Research Article
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Year 2021, Volume: 7 Issue: 4, 132 - 140, 31.12.2021
https://doi.org/10.31459/turkjkin.1031274

Abstract

References

  • Bompa, T. O., & Haff, G. G. (2009). Periodization. Theory and methodology of training. Campaign, IL: Human Kinetics.
  • Bradley, P. S., Sheldon, W., Wooster, B., Olsen, P., Boanas, P., & Krustrup, P. (2009). High-intensity running in English FA Premier League soccer matches. J Sports Sci, 27(2), 159-168.
  • Campa, F., Semprini, G., Júdice, P. B., Messina, G., & Toselli, S. (2019). Anthropometry, physical and movement features, and repeated-sprint ability in soccer players. Int J Sports Med, 40(02), 100-109.
  • Campa, F., Spiga, F., & Toselli, S. (2019). The effect of a 20-week corrective exercise program on functional movement patterns in youth elite male soccer players. J Sport Rehabil, 28(7), 746-751.
  • Carling, C. (2010). Analysis of physical activity profiles when running with the ball in a professional soccer team. J Sports Sci, 28(3), 319-326.
  • Carling, C., Dupont, G., & Le Gall, F. (2011). The effect of a cold environment on physical activity profiles in elite soccer match-play. Int J Sports Med, 32(07), 542-545.
  • Casamichana, D., Castellano, J., Calleja-gonzalez, J., San román, J., & Castagna, C. (2013). Relationship between indicators of training load in soccer players. J Strength Cond Res, 27(2), 369-374.
  • Chorba, R. S., Chorba, D. J., Bouillon, L. E., Overmyer, C. A., & Landis, J. A. (2010). Use of a functional movement screening tool to determine injury risk in female collegiate athletes. N Am J Sports Phys Ther, 5(2), 47.
  • Cook G., Burton L., Hoogenboom, B. J., & Voight, M. (2014). Functional movement screening: the use of fundamental movements as an assessment of function‐part1. Int J Sports Phys Ther, 9(3), 396.
  • Cook G., Burton L., Hoogenboom, B. J., & Voight, M. (2014). Functional movement screening: the use of fundamental movements as an assessment of function‐part 2. Int J Sports Phys Ther, 9(4), 549.
  • Cook, G. (2010). Movement: Functional movement systems: Screening, assessment. Corrective Strategies (1st ed.). Aptos, CA: On Target Publications, 73-106.
  • Cook, G., Burton, L., & Hoogenboom, B. (2006). Pre-participation screening: the use of fundamental movements as an assessment of function-part 1. N Am J Sports Phys Ther, 1(2), 62-72.
  • Cook, G., Burton, L., & Hoogenboom, B. (2006). Pre-participation screening: the use of fundamental movements as an assessment of function-part 2. N Am J Sports Phys Ther, 1(3), 132-139.
  • Coutts, A. J., & Duffield, R. (2010). Validity and reliability of GPS devices for measuring movement demands of team sports. J Sci Med Sport, 13(1), 133-135.
  • Cross, M. J., Williams, S., Trewartha, G., Kemp, S. P., & Stokes, K. A. (2016). The influence of in-season training loads on injury risk in professional rugby union. Int J Sports Physiol Perform, 11(3), 350-355.
  • Cummins, C., Orr, R., O’Connor, H., & West, C. (2013). Global positioning systems (GPS) and microtechnology sensors in team sports: a systematic review. Sports Med, 43(10), 1025-1042.
  • De Silva, V., Caine, M., Skinner, J., Dogan, S., Kondoz, A., Peter, T., ... & Smith, B. (2018). Player tracking data analytics as a tool for physical performance management in football: A case study from Chelsea Football Club Academy. Sports, 6(4), 130.
  • Ehrmann, F. E., Duncan, C. S., Sindhusake, D., Franzsen, W. N., & Greene, D. A. (2016). GPS and injury prevention in professional soccer. J Strength Cond Res, 30(2), 360-367.
  • Fuller, C. W., Ekstrand, J., Junge, A., Andersen, T. E., Bahr, R., Dvorak, J., ... & Meeuwisse, W. H. (2006). Consensus statement on injury definitions and data collection procedures in studies of football (soccer) injuries. Scand J Med & Sci Sports, 16(2), 83-92.
  • Gabbett, T. J., Jenkins, D. G., & Abernethy, B. (2012). Physical demands of professional rugby league training and competition using microtechnology. J Sci Med Sport, 15(1), 80-86.
