). This study reports high intra- and inter-rater reliability when using the MySprint app to derive FVP’s from 30-m maximal sprint testing whilst indicating GPS as the most valid and reliable force-velocity profiling technique against the reference radar device.

AB - The aims were to examine the validity and within-session inter-trial, intra- and interrater reliability of sprint force-velocity profiling (FVP) techniques in elite football. Twelve elite youth football players from an English Premier League academy participated in this study. A 30-m maximal effort linear sprint testing protocol was conducted, simultaneously measured using the MySprint app, GPS units, and radar device to derive theoretical maximal horizontal force (F0), theoretical maximal running velocity (V0), and the overall orientation of the profile (FVslope). There were significant differences in F0, V0, and FVslope (p < 0.05) between the MySprint app and radar device, with large effect sizes (ε2 = 0.683, 0.513, and 0.482), but not in F0 or V0 (p > 0.05), between the GPS and radar devices. There were no significant differences in F0 or V0 (p > 0.05) between each players’ sprint repeats for all equipment types, with these effect sizes (rrb): MySprint (0.047, 0.523), GPS (0.236, -0.163), radar (0.785, -0.777). RMSE and CV values for F0 and V0 were 0.72–1.20 N/Kg and 3.76 – 9.59%, 0.21 – 0.40 m/s and 1.48 – 2.64%, respectively, with improved reliability and agreement in V0 vs. F0. There was no significant difference in F0 or V0 (p > 0.05), with medium-to-large effect sizes (rrb = -0.242 and -0.636) when the MySprint analysis was repeated by the same rater. RMSE and CV values for F0 and V0 were 0.19 N/Kg and 2.9%, 0.07 m/s and 0.54%. There was no significant difference in F0 or V0 (p > 0.05) between the two raters’ MySprint analysis, and ICC demonstrated excellent agreement (F0 = 0.986, CI = 0.950 – 0.996, and V0 = 0.988, CI = 0.957 – 0.997). This study reports high intra- and inter-rater reliability when using the MySprint app to derive FVP’s from 30-m maximal sprint testing whilst indicating GPS as the most valid and reliable force-velocity profiling technique against the reference radar device.

U2 - 10.1371/journal.pone.0325611

DO - 10.1371/journal.pone.0325611

M3 - Journal article

VL - 20

JO - PLoS ONE

JF - PLoS ONE

SN - 1932-6203

IS - 6

M1 - e0325611

ER -