Real‐Time Monitoring of Biometric Responses During a 200‐km Ultra‐Endurance Race Across the Desert

Chris J. Esh; Yannis Pitsiladis; Sebastien Racinais; Lee Taylor; Valentin Dablainville; Toaufik Belfekih; Fawzi Bendimerad; Asimina Pitsiladis; Panagiotis Verdoukas; Mark Willems; Nelda Nader; Feriel Dalansi; Paul Grandjean; Maha Al‐Mulla; Nada Aldous; Joseph Dossou; Youmna Elsayed Hassanein; Nada Khater; Herald Miranda; Marco Cardinale

doi:10.1002/ejsc.70026

Real‐Time Monitoring of Biometric Responses During a 200‐km Ultra‐Endurance Race Across the Desert

Chris J. Esh^*, Yannis Pitsiladis, Sebastien Racinais, Lee Taylor, Valentin Dablainville, Toaufik Belfekih, Fawzi Bendimerad, Asimina Pitsiladis, Panagiotis Verdoukas, Mark Willems, Nelda Nader, Feriel Dalansi, Paul Grandjean, Maha Al‐Mulla, Nada Aldous, Joseph Dossou, Youmna Elsayed Hassanein, Nada Khater, Herald Miranda, Marco Cardinale

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

Ultra‐endurance sports challenge athlete health, with these risks exacerbated by environmental extremes and/or remoteness of competition. Therefore, this study aimed to use real‐time monitoring technology to characterise and monitor physiological/biomechanical responses during SAMLA 2023, a 200‐km multidiscipline (swim, run, bike, and kayak) ultra‐endurance race, encompassing cool and warm desert environmental conditions (16°C–28°C). Within a cross‐sectional observational study design, 18 males (total entrants: 318) were instrumented with wearable/ingestible sensors measuring physiological [heart rate and core (Tc)/skin (Tsk) temperature], biomechanical [gait] and location‐based [Global Positioning System (GPS)] metrics. Sensors connected to a smartphone application via Bluetooth, which saved and transmitted data to a cloud‐based dashboard in real‐time. Participants were on‐course for an accumulated ∼668 h. ∼662 h of GPS data were displayed in real‐time with the longest individual data capture of ∼57 h. Physiological/biomechanical data were acquired for x̄: ∼42% (range: ∼38%–∼49%) of the participant on‐course time. Hypo/hyperthermic Tc's were seen (x̄: 37.8°C range: 35.7°C–39.2°C). Tsk (28°C: 11.7°C–38.4°C) in response to the varied in‐race environmental challenges (16°C–28°C ambient temperature) and heart rate (111 b·min−1: 37 b·min−1–179 b·min−1) varied markedly. One participant was hospitalised without presentation in physiological data. Biomechanical data had significant data loss and quality issues and are not presented. Developments in real‐time monitoring technology, acknowledging limitations observed here (physiological/biomechanical data acquisition), may allow combined in‐race GPS and physiological data (e.g., Tc/Tsk) to be used during ultra‐endurance sport to prospectively protect athlete health. GPS/physiological data alone may not identify medical emergencies, and medical teams must remain alert to medical events.

Original language	English
Article number	e70026
Number of pages	11
Journal	European Journal of Sport Science
Volume	25
Issue number	9
Early online date	11 Aug 2025
DOIs	https://doi.org/10.1002/ejsc.70026
Publication status	Published - 1 Sept 2025
Externally published	Yes

Keywords

hyperthermia
hypothermia
real-time athlete monitoring
thermal physiology
ultra-endurance

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Esh, C. J., Pitsiladis, Y., Racinais, S., Taylor, L., Dablainville, V., Belfekih, T., Bendimerad, F., Pitsiladis, A., Verdoukas, P., Willems, M., Nader, N., Dalansi, F., Grandjean, P., Al‐Mulla, M., Aldous, N., Dossou, J., Hassanein, Y. E., Khater, N., Miranda, H., & Cardinale, M. (2025). Real‐Time Monitoring of Biometric Responses During a 200‐km Ultra‐Endurance Race Across the Desert. European Journal of Sport Science, 25(9), Article e70026. https://doi.org/10.1002/ejsc.70026