  • Gréhaigne, J. F., Richard, J. F., & Griffin, L. L. (2012). Teaching and learning team sports and games. Routledge. Hrysomallis, C. (2011). Balance ability and athletic performance. Sports Med, 41(3), 221-232.
  • Kiesel, K., Plisky, P. J., & Voight, M. L. (2007). Can serious injury in professional football be predicted by a preseason functional movement screen?. N Am J Sports Phys Ther, 2(3), 147.
  • Koźlenia, D., Domaradzki, J., Trojanowska, I., & Czermak, P. (2020). Association between speed and agility abilities with movement patterns quality in team sports players. Med. Dello Sport, 73, 176-186.
  • Kraus, K., Schütz, E., Taylor, W. R., & Doyscher, R. (2014). Efficacy of the functional movement screen: a review. J Strength Cond Res, 28(12), 3571-3584.
  • Larsson, P. (2003). Global positioning system and sport-specific testing. Sports Med, 33(15), 1093-1101.
  • Lee, S., Kim, H., & Kim, J. (2019). The Functional Movement Screen total score and physical performance in elite male collegiate soccer players. J Exerc Rehabil, 15(5), 657.
  • Letafatkar, A., Hadadnezhad, M., Shojaedin, S., & Mohamadi, E. (2014). Relationship between functional movement screening score and history of injury. Int J Sports Phys Ther, 9(1), 21.
  • Marques, V. B., Medeiros, T. M., De Souza Stigger, F., Nakamura, F. Y., & Baroni, B. M. (2017). The Functional Movement Screen (FMS™) in elite young soccer players between 14 and 20 years: Composite score, individual-test scores and asymmetries. Int J Sports Phys Ther, 12(6), 977.
  • Mccall, A., Dupont, G., & Ekstrand, J. (2016). Injury prevention strategies, coach compliance and player adherence of 33 of the UEFA Elite Club Injury Study teams: a survey of teams’ head medical officers. Br J Sports Med, 50(12), 725-730.
  • Parchmann, C. J., & Mcbride, J. M. (2011). Relationship between functional movement screen and athletic performance. J Strength Cond Res, 25(12), 3378-3384.
  • Ravé, G., Granacher, U., Boullosa, D., Hackney, A. C., & Zouhal, H. (2020). How to Use Global Positioning Systems (GPS) Data to Monitor Training Load in the “Real World” of Elite Soccer. Front Physiol, 11, 944.
  • Reilly, T., Bangsbo, J., & Franks, A. (2000). Anthropometric and physiological predispositions for elite soccer. J Sports Sci, 18(9), 669-683.
  • Rossi, A., Pappalardo, L., Cintia, P., Iaia, F. M., Fernández, J., & Medina, D. (2018). Effective injury forecasting in soccer with GPS training data and machine learning. PLoS One, 13(7), e0201264.
  • Sannicandro, I., Cofano, G., Rosa, A. R., Traficante, P., & Piccinno, A. (2017). Functional movement screen and lower limb strength asymmetry in professional soccer players. Br J Sports Med, 51(4), 381-382.
  • Silva, B., Clemente, F. M., & Martins, F. M. (2017). Associations between functional movement screen scores and performance variables in surf athletes. J Sports Med Phys Fitness, 58(5), 583-590.
  • Scott, M. T., Scott, T. J., & Kelly, V. G. (2016). The validity and reliability of global positioning systems in team sport: a brief review. J Strength Cond Res, 30(5), 1470-1490.
  • Smith, P. D., & Hanlon, M. P. (2017). Assessing the effectiveness of the functional movement screen in predicting noncontact injury rates in soccer players. J Strength Cond Res, 31(12), 3327-3332.
  • Stevens, T. G., De Ruiter, C. J., Twisk, J. W., Savelsbergh, G. J., & Beek, P. J. (2017). Quantification of in-season training load relative to match load in professional Dutch Eredivisie football players. Sci Med Footb, 1(2), 117-125.
  • Vanrenterghem, J., Nedergaard, N. J., Robinson, M. A., & Drust, B. (2017). Training load monitoring in team sports: a novel framework separating physiological and biomechanical load-adaptation pathways. Sports Med, 47(11), 2135-2142.
  • Wehbe, G. M., Hartwig, T. B., & Duncan, C. S. (2014). Movement analysis of Australian national league soccer players using global positioning system technology. J Strength Cond Res, 28(3), 834-842.
  • Wisbey, B., Montgomery, P. G., Pyne, D. B., & Rattray, B. (2010). Quantifying movement demands of AFL football using GPS tracking. J Sci Med Sport, 13(5). doi: 10.1016/j.jsams.2009.09.002.

