Quantifying Training Load for Free Sprint, Resisted Sprint, Plyometrics and Weights Training with Session-RPE in Field Sport Athletes

Session ratings of perceived exertion (session-RPE) are used to assess global training intensity for team sports. Internal training load can be calculated by multiplying session-RPE by the training session duration. There is little information regarding quantifying training load for protocols design...

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Bibliographic Details
Published in:Journal of strength and conditioning research 2011-03, Vol.25, p.S14
Main Authors: Lockie, R G, Murphy, A, Janse de Jonge, X
Format: Article
Language:English
Subjects:
Load
Studies
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Summary:Session ratings of perceived exertion (session-RPE) are used to assess global training intensity for team sports. Internal training load can be calculated by multiplying session-RPE by the training session duration. There is little information regarding quantifying training load for protocols designed to improve speed. This is pertinent for field sport athletes (e.g. football players), as speed and acceleration are vital physical attributes. PURPOSE: To determine the intensity of free sprint (FST), resisted sprint (RST), plyometrics (PT) and weights (WT) training programs designed to improve acceleration in field sport athletes by using session-RPE. METHODS: 35 field sport-active men were randomly allocated into 4 groups matched by 10m velocity. Training between protocols was coordinated by duration and progressively overloaded, and involved 21-hour sessions per week for 6 weeks. The FST and RST groups used the same program, with the RST group towing a load that caused a 10% velocity drop. The plyometrics and weights programs were matched by similar exercises. Subjects noted session-RPE 30 minutes post-training using the Borg CR-10 scale. RESULTS: Paired samples t-tests found significant (p≤.05) within-group changes in velocity and session-RPE, and one-way ANOVA found significant between-group differences. Each group significantly increased 0-10m velocity by 5-7%, with no differences between groups. Using the Borg CR-10 scale as a reference, the mean session-RPE for the FST group ranged from Somewhat Hard to Hard (4-5); for the RST group from Moderate to Somewhat Hard (3-4); for the PT group from Moderate to Hard (3-5); and for the WT group around Very Hard (7-8). The WT group had significantly higher session-RPE when compared to the FST, RST and PT groups. There were no significant differences in session-RPE between the FST, RST and PT groups. Session-RPE increased over the study period for all groups as training intensified. Conclusion: The results from the current study indicate that session-RPE can assess speed training intensity. Session-RPE is mode-dependent, and acceleration can improve for sprint and plyometrics training at a relatively lower intensity when compared to weights. Nonetheless, the intensity of each protocol was sufficient to improve sprint performance as each group increased 0-10m velocity. Furthermore, the rise in session-RPE across the training period for all groups indicated progressive overload. As there were no significant differ
ISSN:1064-8011
1533-4287
DOI:10.1097/01.JSC.0000395600.19274.ec