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title = "Real‐Time Monitoring of Biometric Responses During a 200‐km Ultra‐Endurance Race Across the Desert",

abstract = "Ultra‐endurance sports challenge athlete health, with these risks exacerbated by environmental extremes and/or remoteness of competition. Therefore, this study aimed to use real‐time monitoring technology to characterise and monitor physiological/biomechanical responses during SAMLA 2023, a 200‐km multidiscipline (swim, run, bike, and kayak) ultra‐endurance race, encompassing cool and warm desert environmental conditions (16°C–28°C). Within a cross‐sectional observational study design, 18 males (total entrants: 318) were instrumented with wearable/ingestible sensors measuring physiological [heart rate and core (Tc)/skin (Tsk) temperature], biomechanical [gait] and location‐based [Global Positioning System (GPS)] metrics. Sensors connected to a smartphone application via Bluetooth, which saved and transmitted data to a cloud‐based dashboard in real‐time. Participants were on‐course for an accumulated ∼668 h. ∼662 h of GPS data were displayed in real‐time with the longest individual data capture of ∼57 h. Physiological/biomechanical data were acquired for {\=x}: ∼42\% (range: ∼38\%–∼49\%) of the participant on‐course time. Hypo/hyperthermic Tc's were seen ({\=x}: 37.8°C range: 35.7°C–39.2°C). Tsk (28°C: 11.7°C–38.4°C) in response to the varied in‐race environmental challenges (16°C–28°C ambient temperature) and heart rate (111 b·min−1: 37 b·min−1–179 b·min−1) varied markedly. One participant was hospitalised without presentation in physiological data. Biomechanical data had significant data loss and quality issues and are not presented. Developments in real‐time monitoring technology, acknowledging limitations observed here (physiological/biomechanical data acquisition), may allow combined in‐race GPS and physiological data (e.g., Tc/Tsk) to be used during ultra‐endurance sport to prospectively protect athlete health. GPS/physiological data alone may not identify medical emergencies, and medical teams must remain alert to medical events.",

keywords = "hyperthermia, hypothermia, real-time athlete monitoring, thermal physiology, ultra-endurance",

author = "Esh, \{Chris J.\} and Yannis Pitsiladis and Sebastien Racinais and Lee Taylor and Valentin Dablainville and Toaufik Belfekih and Fawzi Bendimerad and Asimina Pitsiladis and Panagiotis Verdoukas and Mark Willems and Nelda Nader and Feriel Dalansi and Paul Grandjean and Maha Al‐Mulla and Nada Aldous and Joseph Dossou and Hassanein, \{Youmna Elsayed\} and Nada Khater and Herald Miranda and Marco Cardinale",

note = "Funding: The Aspire Zone Foundation and Human Telemetrics Ltd provided financial support for this project.",

year = "2025",

month = sep,

day = "1",

doi = "10.1002/ejsc.70026",

language = "English",

volume = "25",

journal = "European Journal of Sport Science",

issn = "1746-1391",

publisher = "Blackwell Publishing",

number = "9",

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Esh, CJ, Pitsiladis, Y, Racinais, S, Taylor, L, Dablainville, V, Belfekih, T, Bendimerad, F, Pitsiladis, A, Verdoukas, P, Willems, M, Nader, N, Dalansi, F, Grandjean, P, Al‐Mulla, M, Aldous, N, Dossou, J, Hassanein, YE, Khater, N, Miranda, H & Cardinale, M 2025, 'Real‐Time Monitoring of Biometric Responses During a 200‐km Ultra‐Endurance Race Across the Desert', European Journal of Sport Science, vol. 25, no. 9, e70026. https://doi.org/10.1002/ejsc.70026

TY - JOUR

T1 - Real‐Time Monitoring of Biometric Responses During a 200‐km Ultra‐Endurance Race Across the Desert

AU - Esh, Chris J.

AU - Pitsiladis, Yannis

AU - Racinais, Sebastien

AU - Taylor, Lee

AU - Dablainville, Valentin

AU - Belfekih, Toaufik

AU - Bendimerad, Fawzi

AU - Pitsiladis, Asimina

AU - Verdoukas, Panagiotis

AU - Willems, Mark

AU - Nader, Nelda

AU - Dalansi, Feriel

AU - Grandjean, Paul

AU - Al‐Mulla, Maha

AU - Aldous, Nada

AU - Dossou, Joseph

AU - Hassanein, Youmna Elsayed

AU - Khater, Nada

AU - Miranda, Herald

AU - Cardinale, Marco

N1 - Funding: The Aspire Zone Foundation and Human Telemetrics Ltd provided financial support for this project.

