The Impact of Training Load on Sleep During a 14-Day Training Camp in Elite, Adolescent, Female Basketball Players

in International Journal of Sports Physiology and Performance

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Michele Lastella
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Gregory D. Roach
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Grace E. Vincent
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Aaron T. Scanlan
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Shona L. Halson
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Charli Sargent
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DOI:
https://doi.org/10.1123/ijspp.2019-0157
Keywords:
actigraphy; sleep efficiency; duration; RPE; team sport
First Published Online:
03 Feb 2020
In Print:
Volume 15: Issue 5
Page Range:
724–730
Restricted access

Purpose: To quantify the sleep/wake behaviors of adolescent, female basketball players and to examine the impact of daily training load on sleep/wake behaviors during a 14-day training camp. Methods: Elite, adolescent, female basketball players (N = 11) had their sleep/wake behaviors monitored using self-report sleep diaries and wrist-worn activity monitors during a 14-day training camp. Each day, players completed 1 to 5 training sessions (session duration: 114 [54] min). Training load was determined using the session rating of perceived exertion model in arbitrary units. Daily training loads were summated across sessions on each day and split into tertiles corresponding to low, moderate, and high training load categories, with rest days included as a separate category. Separate linear mixed models and effect size analyses were conducted to assess differences in sleep/wake behaviors among daily training load categories. Results: Sleep onset and offset times were delayed (P < .05) on rest days compared with training days. Time in bed and total sleep time were longer (P < .05) on rest days compared with training days. Players did not obtain the recommended 8 to 10 hours of sleep per night on training days. A moderate increase in sleep efficiency was evident during days with high training loads compared with low. Conclusions: Elite, adolescent, female basketball players did not consistently meet the sleep duration recommendations of 8 to 10 hours per night during a 14-day training camp. Rest days delayed sleep onset and offset times, resulting in longer sleep durations compared with training days. Sleep/wake behaviors were not impacted by variations in the training load administered to players.

Lastella, Roach, Vincent, and Sargent are with the Appleton Inst for Behavioural Science, Central Queensland University, Adelaide, SA, Australia. Scanlan is with the Human Exercise and Training Laboratory, School of Health, Medical and Applied Sciences, Central Queensland University, Rockhampton, QLD, Australia. Halson is with the School of Behavioural and Health Sciences, Australian Catholic University, Melbourne, VIC, Australia.

Lastella (m.lastella@cqu.edu.au) is corresponding author.
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