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1. Accuracy of GNSS-Derived Acceleration Data for Dynamic Team Sport Movements: A Comparative Study of Smoothing Techniques.

Author

Ellens, Susanne, Carey, David L., Gastin, Paul B., and Varley, Matthew C.

Abstract

This study examined the impact of various smoothing techniques on acceleration data obtained from a Global Navigation Satellite System (GNSS) device during accelerating and decelerating movements, resembling those commonly observed in team sports. Eight participants performed six different accelerating and decelerating movements at different intensities and starting speeds for a total of 46 trials each. The movements were collected concurrently at 10 Hz using a GNSS device (Vector S7, Catapult Sports) at 100 Hz using a motion analysis system (Vicon). Acceleration data were smoothed using (I) a fourth-order Butterworth filter (cut-off frequencies ranging from raw to 4.9 Hz), (II) exponential smoothing (smoothing constant ranging from 0.1 to 0.9), and (III) moving average (sliding window ranging from 0.2 s to 2.0 s). To determine the ability of a GNSS to quantify acceleration, a variety of measurement indices of validity were obtained for each movement and each smoothing technique. The fourth-order Butterworth filter with a cut-off frequency of 2 Hz (mean bias 0.00 m·s−2, 95% LoA ± 1.55 m·s−2, RMSE 0.79 m·s−2) showed the strongest relationship with the Vicon data. These results indicate that this smoothing technique is more accurate than those currently used and accepted on GNSS devices in the sports science community. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Effect of Data-Processing Methods on Acceleration Summary Metrics of GNSS Devices in Elite Australian Football.

Author

Ellens, Susanne, Carey, David L., Gastin, Paul B., and Varley, Matthew C.

Subjects
ACCELERATION (Mechanics), AUSTRALIAN football, GLOBAL Positioning System, AUSTRALIAN football players, ELITE athletes
Abstract

This study aimed to measure the differences in commonly used summary acceleration metrics during elite Australian football games under three different data processing protocols (raw, custom-processed, manufacturer-processed). Estimates of distance, speed and acceleration were collected with a 10-Hz GNSS tracking technology device from fourteen matches of 38 elite Australian football players from one team. Raw and manufacturer-processed data were exported from respective proprietary software and two common summary acceleration metrics (number of efforts and distance within medium/high-intensity zone) were calculated for the three processing methods. To estimate the effect of the three different data processing methods on the summary metrics, linear mixed models were used. The main findings demonstrated that there were substantial differences between the three processing methods; the manufacturer-processed acceleration data had the lowest reported distance (up to 184 times lower) and efforts (up to 89 times lower), followed by the custom-processed distance (up to 3.3 times lower) and efforts (up to 4.3 times lower), where raw data had the highest reported distance and efforts. The results indicated that different processing methods changed the metric output and in turn alters the quantification of the demands of a sport (volume, intensity and frequency of the metrics). Coaches, practitioners and researchers need to understand that various processing methods alter the summary metrics of acceleration data. By being informed about how these metrics are affected by processing methods, they can better interpret the data available and effectively tailor their training programs to match the demands of competition. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Changing the criteria applied to acceleration and deceleration efforts changes the types of player actions detected.

Author

Ellens, Susanne, Carey, David, Gastin, Paul, and Varley, Matthew C.

Subjects
ACCELERATION (Mechanics), AUSTRALIAN football players, GLOBAL Positioning System
Abstract

This study identified and profiled the types of player actions of Australian football players executed during high acceleration and/or deceleration efforts and identified how the duration exceeding the acceleration or deceleration threshold influenced the identified executed player actions. The commencing speed of the acceleration and deceleration efforts were also assessed. Acceleration and deceleration efforts of 22 Australian football players monitored with a 10-Hz GNSS device across two matches were analysed. Synchronised video footage of the matches was used to identify the player actions executed during acceleration and deceleration efforts. Linear mixed models were conducted to examine the relationship between commencing speed, player action, and duration exceeding the effort threshold. 'Linear movement' and 'jump' were the most frequently executed player actions for high accelerations and 'stop' and 'being tackled' for high decelerations. Significant differences were observed in commencing speed between player actions for the high deceleration efforts. Furthermore, it was found that a higher commencing speed was associated with an increased duration exceeding the deceleration threshold. These findings will help practitioners and researchers with selecting minimum-duration criteria for acceleration and deceleration efforts and provide an understanding of the types of player actions executed during these efforts. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Methodological Considerations When Quantifying High-Intensity Efforts in Team Sport Using Global Positioning System Technology.

Author

Varley, Matthew C., Jaspers, Arne, Helsen, Werner F., and Malone, James J.