Relationship between functional movement screen scores and global positioning parameters associated with musculoskeletal injuries in soccer player

Year 2021, Volume: 7 Issue: 4, 132 - 140, 31.12.2021
https://doi.org/10.31459/turkjkin.1031274

Abstract

The aim of this study was to investigate relationship Functional Movement Screening (FMS) scores and the Global Positioning Systems (GPS) data associated with musculoskeletal injuries soccer injuries in professional soccer players. The study included 19 soccer players with a mean age of 21.53 ± 1.98 years, a mean height of 180.58 ± 6.09cm, and a mean bodyweight of 73.08 ± 5.29 kg. The functional movement screening test battery was applied, and then GPS data associated with musculoskeletal injuries were recorded for each player during training sessions over a 6-week period. The recorded GPS data were mean total distance 5473.72 ± 344.49 m, mean distance per minute 69.11 ± 6.59 m, high-intensity running distance (14-20 km / h-1) 150.47 ± 46.92 m, very high intensity running distance (˃20 km / h-1) 34.94 ± 16.96 m, and body load of 108.43 ± 15.87. The GPS data of the participants with the FMS composite score above the cutoff point score and those below the cutoff point score were similar (0.05

References

  • Bompa, T. O., & Haff, G. G. (2009). Periodization. Theory and methodology of training. Campaign, IL: Human Kinetics.
  • Bradley, P. S., Sheldon, W., Wooster, B., Olsen, P., Boanas, P., & Krustrup, P. (2009). High-intensity running in English FA Premier League soccer matches. J Sports Sci, 27(2), 159-168.
  • Campa, F., Semprini, G., Júdice, P. B., Messina, G., & Toselli, S. (2019). Anthropometry, physical and movement features, and repeated-sprint ability in soccer players. Int J Sports Med, 40(02), 100-109.
  • Campa, F., Spiga, F., & Toselli, S. (2019). The effect of a 20-week corrective exercise program on functional movement patterns in youth elite male soccer players. J Sport Rehabil, 28(7), 746-751.
  • Carling, C. (2010). Analysis of physical activity profiles when running with the ball in a professional soccer team. J Sports Sci, 28(3), 319-326.
  • Carling, C., Dupont, G., & Le Gall, F. (2011). The effect of a cold environment on physical activity profiles in elite soccer match-play. Int J Sports Med, 32(07), 542-545.
  • Casamichana, D., Castellano, J., Calleja-gonzalez, J., San román, J., & Castagna, C. (2013). Relationship between indicators of training load in soccer players. J Strength Cond Res, 27(2), 369-374.
  • Chorba, R. S., Chorba, D. J., Bouillon, L. E., Overmyer, C. A., & Landis, J. A. (2010). Use of a functional movement screening tool to determine injury risk in female collegiate athletes. N Am J Sports Phys Ther, 5(2), 47.
  • Cook G., Burton L., Hoogenboom, B. J., & Voight, M. (2014). Functional movement screening: the use of fundamental movements as an assessment of function‐part1. Int J Sports Phys Ther, 9(3), 396.
  • Cook G., Burton L., Hoogenboom, B. J., & Voight, M. (2014). Functional movement screening: the use of fundamental movements as an assessment of function‐part 2. Int J Sports Phys Ther, 9(4), 549.
  • Cook, G. (2010). Movement: Functional movement systems: Screening, assessment. Corrective Strategies (1st ed.). Aptos, CA: On Target Publications, 73-106.
