Evaluation of the match performances of substitution players in elite soccer.

PURPOSE To evaluate match performances of substitute players using different research designs. METHODS English Premier League matches were analyzed using a multiple-camera system. Two research designs were adopted: an independent-measures analysis comparing the match-performance characteristics of players completing the entire match (n = 810) vs substitutes (n = 286) and the players they replaced (n = 286) and a repeated-measures analysis comparing the same players completing full matches vs those in which they were introduced as a substitute (n = 94). RESULTS Most substitutions (P < .05) occurred at halftime and between the 60- to 85-min vs all first-half periods and the remaining second-half periods (effect size [ES]: 0.85-1.21). These substitutions become more (P < .01) offensive (eg, more attacking positions were introduced) in relation to the positions introduced as the half progressed (ES: 0.93-1.37). Independent-measures analysis indicated that high-intensity running was greater (P < .01) in substitutes compared with players who either completed the entire match or were replaced (ES: 0.28-0.67), but no differences were evident for pass-completion rates (ES: 0.01-0.02). Repeated-measures analysis highlighted that players covered more (P < .01) high-intensity running when they were introduced as substitutes compared with the equivalent period of the second- but not the first-half period (ES: 0.21-0.47). Both research designs indicated that attackers covered more (P < .05) high-intensity running than peers or their own performances when completing the entire match (ES: 0.45- 0.71). CONCLUSIONS Substitutes cover greater high-intensity-running distance; this was particularly evident in attackers, but pass-completion rates did not differ for any position. This information could be beneficial to coaches regarding optimizing the match running performances of their players, but much more work needs to be undertaken to investigate the overall impact of substitutes (physical, technical indicators, and contribution to key moments of matches).

[1]  G. Atkinson,et al.  Match-to-Match Variability of High-Speed Activities in Premier League Soccer , 2010, International journal of sports medicine.

[2]  B Drust,et al.  Analysis of High Intensity Activity in Premier League Soccer , 2009, International journal of sports medicine.

[3]  M. Weston,et al.  Re-examination of the post half-time reduction in soccer work-rate. , 2013, Journal of science and medicine in sport.

[4]  Carlo Castagna,et al.  Technical performance during soccer matches of the Italian Serie A league: effect of fatigue and competitive level. , 2009, Journal of science and medicine in sport.

[5]  M. Buchheit,et al.  Match running performance and fitness in youth soccer. , 2010, International journal of sports medicine.

[6]  P. Krustrup,et al.  The Copenhagen Soccer Test: physiological response and fatigue development. , 2012, Medicine and science in sports and exercise.

[7]  P. Krustrup,et al.  High-intensity running in English FA Premier League soccer matches , 2009, Journal of sports sciences.

[8]  Carlos González-Haro,et al.  Sprinting analysis of elite soccer players during European Champions League and UEFA Cup matches , 2010, Journal of sports sciences.

[9]  P. Krustrup,et al.  Muscle and blood metabolites during a soccer game: implications for sprint performance. , 2006, Medicine and science in sports and exercise.

[10]  V. Di Salvo,et al.  Performance Characteristics According to Playing Position in Elite Soccer , 2006, International journal of sports medicine.

[11]  M. Lames,et al.  Game interruptions in elite soccer , 2012, Journal of sports sciences.

[12]  Greg Atkinson,et al.  Future Perspectives in the Evaluation of the Physiological Demands of Soccer , 2007, Sports medicine.

[13]  J. Castellano,et al.  Contextual Variables and Time-Motion Analysis in Soccer , 2011, International journal of sports medicine.

[14]  Alan M Batterham,et al.  Making meaningful inferences about magnitudes. , 2006, International journal of sports physiology and performance.

[15]  L. Nybo,et al.  Muscle temperature and sprint performance during soccer matches – beneficial effect of re‐warm‐up at half‐time , 2004, Scandinavian journal of medicine & science in sports.

[16]  T. Noakes,et al.  Dehydration , 2009, Sports medicine.

[17]  P. Krustrup,et al.  The effect of playing formation on high-intensity running and technical profiles in English FA Premier League soccer matches , 2011, Journal of sports sciences.

[18]  Di Salvo Valter,et al.  Validation of Prozone ®: A new video-based performance analysis system , 2006 .

[19]  B Dawson,et al.  Physiological and anthropometric characteristics of starters and non-starters and playing positions in elite Australian Rules Football: a case study. , 2005, Journal of science and medicine in sport.

[20]  Paul S. Bradley,et al.  Evaluation of the Most Intense High-Intensity Running Period in English FA Premier League Soccer Matches , 2013, Journal of strength and conditioning research.

[21]  V. Di Salvo,et al.  Match Performance Comparison in Top English Soccer Leagues , 2012, International Journal of Sports Medicine.

[22]  Christopher Carling,et al.  Are declines in physical performance associated with a reduction in skill-related performance during professional soccer match-play? , 2011, Journal of sports sciences.

[23]  Peter Krustrup,et al.  The yo-yo intermittent recovery test: physiological response, reliability, and validity. , 2003, Medicine and science in sports and exercise.

[24]  P. Krustrup,et al.  Match performance of high-standard soccer players with special reference to development of fatigue , 2003, Journal of sports sciences.

[25]  Jack D. Ade,et al.  Match performance and physical capacity of players in the top three competitive standards of English professional soccer. , 2013, Human movement science.

[26]  Christopher Carling,et al.  Work-rate of substitutes in elite soccer: a preliminary study. , 2010, Journal of science and medicine in sport.

[27]  P. Bradley,et al.  High-Intensity Activity Profiles of Elite Soccer Players at Different Performance Levels , 2010, Journal of strength and conditioning research.

[28]  Paul S. Bradley,et al.  Sub-maximal and maximal Yo–Yo intermittent endurance test level 2: heart rate response, reproducibility and application to elite soccer , 2011, European Journal of Applied Physiology.

[29]  Peter Krustrup,et al.  Game-Induced Fatigue Patterns in Elite Female Soccer , 2010, Journal of strength and conditioning research.

[30]  T. Reilly,et al.  Muscle Fatigue during Football Match-Play , 2008, Sports medicine.

[31]  Christopher Carling,et al.  The effect of an early dismissal on player work-rate in a professional soccer match. , 2010, Journal of science and medicine in sport.

[32]  C. Carling,et al.  Analysis of physical activity profiles when running with the ball in a professional soccer team , 2010, Journal of sports sciences.

[33]  Barry Drust,et al.  Intensities of exercise during match-play in FA Premier League referees and players , 2011, Journal of sports sciences.

[34]  Paul S. Bradley,et al.  The reliability of ProZone MatchViewer: a video-based technical performance analysis system , 2007 .