Subjects
GLOBAL Positioning System, SOCCER, META-analysis, RESEARCH methodology, EFFECT sizes (Statistics), ACCELEROMETRY, EXERCISE intensity, SPRINTING
Abstract

Purpose: Sprints and accelerations are popular performance indicators in applied sport. The methods used to define these efforts using athlete-tracking technology could affect the number of efforts reported. This study aimed to determine the influence of different techniques and settings for detecting high-intensity efforts using global positioning system (GPS) data. Methods: Velocity and acceleration data from a professional soccer match were recorded via 10-Hz GPS. Velocity data were filtered using either a median or an exponential filter. Acceleration data were derived from velocity data over a 0.2-s time interval (with and without an exponential filter applied) and a 0.3-second time interval. High-speed-running (≥4.17 m/s²), sprint (≥7.00 m/s²), and acceleration (≥2.78 m/s²) efforts were then identified using minimum-effort durations (0.1-0.9 s) to assess differences in the total number of efforts reported. Results: Different velocity-filtering methods resulted in small to moderate differences (effect size [ES] 0.28-1.09) in the number of high-speed-running and sprint efforts detected when minimum duration was <0.5 s and small to very large differences (ES -5.69 to 0.26) in the number of accelerations when minimum duration was <0.7 s. There was an exponential decline in the number of all efforts as minimum duration increased, regardless of filtering method, with the largest declines in acceleration efforts. Conclusions: Filtering techniques and minimum durations substantially affect the number of high-speed-running, sprint, and acceleration efforts detected with GPS. Changes to how high-intensity efforts are defined affect reported data. Therefore, consistency in data processing is advised. [ABSTRACT FROM AUTHOR]

Published
2017
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11. Monitoring Athlete Training Loads: Consensus Statement.

Author

Bourdon, Pitre C., Cardinale, Marco, Murray, Andrew, Gastin, Paul, Kellmann, Michael, Varley, Matthew C., Gabbett, Tim J., Coutts, Aaron J., Burgess, Darren J., Gregson, Warren, and Cable, N. Timothy

Subjects
SPORTS injury prevention, COACHES (Athletics), CONFERENCES & conventions, CONSENSUS (Social sciences), INDUSTRIAL psychology, SPORTS sciences, EMPLOYEES' workload, PHYSICAL training & conditioning
Abstract

Monitoring the load placed on athletes in both training and competition has become a very hot topic in sport science. Both scientists and coaches routinely monitor training loads using multidisciplinary approaches, and the pursuit of the best methodologies to capture and interpret data has produced an exponential increase in empirical and applied research. Indeed, the field has developed with such speed in recent years that it has given rise to industries aimed at developing new and novel paradigms to allow us to precisely quantify the internal and external loads placed on athletes and to help protect them from injury and ill health. In February 2016, a conference on "Monitoring Athlete Training Loads--The Hows and the Whys" was convened in Doha, Qatar, which brought together experts from around the world to share their applied research and contemporary practices in this rapidly growing field and also to investigate where it may branch to in the future. This consensus statement brings together the key findings and recommendations from this conference in a shared conceptual framework for use by coaches, sport-science and -medicine staff, and other related professionals who have an interest in monitoring athlete training loads and serves to provide an outline on what athlete-load monitoring is and how it is being applied in research and practice, why load monitoring is important and what the underlying rationale and prospective goals of monitoring are, and where athlete-load monitoring is heading in the future. [ABSTRACT FROM AUTHOR]

Published
2017
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12. Wearable Training-Monitoring Technology: Applications, Challenges, and Opportunities.

Author

Cardinale, Marco and Varley, Matthew C.

Subjects
PATIENT monitoring, EMPLOYEES' workload, WEARABLE technology, PHYSICAL training & conditioning
Abstract

The need to quantify aspects of training to improve training prescription has been the holy grail of sport scientists and coaches for many years. Recently, there has been an increase in scientific interest, possibly due to technological advancements and better equipment to quantify training activities. Over the last few years there has been an increase in the number of studies assessing training load in various athletic cohorts with a bias toward subjective reports and/or quantifications of external load. There is an evident lack of extensive longitudinal studies employing objective internal-load measurements, possibly due to the cost- effectiveness and invasiveness of measures necessary to quantify objective internal loads. Advances in technology might help in developing better wearable tools able to ease the difficulties and costs associated with conducting longitudinal observational studies in athletic cohorts and possibly provide better information on the biological implications of specific external-load patterns. Considering the recent technological developments for monitoring training load and the extensive use of various tools for research and applied work, the aim of this work was to review applications, challenges, and opportunities of various wearable technologies. [ABSTRACT FROM AUTHOR]

Published
2017
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13. Unpacking the Black Box: Applications and Considerations for Using GPS Devices in Sport.

Author

Malone, James J., Lovell, Ric, Varley, Matthew C., and Coutts, Aaron J.

Subjects
PUBLISHING, ATHLETIC ability, AUTHORSHIP, GLOBAL Positioning System, RESEARCH evaluation, SPORTS sciences, PHYSICAL training & conditioning, STANDARDS
Abstract