  • Cook, G., Burton, L., & Hoogenboom, B. (2006). Pre-participation screening: the use of fundamental movements as an assessment of function-part 1. N Am J Sports Phys Ther, 1(2), 62-72.
  • Cook, G., Burton, L., & Hoogenboom, B. (2006). Pre-participation screening: the use of fundamental movements as an assessment of function-part 2. N Am J Sports Phys Ther, 1(3), 132-139.
  • Coutts, A. J., & Duffield, R. (2010). Validity and reliability of GPS devices for measuring movement demands of team sports. J Sci Med Sport, 13(1), 133-135.
  • Cross, M. J., Williams, S., Trewartha, G., Kemp, S. P., & Stokes, K. A. (2016). The influence of in-season training loads on injury risk in professional rugby union. Int J Sports Physiol Perform, 11(3), 350-355.
  • Cummins, C., Orr, R., O’Connor, H., & West, C. (2013). Global positioning systems (GPS) and microtechnology sensors in team sports: a systematic review. Sports Med, 43(10), 1025-1042.
  • De Silva, V., Caine, M., Skinner, J., Dogan, S., Kondoz, A., Peter, T., ... & Smith, B. (2018). Player tracking data analytics as a tool for physical performance management in football: A case study from Chelsea Football Club Academy. Sports, 6(4), 130.
  • Ehrmann, F. E., Duncan, C. S., Sindhusake, D., Franzsen, W. N., & Greene, D. A. (2016). GPS and injury prevention in professional soccer. J Strength Cond Res, 30(2), 360-367.
  • Fuller, C. W., Ekstrand, J., Junge, A., Andersen, T. E., Bahr, R., Dvorak, J., ... & Meeuwisse, W. H. (2006). Consensus statement on injury definitions and data collection procedures in studies of football (soccer) injuries. Scand J Med & Sci Sports, 16(2), 83-92.
  • Gabbett, T. J., Jenkins, D. G., & Abernethy, B. (2012). Physical demands of professional rugby league training and competition using microtechnology. J Sci Med Sport, 15(1), 80-86.
  • Gréhaigne, J. F., Richard, J. F., & Griffin, L. L. (2012). Teaching and learning team sports and games. Routledge. Hrysomallis, C. (2011). Balance ability and athletic performance. Sports Med, 41(3), 221-232.
  • Kiesel, K., Plisky, P. J., & Voight, M. L. (2007). Can serious injury in professional football be predicted by a preseason functional movement screen?. N Am J Sports Phys Ther, 2(3), 147.
  • Koźlenia, D., Domaradzki, J., Trojanowska, I., & Czermak, P. (2020). Association between speed and agility abilities with movement patterns quality in team sports players. Med. Dello Sport, 73, 176-186.
  • Kraus, K., Schütz, E., Taylor, W. R., & Doyscher, R. (2014). Efficacy of the functional movement screen: a review. J Strength Cond Res, 28(12), 3571-3584.
  • Larsson, P. (2003). Global positioning system and sport-specific testing. Sports Med, 33(15), 1093-1101.
  • Lee, S., Kim, H., & Kim, J. (2019). The Functional Movement Screen total score and physical performance in elite male collegiate soccer players. J Exerc Rehabil, 15(5), 657.
  • Letafatkar, A., Hadadnezhad, M., Shojaedin, S., & Mohamadi, E. (2014). Relationship between functional movement screening score and history of injury. Int J Sports Phys Ther, 9(1), 21.
  • Marques, V. B., Medeiros, T. M., De Souza Stigger, F., Nakamura, F. Y., & Baroni, B. M. (2017). The Functional Movement Screen (FMS™) in elite young soccer players between 14 and 20 years: Composite score, individual-test scores and asymmetries. Int J Sports Phys Ther, 12(6), 977.
