The Effect of Fitness on Performance, Exertion, and Cognition During Simulated Firefighter Occupational Tasks

The Effect of Fitness on Performance, Exertion, and Cognition During Simulated Firefighter Occupational Tasks

<b>Background:</b> Fitness is relevant for firefighter occupational performance, but its influence on exertion and cognition during occupational tasks remains unclear. We aim to determine fitness’s influence on performance, exertion, and cognition during simulated firefighter occupationa...

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Auteurs principaux: Philip J. Agostinelli, Nicholas C. Bordonie, Braxton A. Linder, Ann M. Robbins, Parker L. Jones, Lee F. Reagan, C. Brooks Mobley, Matthew W. Miller, William M. Murrah, JoEllen M. Sefton
Format: Article
Langue:anglais
Publié: MDPI AG 2025-04-01
Collection:Journal of Functional Morphology and Kinesiology
Sujets:
training status
exercise
tactical athletes
fire services
fitness assessment
fitness screening
Accès en ligne:https://www.mdpi.com/2411-5142/10/2/129
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Résumé:<b>Background:</b> Fitness is relevant for firefighter occupational performance, but its influence on exertion and cognition during occupational tasks remains unclear. We aim to determine fitness’s influence on performance, exertion, and cognition during simulated firefighter occupational tasks. <b>Methods:</b> Two baseline fitness assessments occurred to measure aerobic fitness, strength, power, and body composition in 33 non-firefighter participants (females/males: 15/18; 25.18 ± 4.06 years; 174.01 ± 9.77 cm; 75.94 ± 13.18 kg). A third visit involved participants completing an occupational task assessment (OTA; four rounds of deadlifts, sandbag carries, and a cognitive assessment at 35 °C/50% humidity) to the best of their ability. Multiple linear regression models, including strength and power, aerobic capacity, and body composition, were used to predict OTA performance and exertion. Our outcomes included time to complete, exertion, and cognitive performance during the OTA. <b>Results:</b> The model predicted OTA time, RPE, skin temperature, and blood lactate (<i>p</i>s < 0.02), but not core temperature (<i>p</i> > 0.24). The model did not predict cognitive errors (<i>p</i>s > 0.06). <b>Conclusions:</b> These metrics of fitness provide meaningful predictive insight into firefighters’ occupational readiness during simulated occupational tasks.
ISSN:2411-5142

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