Athlete-tracking devices that include global positioning system (GPS) and microelectrical mechanical system (MEMS) components are now commonplace in sport research and practice. These devices provide large amounts of data that are used to inform decision making on athlete training and performance. However, the data obtained from these devices are often provided without clear explanation of how these metrics are obtained. At present, there is no clear consensus regarding how these data should be handled and reported in a sport context. Therefore, the aim of this review was to examine the factors that affect the data produced by these athlete-tracking devices and to provide guidelines for collecting, processing, and reporting of data. Many factors including device sampling rate, positioning and fitting of devices, satellite signal, and data-filtering methods can affect the measures obtained from GPS and MEMS devices. Therefore researchers are encouraged to report device brand/model, sampling frequency, number of satellites, horizontal dilution of precision, and software/firmware versions in any published research. In addition, details of inclusion/exclusion criteria for data obtained from these devices are also recommended. Considerations for the application of speed zones to evaluate the magnitude and distribution of different locomotor activities recorded by GPS are also presented, alongside recommendations for both industry practice and future research directions. Through a standard approach to data collection and procedure reporting, researchers and practitioners will be able to make more confident comparisons from their data, which will improve the understanding and impact these devices can have on athlete performance. [ABSTRACT FROM AUTHOR]

Published
2017
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18. A survey of talent identification and development processes in the youth academies of professional soccer clubs from around the world

Author

Ford, Paul R., primary, Bordonau, Juan Luis Delgado, additional, Bonanno, Daniele, additional, Tavares, José, additional, Groenendijk, Corne, additional, Fink, Cristina, additional, Gualtieri, Domenico, additional, Gregson, Warren, additional, Varley, Matthew C., additional, Weston, Matthew, additional, Lolli, Lorenzo, additional, Platt, David, additional, and Di Salvo, Valter, additional

Published
2020
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19. Interchangeability of player movement variables from different athlete tracking systems in professional soccer.

Author

Ellens, Susanne, Hodges, Daniel, McCullagh, Sean, Malone, James J., and Varley, Matthew C.

Subjects
SOCCER players, GLOBAL Positioning System, ATHLETE training, SPRINTING
Abstract

This study assessed the interchangeability between 10-Hz multi-GNSS GPS devices (Vector®) and two optical tracking systems (TRACAB® and Second Spectrum®). The agreement between data from the optical tracking systems when processed with manufacturer and GPS-filtered software was also assessed. Thirty players competing in the English Premier League were monitored using three different tracking systems across five matches. To determine the interchangeability between systems, player movement variables including, total distance, high-speed running distance (19.8–25.2 km·h−1), sprinting distance (>25.2 km·h−1), efforts >19.8 km·h−1 and maximal speed were compared. Equations were formed using linear regression and linear mixed-effects models to allow interchangeability of player movement variables between systems. Over half of the variance of most interchangeability equations were explained and associated with very strong positive correlations (r > 0.72). Small to huge differences were found between systems for most player movement variables. Data of optical tracking systems had decreased values in speed variables >19.8 km·h−1 when processed through GPS software. This study provides equations for practitioners to interchange player movement variables between TRACAB, Second Spectrum and Vector GPS systems with reduced error. This will enable practitioners to combine and share data captured with different tracking systems to analyse and improve their training. [ABSTRACT FROM AUTHOR]

Published
2022
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20. Activity Profile of International Rugby Sevens: Effect of Score Line, Opponent, and Substitutes.

Author

Murray, Andrew M. and Varley, Matthew C.

Subjects
PHYSIOLOGICAL effects of acceleration, ATHLETIC ability, CONFIDENCE intervals, EXERCISE physiology, GEOGRAPHIC information systems, POISSON distribution, RUGBY football, RUNNING, EFFECT sizes (Statistics), SPORTS events, BODY movement, ELITE athletes, RETROSPECTIVE studies, EXERCISE intensity, PHYSICAL activity, DATA analysis software, DESCRIPTIVE statistics
Abstract

Purpose: To investigate the influence of score line, level of opposition, and timing of substitutes on the activity profile of rugby sevens players and describe peak periods of activity. Methods: Velocity and distance data were measured via 10-Hz GPS from 17 international-level male rugby sevens players on 2-20 occasions over 4 tournaments (24 matches). Movement data were reported as total distance (TD), high-speed-running distance (HSR, 4.17-10.0 m/s), and the occurrence of maximal accelerations (Accel, ≥2.78 m/s²). A rolling 1-min sample period was used. Results: Regardless of score line or opponent ranking there was a moderate to large reduction in average and peak TD and HSR between match halves. A close halftime score line was associated with a greater HSR distance in the 1st minute of the 1st and 2nd halves compared with when winning. When playing against higher-compared with lower-ranked opposition, players covered moderately greater TD in the 1st minute of the 1st half (difference = 26%; 90% confidence limits = 6, 49). Compared with players who played a full match, substitutes who came on late in the 2nd half had a higher average HSR and Accel by a small magnitude (31%; 5, 65 vs 34%; 6, 69) and a higher average TD by a moderate magnitude (16%; 5, 28). Conclusions: Match score line, opposition, and substitute timing can influence the activity profile of rugby sevens players. Players are likely to perform more running against higher opponents and when the score line is close. This information may influence team selection. [ABSTRACT FROM AUTHOR]

Published
2015
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22. Lower Running Performance and Exacerbated Fatigue in Soccer Played at 1600 m.

Author

Garvican, Laura A., Hammond, Kristal, Varley, Matthew C., Gore, Christopher J., Billaut, Francois, and Aughey, Robert J.

