External and internal maximal intensity periods of elite youth male soccer matches

External and internal maximal intensity periods of elite youth male soccer matches

Understanding the maximal intensity periods (MIP) of soccer matches can optimise training prescription. The aim was to establish differences between positions and other contextual factors (match location, match outcome, playing formation and score line) for both external and internal MIP variables a...

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Bibliographic Details
Published in:Journal of sports sciences Vol. 41; no. 6; pp. 547 - 556
Main Authors: Kim, Songmi, Emmonds, Stacey, Bower, Paul, Weaving, Dan
Format: Journal Article
Language:English
Published: England Routledge 19-03-2023
Taylor & Francis Ltd
Subjects:
Acceleration
Adolescent
Athletic Performance - physiology
Geographic Information Systems
Heart rate
Heart Rate - physiology
Humans
Internal intensity
Male
Maximal Intensity Period
Microtechnology
Moving average
Physical training
Running - physiology
soccer
Soccer - physiology
Training
soccer
Maximal Intensity Period
Moving average
Internal intensity
Microtechnology
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Summary:Understanding the maximal intensity periods (MIP) of soccer matches can optimise training prescription. The aim was to establish differences between positions and other contextual factors (match location, match outcome, playing formation and score line) for both external and internal MIP variables and to investigate the differences in the match start time between MIP variables. Maximal moving averages (1 to 10 min) for average speed, high-speed running (5.5-7 m·s −1 ), sprinting (>7 m·s −1 ; all m·min −1 ), average acceleration/deceleration (m·s −2 ) and heart rate (bpm, % maximal) were calculated from 24 professional youth players across 31 matches. Linear mixed models determined differences in MIP variables between positions, contextual factors and in the match start time of MIPs. Trivial to large positional differences existed in maximal external intensities while central defenders presented the lowest heart rate. It was unclear whether maximal intensities were influenced by contextual factors. MIPs for average speed, acceleration/deceleration and heart rate tend to occur concurrently (ES = trivial) within the first 30 min, while high-speed running and sprinting are likely to occur concurrently (ES = trivial) throughout a whole match. Practitioners could target maximising average speed and average acceleration/deceleration in technical-tactical based training to maximise heart rate responses.
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ISSN:0264-0414
1466-447X
DOI:10.1080/02640414.2023.2227539