TY - JOUR
T1 - Identification of maximal running intensities during elite hurling match-play
AU - Young, Damien
AU - Malone, Shane
AU - Beato, Marco
AU - Mourot, Laurent
AU - Coratella, Giuseppe
N1 - Publisher Copyright:
© 2020 National Strength and Conditioning Association
PY - 2020/9
Y1 - 2020/9
N2 - The current study aimed to describe the duration-specific running intensities of elite hurling players during competition with respect to position using a rolling average method. Global positioning systems (10-Hz Viper; STATSport, Viper, Newry, Northern Ireland) were used to collect data from 36 elite hurling players across 2 seasons. Players were categorized according to playing positions (full-backs, half-backs, midfielders, half-forwards, and full-forwards). A total of 230 full match samples were obtained from 22 competitive games for analysis. The velocity-time curve was analyzed using a rolling average method, in which the maximum relative total distance (TD; m$min21), high-speed running distance (HSR; m$min21), and sprint distance (SD; m$min21) intensities were calculated across 10 different rolling time durations (1-10 minutes) within each game. There were large to very large (effect sizes [ES] = 0.66-4.33) differences between 1 minute rolling averages and all other durations for TD, HSR, and SD. However, pairwise comparisons between 6 and 10 minutes for TD, HSR, and SD were smaller and more variable (ES = 0.07, trivial to ES = 0.85, moderate). Half-backs, midfielders, and half-forwards achieved a higher maximal relative TD and HSR in all duration-specific fields when compared with full-backs and full-forwards. No positional difference was observed in 1- and 2-minute durations for SD. Because the rolling average duration increased the maximum TD, HSR and SD running intensities decreased across all positions. These data provide knowledge of the peak running intensities of elite hurling competition and can be used to design training activities to sufficiently prepare players for these “worst-case scenarios.
AB - The current study aimed to describe the duration-specific running intensities of elite hurling players during competition with respect to position using a rolling average method. Global positioning systems (10-Hz Viper; STATSport, Viper, Newry, Northern Ireland) were used to collect data from 36 elite hurling players across 2 seasons. Players were categorized according to playing positions (full-backs, half-backs, midfielders, half-forwards, and full-forwards). A total of 230 full match samples were obtained from 22 competitive games for analysis. The velocity-time curve was analyzed using a rolling average method, in which the maximum relative total distance (TD; m$min21), high-speed running distance (HSR; m$min21), and sprint distance (SD; m$min21) intensities were calculated across 10 different rolling time durations (1-10 minutes) within each game. There were large to very large (effect sizes [ES] = 0.66-4.33) differences between 1 minute rolling averages and all other durations for TD, HSR, and SD. However, pairwise comparisons between 6 and 10 minutes for TD, HSR, and SD were smaller and more variable (ES = 0.07, trivial to ES = 0.85, moderate). Half-backs, midfielders, and half-forwards achieved a higher maximal relative TD and HSR in all duration-specific fields when compared with full-backs and full-forwards. No positional difference was observed in 1- and 2-minute durations for SD. Because the rolling average duration increased the maximum TD, HSR and SD running intensities decreased across all positions. These data provide knowledge of the peak running intensities of elite hurling competition and can be used to design training activities to sufficiently prepare players for these “worst-case scenarios.
KW - GPS
KW - High-speed running
KW - Rolling average
KW - Sprint distance
KW - Worse-case running
UR - http://www.scopus.com/inward/record.url?scp=85090055741&partnerID=8YFLogxK
U2 - 10.1519/jsc.0000000000002674
DO - 10.1519/jsc.0000000000002674
M3 - Article
C2 - 29939899
AN - SCOPUS:85090055741
SN - 1064-8011
VL - 34
SP - 2608
EP - 2617
JO - Journal of Strength and Conditioning Research
JF - Journal of Strength and Conditioning Research
IS - 9
ER -