Subjects
PHYSIOLOGICAL adaptation, ALTITUDES, ANTHROPOMETRY, ATHLETIC ability, CARDIOPULMONARY system, CLINICAL trials, CONFIDENCE intervals, CROSSOVER trials, EXERCISE physiology, EXERCISE tests, FATIGUE (Physiology), GEOGRAPHIC information systems, HEART rate monitoring, RESEARCH funding, RUNNING, SOCCER, TIME, EFFECT sizes (Statistics), ELITE athletes, DESCRIPTIVE statistics
Abstract

Purpose: This study investigated the decrement in running performance of elite soccer players competing at low altitude and time course for abatement of these decrements. Methods: Twenty elite youth soccer players had their activity profile, in a sea-level (SL) and 2 altitude (Alt, 1600 m, d 4, and d 6) matches, measured with a global positioning system. Measures expressed in meters per minute of match time were total distance, low- and high-velocity running (LoVR, 0.01-4.16 m/s; HiVR, 4.17-10.0 m/s), and frequency of maximal accelerations (>2.78 m/s2). The peak and subsequent stanza for each measure were identified and a transient fatigue index calculated. Mean heart rate (HR) during the final minute of a submaximal running task (5 min, 11 km/h) was recorded at SL and for 10 d at Alt. Differences were determined between SL and Alt using percentage change and effect-size (ES) statistic with 90% confidence intervals. Results: Mean HR almost certainly increased on d 1 (5.4%, ES 1.01 ± 0.35) and remained probably elevated on both d 2 (ES 0.42 ± 0.31) and d3 (ES 0.30 ± 0.25), returning to baseline at d 5. Total distance was almost certainly lower than SL (ES -0.76 ± 0.37) at d 4 and remained probably reduced on d 6 (ES -0.42 ± 0.36). HiVR probably decreased at d 4 vs SL (-0.47 ± 0.59), with no clear effect of altitude at d 6 (-0.08 ± 0.41). Transient fatigue in matches was evident at SL and Alt, with a possibly greater decrement at Alt. Conclusion: Despite some physiological adaptation, match running performance of youth soccer players is compromised for at least 6 d at low altitude. [ABSTRACT FROM AUTHOR]

Published
2014
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23. Role of competitors and motivational orientation on 5 km time trial performance and pacing strategy

Author

Polman, Remco, Hibbert, Andrew W., Billaut, Francois, Varley, Matthew C., Polman, Remco, Hibbert, Andrew W., Billaut, Francois, and Varley, Matthew C.

Abstract

INTRODUCTION: Surprisingly few studies have been conducted investigating the presence of other competitors or the potential moderating role of motivational orientation on pacing behaviour in athletes. Therefore the present study investigated how pacing and performance are influenced when exercising in the presence of one competitor or multiple competitors. In addition, it investigated the influence of goal orientation on the magnitude of performance change by manipulating the ability of competitors in a group setting. METHODS: In a randomized order, 24 participants performed a 5-km cycling TT individually (IND), with one similarly matched participant (1v1), and in a group of four participants (GRP). For the GRP session, two pairs of matched participants from the 1v1 session were used. Pairs were selected so that TT duration was considered either inferior (INF) or superior (SUP) compared to the other pair of participants. RESULTS: Overall, TT duration (P = 0.86, ?p2 < 0.01) was not different between conditions, whilst heart rate (HR) was significantly greater in GRP compared to IND (P < 0.01, ?p2 = 0.16). For INF, a large effect size for both mean power (P = 0.07, ?p2 = 0.15) and HR (P = 0.05, ?p2 = 0.16), indicates greatest effort in GRP. Pacing behaviour was affected by competition but similar in 1v1 and GRP for SUP, whilst large effect sizes indicate an increased power output in the initial 750-m for INF in GRP. Additionally, for INF, there was a significant correlation with ego orientation for an increase in TT duration between the GRP session and both the IND and 1v1 (r = 0.54, P = 0.01) sessions. CONCLUSION: The presence of a competitor is known to influence pacing and performance. However, this study found no significant difference in 5-km TT performance between 1v1 or GRP competition settings. Yet, large effects on power indicate that INF participants are motivated to match SUP competitors in the initial stages of GRP exercise that may lead to small improveme

Published
2018

24. External load differences between elite youth and professional football players: ready for take-off?

Author

Houtmeyers, Kobe C., Jaspers, Arne, Brink, Michel S., Vanrenterghem, Jos, Varley, Matthew C., and Helsen, Werner F.

Subjects
FOOTBALL players, BOREDOM, VELOCITY, FOOTBALL, ACQUISITION of data
Abstract

This study examines differences in weekly load between the first (FT) and the under 19 team (U19) within a professional football setting. Data were collected in 11 FT and 9 U19 players (2016-2017 season). FT data was divided into weeks with (FT-M1) or without (FT-M0) a mid-week match. Indicators were total distance (TD) and TD at 12-15, 15-20, 20-25 and >25 km‧h-1 and were analysed as external load (m), intensity (m‧min-1) and load monotony (a.u.). TD-based load was higher for U19 compared to FT-M0 (very likely moderate) and FT-M1 (likely large). Differences at higher velocities were substantially less (trivial to possibly small), with TD >25 km‧h-1 being lower than FT-M0 (very likely moderate) and FT-M1 (likely small). All intensity indicators were lower for U19 (likely small to almost certainly large). Load monotony was higher compared to FT-M1 (possibly small to almost certainly very large). Compared to FT-M0, monotony was higher for TD (possibly very large) and TD >25 km‧h‑1 (possibly moderate) but lower for TD 12-15 (possibly small) and 15-20 km‧h‑1 (likely moderate). So, despite higher weekly external loads at low velocity for elite youth players, external intensity and load variation increases when these players may transition to professional football. [ABSTRACT FROM AUTHOR]

Published
2021
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25. Effectiveness of Water Immersion on Postmatch Recovery in Elite Professional Footballers.