  • Mccall, A., Dupont, G., & Ekstrand, J. (2016). Injury prevention strategies, coach compliance and player adherence of 33 of the UEFA Elite Club Injury Study teams: a survey of teams’ head medical officers. Br J Sports Med, 50(12), 725-730.
  • Parchmann, C. J., & Mcbride, J. M. (2011). Relationship between functional movement screen and athletic performance. J Strength Cond Res, 25(12), 3378-3384.
  • Ravé, G., Granacher, U., Boullosa, D., Hackney, A. C., & Zouhal, H. (2020). How to Use Global Positioning Systems (GPS) Data to Monitor Training Load in the “Real World” of Elite Soccer. Front Physiol, 11, 944.
  • Reilly, T., Bangsbo, J., & Franks, A. (2000). Anthropometric and physiological predispositions for elite soccer. J Sports Sci, 18(9), 669-683.
  • Rossi, A., Pappalardo, L., Cintia, P., Iaia, F. M., Fernández, J., & Medina, D. (2018). Effective injury forecasting in soccer with GPS training data and machine learning. PLoS One, 13(7), e0201264.
  • Sannicandro, I., Cofano, G., Rosa, A. R., Traficante, P., & Piccinno, A. (2017). Functional movement screen and lower limb strength asymmetry in professional soccer players. Br J Sports Med, 51(4), 381-382.
  • Silva, B., Clemente, F. M., & Martins, F. M. (2017). Associations between functional movement screen scores and performance variables in surf athletes. J Sports Med Phys Fitness, 58(5), 583-590.
  • Scott, M. T., Scott, T. J., & Kelly, V. G. (2016). The validity and reliability of global positioning systems in team sport: a brief review. J Strength Cond Res, 30(5), 1470-1490.
  • Smith, P. D., & Hanlon, M. P. (2017). Assessing the effectiveness of the functional movement screen in predicting noncontact injury rates in soccer players. J Strength Cond Res, 31(12), 3327-3332.
  • Stevens, T. G., De Ruiter, C. J., Twisk, J. W., Savelsbergh, G. J., & Beek, P. J. (2017). Quantification of in-season training load relative to match load in professional Dutch Eredivisie football players. Sci Med Footb, 1(2), 117-125.
  • Vanrenterghem, J., Nedergaard, N. J., Robinson, M. A., & Drust, B. (2017). Training load monitoring in team sports: a novel framework separating physiological and biomechanical load-adaptation pathways. Sports Med, 47(11), 2135-2142.
  • Wehbe, G. M., Hartwig, T. B., & Duncan, C. S. (2014). Movement analysis of Australian national league soccer players using global positioning system technology. J Strength Cond Res, 28(3), 834-842.
  • Wisbey, B., Montgomery, P. G., Pyne, D. B., & Rattray, B. (2010). Quantifying movement demands of AFL football using GPS tracking. J Sci Med Sport, 13(5). doi: 10.1016/j.jsams.2009.09.002.
There are 41 citations in total.

Details

Primary Language English
Subjects Rehabilitation
Journal Section Original Research Articles
Authors

Serdar Arslan 0000-0002-5070-2524

Engin Dinç 0000-0002-6477-5134

Publication Date December 31, 2021
Submission Date December 1, 2021
Acceptance Date December 30, 2021
Published in Issue Year 2021 Volume: 7 Issue: 4

Cite

APA Arslan, S., & Dinç, E. (2021). Relationship between functional movement screen scores and global positioning parameters associated with musculoskeletal injuries in soccer player. Turkish Journal of Kinesiology, 7(4), 132-140. https://doi.org/10.31459/turkjkin.1031274

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