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Observational Study
. 2020 Sep;34(9):2515-2521.
doi: 10.1519/JSC.0000000000003724.

Influence of Training Schedules on Objective Measures of Sleep in Adolescent Academy Football Players

Georgia A Brown  1 Stella Veith  2 John A Sampson  2 Matthew Whalan  2 Hugh H K Fullagar  1
Affiliations
Observational Study

Influence of Training Schedules on Objective Measures of Sleep in Adolescent Academy Football Players

Georgia A Brown et al. J Strength Cond Res. 2020 Sep.

Abstract

Brown, GA, Veith, S, Sampson, JA, Whalan, M, and Fullagar, HHK. Influence of training schedules on objective measures of sleep in adolescent academy football players. J Strength Cond Res 34(9): 2515-2521, 2020-Football academy settings may pose risks to adolescent athletes achieving sufficient sleep because of the contextual challenges these players face (e.g., psychosocial pressure, changes in training, competition, and academic stress). Given the importance of sleep to overall health as well as physical athletic development and injury risk, this study aimed to investigate whether differences in training schedules (morning vs. evening training sessions) affected objective measures of sleep in adolescent academy football (soccer) players. Twelve academy players (mean age 14.18 ± 1.36 years) wore an ActiGraph accelerometer on nights before, and nights of, training days in 2 separate weeks where morning (09:00-11:00 hours) and evening (18:00-20:00 hours) training occurred. Objective sleep parameters and training load data were collected. Night-time sleep periods were categorized as sleep preceding morning training, preceding evening training, or after evening training. One-way univariate and multivariate analyses of variance for repeated measures were performed to determine the impact of the training schedule on sleep. Significance levels were set at p < 0.05. The total sleep time was below the recommended guidelines (<8 hours) across conditions. A large significant effect of the training schedule on time attempted to fall asleep (p = 0.004, effect size [ES] = 0.40) and time of sleep (p = 0.003, ES = 0.41) was present, with post-evening sessions resulting in the latest times. Overall, the players' sleep behavior was resilient to changes in training schedules. However, the low sleep durations (and potential risks to physical performance/injury) suggest that sleep education coupled with practical interventions are required in this cohort.

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References

    1. Bei B, Allen NB, Nicholas CL, et al. Actigraphy-assessed sleep during school and vacation periods: A naturalistic study of restricted and extended sleep opportunities in adolescents. J Sleep Res 23: 107–117, 2014.
    1. Blunden S, Magee C, Clarkson L, et al. Interindividual and intraindividual variability in adolescent sleep patterns across an entire school term: A pilot study. Sleep Health 5: 546–554, 2019.
    1. Bonnar D, Bartel K, Kakoschke N, Lang C. Sleep interventions designed to improve athletic performance and recovery: A systematic review of current approaches. Sports Med 48: 683–703, 2018.
    1. Caia J, Scott TJ, Halson SL, Kelly VG. The influence of sleep hygiene education on sleep in professional rugby league athletes. Sleep Health 4: 364–368, 2018.
    1. Carskadon MA, Vieira C, Acebo C. Association between puberty and delayed phase preference. Sleep 16: 258–262, 1993.

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