Author

Elias, George P., Wyckelsma, Victoria L., Varley, Matthew C., Mckenna, Michael J., and Aughey, Roberta J.

Subjects
COLD therapy, EXERCISE, ANTHROPOMETRY, ATHLETIC ability, CLINICAL trials, CONFIDENCE intervals, EXERCISE physiology, EXERCISE tests, FATIGUE (Physiology), FOOTBALL, GEOGRAPHIC information systems, JUMPING, MUSCLE strength testing, MYALGIA, PSYCHOMETRICS, RUNNING, STATISTICAL sampling, EFFECT sizes (Statistics), SPORTS events, PROFESSIONAL athletes, PAIN measurement, COOLDOWN, RANDOMIZED controlled trials, VISUAL analog scale, PRE-tests & post-tests, DESCRIPTIVE statistics
Abstract

Purpose: The efficacy of a single exposure to 14 min of contrast water therapy (CWT) or cold-water immersion (COLD) on recovery postmatch in elite professional footballers was investigated. Method: Twenty-four elite footballers participated in a match followed by 1 of 3 recovery interventions. Recovery was monitored for 48 h postmatch. Repeat-sprint ability (6 x 20-m), static and countermovement jump performance, perceived soreness, and fatigue were measured prematch and immediately, 24 h, and 48 h after the match. Soreness and fatigue were also measured 1 h postmatch. Postmatch, players were randomly assigned to complete passive recovery (PAS; n = 8), COLD (n = 8), or CWT (n = 8). Results: Immediately postmatch, all groups exhibited similar psychometric and performance decrements, which persisted for 48 h only in the PAS group. Repeat- sprinting performance remained slower at 24 and 48 h for PAS (3.9% and 2.0%) and CWT (1.6% and 0.9%) but was restored by COLD (0.2% and 0.0%). Soreness after 48 h was most effectively attenuated by COLD (ES 0.59 ± 0.10) but remained elevated for CWT (ES 2.39 ± 0.29) and PAS (ES 4.01 ± 0.97). Similarly, COLD more successfully reduced fatigue after 48 h (ES 1.02 ± 0.72) than did CWT (ES 1.22 ± 0.38) and PAS (ES 1.91 ± 0.67). Declines in static and countermovement jump were ameliorated best by COLD. Conclusions: An elite professional football match results in prolonged physical and psychometric deficits for 48 h. COLD was more successful at restoring physical performance and psychometric measures than CWT, with PAS being the poorest. [ABSTRACT FROM AUTHOR]

Published
2013
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28. Effects of Water Immersion on Posttraining Recovery in Australian Footballers.

Author

Elias, George P., Varley, Matthew C., Wyckelsma, Victoria L., McKenna, Michael J., Minahan, Clare L., and Aughey, Robert J.

Subjects
ATHLETIC ability, COLD (Temperature), COMPARATIVE studies, CONFIDENCE intervals, CROSSOVER trials, EXERCISE, FOOTBALL, HEAT, HYDROTHERAPY, MYALGIA, EFFECT sizes (Statistics), PROFESSIONAL athletes, COOLDOWN, PHYSICAL training & conditioning, RANDOMIZED controlled trials, VISUAL analog scale, MUSCLE fatigue
Abstract

Purpose: The authors investigated the efficacy of a single exposure to 14 min of cold-water immersion (COLD) and contrast water therapy (CWT) on posttraining recovery in Australian football (AF). Method: Fourteen AF players participated in 3 wk of standardized training. After week 1 training, all players completed a passive recovery (PAS). During week 2, COLD or CWT was randomly assigned. Players undertook the opposing intervention in week 3. Repeat-sprint ability (6 x 20 m), countermovement and squat jumps, perceived muscle soreness, and fatigue were measured pretraining and over 48 h posttraining. Results: Immediately posttraining, groups exhibited similar performance and psychometric declines. At 24 h, repeat-sprint time had deteriorated by 4.1% for PAS and 1.0% for CWT but was fully restored by COLD (0.0%). At 24 and 48 h, both COLD and CWT attenuated changes in mean muscle soreness, with COLD (0.6 ± 0.6 and 0.0 ± 0.4) more effective than CWT (1.9 ± 0.7 and 1.0 ± 0.7) and PAS having minimal effect (5.5 ± 0.6 and 4.0 ± 0.5). Similarly, after 24 and 48 h, COLD and CWT both effectively reduced changes in perceived fatigue, with COLD (0.6 ± 0.6 and 0.0 ± 0.6) being more successful than CWT (0.8 ± 0.6 and 0.7 ± 0.6) and PAS having the smallest effect (2.2 ± 0.8 and 2.4 ± 0.6). Conclusions: AF training can result in prolonged physical and psychometric deficits persisting for up to 48 h. For restoring physical-performance and psychometric measures, COLD was more effective than CWT, with PAS being the least effective. Based on these results the authors recommend that 14 min of COLD be used after AF training. [ABSTRACT FROM AUTHOR]

Published
2012
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36. The Occurrence of Repeated High Acceleration Ability (RHAA) in Elite Youth Football.