PY - 2025/9/1

Y1 - 2025/9/1

N2 - Ultra‐endurance sports challenge athlete health, with these risks exacerbated by environmental extremes and/or remoteness of competition. Therefore, this study aimed to use real‐time monitoring technology to characterise and monitor physiological/biomechanical responses during SAMLA 2023, a 200‐km multidiscipline (swim, run, bike, and kayak) ultra‐endurance race, encompassing cool and warm desert environmental conditions (16°C–28°C). Within a cross‐sectional observational study design, 18 males (total entrants: 318) were instrumented with wearable/ingestible sensors measuring physiological [heart rate and core (Tc)/skin (Tsk) temperature], biomechanical [gait] and location‐based [Global Positioning System (GPS)] metrics. Sensors connected to a smartphone application via Bluetooth, which saved and transmitted data to a cloud‐based dashboard in real‐time. Participants were on‐course for an accumulated ∼668 h. ∼662 h of GPS data were displayed in real‐time with the longest individual data capture of ∼57 h. Physiological/biomechanical data were acquired for x̄: ∼42% (range: ∼38%–∼49%) of the participant on‐course time. Hypo/hyperthermic Tc's were seen (x̄: 37.8°C range: 35.7°C–39.2°C). Tsk (28°C: 11.7°C–38.4°C) in response to the varied in‐race environmental challenges (16°C–28°C ambient temperature) and heart rate (111 b·min−1: 37 b·min−1–179 b·min−1) varied markedly. One participant was hospitalised without presentation in physiological data. Biomechanical data had significant data loss and quality issues and are not presented. Developments in real‐time monitoring technology, acknowledging limitations observed here (physiological/biomechanical data acquisition), may allow combined in‐race GPS and physiological data (e.g., Tc/Tsk) to be used during ultra‐endurance sport to prospectively protect athlete health. GPS/physiological data alone may not identify medical emergencies, and medical teams must remain alert to medical events.

AB - Ultra‐endurance sports challenge athlete health, with these risks exacerbated by environmental extremes and/or remoteness of competition. Therefore, this study aimed to use real‐time monitoring technology to characterise and monitor physiological/biomechanical responses during SAMLA 2023, a 200‐km multidiscipline (swim, run, bike, and kayak) ultra‐endurance race, encompassing cool and warm desert environmental conditions (16°C–28°C). Within a cross‐sectional observational study design, 18 males (total entrants: 318) were instrumented with wearable/ingestible sensors measuring physiological [heart rate and core (Tc)/skin (Tsk) temperature], biomechanical [gait] and location‐based [Global Positioning System (GPS)] metrics. Sensors connected to a smartphone application via Bluetooth, which saved and transmitted data to a cloud‐based dashboard in real‐time. Participants were on‐course for an accumulated ∼668 h. ∼662 h of GPS data were displayed in real‐time with the longest individual data capture of ∼57 h. Physiological/biomechanical data were acquired for x̄: ∼42% (range: ∼38%–∼49%) of the participant on‐course time. Hypo/hyperthermic Tc's were seen (x̄: 37.8°C range: 35.7°C–39.2°C). Tsk (28°C: 11.7°C–38.4°C) in response to the varied in‐race environmental challenges (16°C–28°C ambient temperature) and heart rate (111 b·min−1: 37 b·min−1–179 b·min−1) varied markedly. One participant was hospitalised without presentation in physiological data. Biomechanical data had significant data loss and quality issues and are not presented. Developments in real‐time monitoring technology, acknowledging limitations observed here (physiological/biomechanical data acquisition), may allow combined in‐race GPS and physiological data (e.g., Tc/Tsk) to be used during ultra‐endurance sport to prospectively protect athlete health. GPS/physiological data alone may not identify medical emergencies, and medical teams must remain alert to medical events.

KW - hyperthermia

KW - hypothermia

KW - real-time athlete monitoring

KW - thermal physiology

KW - ultra-endurance

UR - https://www.scopus.com/pages/publications/105012853322

U2 - 10.1002/ejsc.70026

DO - 10.1002/ejsc.70026

M3 - Article

SN - 1746-1391

VL - 25

JO - European Journal of Sport Science

JF - European Journal of Sport Science

IS - 9

M1 - e70026

ER -

Real‐Time Monitoring of Biometric Responses During a 200‐km Ultra‐Endurance Race Across the Desert

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Keywords

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