Author

Serpiello, Fabio R., Duthie, Grant M., Moran, Codey, Kovacevic, Damian, Selimi, Erch, and Varley, Matthew C.

Subjects
GLOBAL Positioning System, SOCCER, CONVALESCENCE, REGRESSION analysis, ATHLETIC ability, SPRINTING
Abstract

The aim of the present study was to investigate the occurrence of Repeated High-Acceleration Ability (RHAA) bouts in elite youth football games using 10-Hz GPS devices and two relative thresholds derived from players' actual maximal acceleration. Thirty-six outfield soccer players (age 14.9 ± 0.6 years) participated in the study. Players wore 10-Hz GPS units during 41 official games. High accelerations were defined as efforts commencing above a threshold corresponding to 70 % (T70 %) or 80 % (T80 %) of the average 5-m acceleration obtained during a 40-m sprint test; RHAA bouts were defined as ≥ 3 efforts with ≤ 45 s recovery between efforts. Results were analysed via generalised linear mixed model and magnitude-based inferential statistics. On average, 8.0 ± 4.6 and 5.1 ± 3.5 bouts were detected in an entire game using T70 % and T80 %, respectively. When all positions were analysed together, there was a verylikely small difference in the number of RHAA bouts between first and second half for T70 % and T80 %, respectively. RHAA bouts occur frequently in elite youth football, with small differences between halves and between playing positions within the first or second half in most variables assessed. [ABSTRACT FROM AUTHOR]

Published
2018
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37. The influence of successive matches on match-running performance during an under-23 international soccer tournament: The necessity of individual analysis.

Author

Varley, Matthew C., Di Salvo, Valter, Modonutti, Mattia, Gregson, Warren, and Mendez-Villanueva, Alberto

Subjects
*ATHLETIC ability, *SOCCER, *EFFECT sizes (Statistics), *ELITE athletes, *DATA analysis software, *DESCRIPTIVE statistics
Abstract

This study investigated the effects of successive matches on match-running in elite under-23 soccer players during an international tournament. Match-running data was collected using a semi-automated multi-camera tracking system during an international under-23 tournament from all participating outfield players. Players who played 100% of all group stage matches were included (3 matches separated by 72 h,n = 44). Differences in match-running performance between matches were identified using a generalised linear mixed model. There were no clear effects for total, walking, jogging, running, high-speed running and sprinting distance between matches 1 and 3 (effect size (ES); −0.32 to 0.05). Positional analysis found that sprint distance was largely maintained from matches 1 to 3 across all positions. Attackers had a moderate decrease in total, jogging and running distance between matches 1 and 3 (ES; −0.72 to −0.66). Classifying players as increasers or decreasers in match-running revealed that match-running changes are susceptible to individual differences. Sprint performance appears to be maintained over successive matches regardless of playing position. However, reductions in other match-running categories vary between positions. Changes in match-running over successive matches affect individuals differently; thus, players should be monitored on an individual basis. [ABSTRACT FROM PUBLISHER]

Published
2018
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40. Physical and technical performance of elite youth soccer players during international tournaments: influence of playing position and team success and opponent quality

Author

Varley, Matthew C., Gregson, Warren, McMillan, Kenneth, Bonanno, Daniele, Stafford, Kimberley, Modonutti, Mattia, and Di Salvo, Valter

Abstract

ABSTRACTThis study investigated the positional differences in physical performance of elite youth footballers in a tournament scenario and the influence of team success and opponent quality on team physical and technical performance. Match performance observations were collected using a semi-automated multi-camera tracking system across 2 elite under-17 international club tournaments from all players and teams (n = 1,457 individual cases). Teams were classified based on their final tournament ranking as top (1–4 ranking), middle (5–8 ranking) and bottom (9–12 ranking). Technical performance measures were expressed in absolute terms and relative to the time the team was in ball possession. Positional differences in physical performance and the influence of team success and opponent quality on team match performance were identified using a generalised linear mixed model. Positional differences were similar to that observed in elite senior players. Top ranking teams performed a greater number of absolute and relative shots and shots on target than bottom teams (effect size = 0.67–0.82). Top ranking teams performed a greater number of relative tackles than bottom and middle teams (ES; 0.44 –0.70). When playing against top ranking opponents the number of absolute shots and shots on target, shot conversion and passing accuracy were lowest compared with playing against middle and bottom opponents (ES; −0.86 to −0.31). In an elite youth tournament setting, opponent quality and team success can influence match performance. These contextual factors should be considered when analysing match performance and used to inform team tactics, selection and substitution strategies.

Published
2017
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41. Activity profiles of professional soccer, rugby league and Australian football match play.

Author

Varley, Matthew C., Gabbett, Tim, and Aughey, Robert J.

Subjects
*SOCCER, *GEOGRAPHIC information systems, *STATISTICS, *EFFECT sizes (Statistics), *ONE-way analysis of variance, *ACCELEROMETERS, *RUGBY football, *COMPARATIVE studies, *T-test (Statistics), *BODY movement, *ATHLETIC ability, *DATA analysis, *PROBABILITY theory
Abstract

We compared the match activity profiles of elite footballers from Australian football (AF), rugby league (RL) and soccer (SOC), using identical movement definitions. Ninety-four elite footballers from AF, RL or SOC clubs in Australia participated in this study. Movement data were collected using a 5-Hz global positioning system from matches during the 2008–2011 competitive seasons, including measures of velocity, distance, acceleration and bouts of repeat sprints (RS). Australian footballers covered the greatest relative running distances (129 ± 17 m.min−1) compared to RL (97 ± 16 m.min−1) and SOC (104 ± 10 m.min−1) (effect size [ES]; 1.0–2.8). The relative distance covered (4.92 ± 2.10 m.min−1vs. 5.42 ± 2.49 m.min−1; 0.74 ± 0.78 m.min−1vs. 0.97 ± 0.80 m.min−1) and the number of high-velocity running (0.4 ± 0.2 no.min−1vs. 0.4 ± 0.2 no.min−1) and sprint (0.06 ± 0.06 no.min−1vs. 0.08 ± 0.07 no.min−1) efforts between RL and SOC players were similar (ES; 0.1–0.3). Rugby league players undertook the highest relative number of accelerations (1.10 ± 0.56 no.min−1). RS bouts were uncommon for all codes. RL and SOC players perform less running than AF players, possibly due to limited open space as a consequence of field size and code specific rules. While training in football should be code specific, there may be some transference of conditioning drills across codes. [ABSTRACT FROM AUTHOR]

Published
2014
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42. The influence of situational and environmental factors on match-running in soccer: A systematic review

Author

Trewin, Joshua, Meylan, César, Varley, Matthew C., Cronin, John, Trewin, Joshua, Meylan, César, Varley, Matthew C., and Cronin, John

Abstract

Trewin, J., Meylan, C., Varley, M. C., & Cronin, J. (2017). The influence of situational and environmental factors on match-running in soccer: A systematic review. Science and Medicine in Football, 1(2), 183-194. https://doi.org/10.1080/24733938.2017.1329589

43. The match-to-match variation of match-running in elite female soccer

Author

Trewin, Joshua, Meylan, Cesar, Varley, Matthew C., Cronin, John, Trewin, Joshua, Meylan, Cesar, Varley, Matthew C., and Cronin, John

Abstract

Trewin, J., Meylan, C., Varley, M. C., & Cronin, J. (2018). The match-to-match variation of match-running in elite female soccer. Journal of science and medicine in sport, 21(2), 196-201. doi:here.

44. The effect of match-factors on the running performance of elite female soccer players

Author

Trewin, Joshua, Meylan, César, Varley, Matthew C, Cronin, John B., Ling, Daphne, Trewin, Joshua, Meylan, César, Varley, Matthew C, Cronin, John B., and Ling, Daphne

Abstract

Trewin, J., Meylan, C., Varley, M. C., Cronin, J., & Ling, D. (2018). The effect of match-factors on the running performance of elite female soccer players. Journal of strength and conditioning research. 32(7). 2002-2009 Available here

45. Acceleration and fatigue in soccer

Author

Varley, Matthew C

Subjects
1106 Human Movement and Sports Science, Institute of Sport, Exercise and Active Living (ISEAL), football, GPS, movement, running, sprinting, physical performance, team sports, athletes, sprints, exercises, repeat sprint, Australia
Abstract

This thesis investigated acceleration in soccer and the ability to improve acceleration capacity using supplementation and a training intervention both separately and in combination. Study one determined the validity and reliability of 5 and 10 Hz global positioning systems (GPS) for measuring instantaneous speed during the acceleration, deceleration and constant speed phase of straight-line running. The criterion measure used to assess GPS validity was instantaneous speed recorded using a tripod-mounted laser. Ten Hz GPS devices were 2-3 times more accurate than 5 Hz when compared to a criterion value for instantaneous speed during tasks completed at a range of speeds (coefficient of variation; 3.1 - 11.3%). Similarly, 10 Hz GPS were up to 6-fold more reliable for measuring instantaneous speed than 5 Hz units (coefficient of variation; 1.9 - 6%). Newer GPS may provide an acceptable tool for the measurement of constant speed, acceleration and deceleration during straight-line running and have sufficient sensitivity for detecting changes in performance in team sport. However, researchers must account for the inherent match-to-match variation reported using these devices.

Published
2013

46. Monitoring Athlete Training Loads: Consensus Statement

Author

Darren Burgess, Warren Gregson, Matthew C. Varley, N. Timothy Cable, Andrew Murray, Paul B. Gastin, Pitre C. Bourdon, Marco Cardinale, Tim J. Gabbett, Aaron J. Coutts, Michael Kellmann, Bourdon, Pitre C, Cardinale, Marco, Murray, Andrew, Gastin, Paul, Kellmann, Michael, Varley, Matthew C, Gabbett, Tim J, Coutts, Aaron J, Burgess, Darren J, Gregson, Warren, and Cable, N Timothy

Subjects
Consensus, Psychometrics, Operations research, injury prevention, Sports science, Decision Making, Physical Therapy, Sports Therapy and Rehabilitation, Athletic Performance, Sports Medicine, Field (computer science), workload, 03 medical and health sciences, 0302 clinical medicine, Multidisciplinary approach, Humans, prescribing performance, Medicine, Orthopedics and Sports Medicine, Applied research, Wearable technology, Monitoring, Physiologic, biology, business.industry, Athletes, Workload, 030229 sport sciences, Congresses as Topic, biology.organism_classification, Conceptual framework, Athletic Injuries, wearable technologies, Engineering ethics, business, Sport Sciences, 030217 neurology & neurosurgery, Physical Conditioning, Human
Abstract

© 2017 Human Kinetics, Inc. Monitoring the load placed on athletes in both training and competition has become a very hot topic in sport science. Both scientists and coaches routinely monitor training loads using multidisciplinary approaches, and the pursuit of the best methodologies to capture and interpret data has produced an exponential increase in empirical and applied research. Indeed, the field has developed with such speed in recent years that it has given rise to industries aimed at developing new and novel paradigms to allow us to precisely quantify the internal and external loads placed on athletes and to help protect them from injury and ill health. In February 2016, a conference on "Monitoring Athlete Training Loads-The Hows and the Whys" was convened in Doha, Qatar, which brought together experts from around the world to share their applied research and contemporary practices in this rapidly growing field and also to investigate where it may branch to in the future. This consensus statement brings together the key findings and recommendations from this conference in a shared conceptual framework for use by coaches, sport-science and-medicine staff, and other related professionals who have an interest in monitoring athlete training loads and serves to provide an outline on what athlete-load monitoring is and how it is being applied in research and practice, why load monitoring is important and what the underlying rationale and prospective goals of monitoring are, and where athlete-load monitoring is heading in the future.

Published
2017
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47. Soccer activity profile of altitude versus sea-level natives during acclimatisation to 3600 m (ISA3600)

Author

Martin Buchheit, Marlen Kley, Charli Sargent, Ben M Simpson, Rudy Soria, Walter Schmidt, Gregory D. Roach, Laura A. Garvican-Lewis, Matthew C. Varley, Christopher J Gore, Jesus C Jimenez Claros, Robert J. Aughey, Nadine Wachsmuth, Kristal Hammond, Pitre C. Bourdon, Aughey, Robert J, Hammond, Kristal, Varley, Matthew C, Schmidt, Walter F, Bourdon, Pitre C, Buchheit, Martin, Simpson, Ben, Garvican-Lewis, Laura A, Kley, Marlen, Soria, Rudy, Sargent, Charli, Roach, Gregory D, Jimenez Claros, Jesus C, Wachsmuth, Nadine, and Gore, Christopher J

Subjects
Male, football, Bolivia, Adolescent, High velocity, Acclimatization, Acceleration, Assessing Physiological Demands of Physical Activity, Physical Therapy, Sports Therapy and Rehabilitation, Athletic Performance, Running, Small magnitude, Altitude, Soccer, Humans, Orthopedics and Sports Medicine, Sea level, Mathematics, Activity profile, distance covered, Basketball/Football/Football Refereeing, Australia, General Medicine, Effects of high altitude on humans, soccer, Football soccer, Original Article, Physical geography, altitude
Abstract

Objectives We investigated the effect of high altitude on the match activity profile of elite youth high altitude and sea level residents. Methods Twenty Sea Level (Australian) and 19 Altitude-resident (Bolivian) soccer players played five games, two near sea level (430 m) and three in La Paz (3600 m). Match activity profile was quantified via global positioning system with the peak 5 min period for distance ((D5peak)) and high velocity running (>4.17 m/s, HIVR5peak); as well as the 5 min period immediately subsequent to the peak for both distance (D5sub) and high-velocity running (HIVR5sub) identified using a rolling 5 min epoch. The games at 3600 m were compared with the average of the two near sea-level games. Results The total distance per minute was reduced by a small magnitude in the first match at altitude in both teams, without any change in low-velocity running. There were variable changes in HiVR, D5peak and HiVR5peak from match to match for each team. There were within-team reductions in D5peak in each game at altitude compared with those at near sea level, and this reduction was greater by a small magnitude in Australians than Bolivians in game 4. The effect of altitude on HiVR5peak was moderately lower in Australians compared with Bolivians in game 3. There was no clear difference in the effect of altitude on maximal accelerations between teams. Conclusions High altitude reduces the distance covered by elite youth soccer players during matches. Neither 13 days of acclimatisation nor lifelong residence at high altitude protects against detrimental effects of altitude on match activity profile. Refereed/Peer-reviewed

Published
2013

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