Sportphysio 2019; 07(02): 59-66
DOI: 10.1055/a-0863-0077
Focus
Einführung
© Georg Thieme Verlag KG Stuttgart · New York

Verletzungen im deutschen professionellen Teamsport – Ableitungen für präventive Screenings

Hendrik Bloch
,
Christian Klein
,
Patrick Luig
Weitere Informationen

Publikationsverlauf

Publikationsdatum:
03. Mai 2019 (online)

Verletzungen sind ärgerlich, Verletzungen bremsen Karrieren und Verletzungen gefährden den sportlichen Erfolg – nicht nur einzelner Spieler, oft auch eines ganzen Teams. Es gibt daher viele Gründe, schon vor dem Wettkampf – besser noch vor der Saison – herauszufinden, wo die größten Gefahren lauern.

 
  • Literatur

  • 1 Hägglund M, Waldén M, Magnusson H. et al. Injuries affect team performance negatively in professional football: An 11-year follow-up of the UEFA Champions League injury study. Br J Sports Med 2013; 738-742
  • 2 Drew MK, Raysmith BP, Charlton PC. Injuries impair the chance of successful performance by sportspeople: A systematic review. Br J Sports Med 2017; 1209-1214
  • 3 Luig P, Bloch H, Burkhardt K. et al. VBG-Sportreport 2018 – Analyse des Unfallgeschehens in den zwei höchsten Ligen der Männer: Basketball, Eishockey, Fußball und Handball. Hamburg: VBG; 2018
  • 4 Riepenhof H, Lindenmeyer A, Bloch H. et al. Profifußball im europäischen Vergleich – Auswirkungen von Verletzungen. Sports Orthopaedics and Traumatology 2018; 132-140
  • 5 Luig P, Krutsch W, Nerlich M. et al. Increased injury rates after the restructure of Germany’s national second league of team handball. Knee Surg Sports Traumatol Arthrosc 2018; 1884-1891
  • 6 Krutsch W, Zeman F, Zellner J. et al. Increase in ACL and PCL injuries after implementation of a new professional football league. Knee Surg Sports Traumatol Arthrosc 2016; 2271-2279
  • 7 Windt J, Gabbett TJ. How do training and competition workloads relate to injury? The workload-injury aetiology model. Br J Sports Med 2016; 1-9
  • 8 Klein C, Bloch H, Luig P. Richtig testen, richtig trainieren. Sportphysio 2016; 159-166
  • 9 McCunn R, Fünten K, aus der, Fullagar HHK. et al. Reliability and association with injury of movement screens: A critical review. Sports Med 2016; 763-781
  • 10 Bahr R. Why screening tests to predict injury do not work – and probably never will…: A critical review. Br J Sports Med 2016; 776-780
  • 11 Braun J, Büsch D, Kromer A. et al. 2018. Manual zur einheitlichen Leistungsdiagnostik des DHB im Rahmen der FSL-Kooperation an den Olympiastützpunkten (4., aktual. Aufl.). Münster: Philippka;
  • 12 Deutscher Handballbund. 2018. Testmanual zur Leistungssportsichtung des DHB 2019. Dortmund/Leipzig: DHB/IAT;
  • 13 McCall A, Carling C, Nedelec M. et al. Risk factors, testing and preventative strategies for non-contact injuries in professional football: Current perceptions and practices of 44 teams from various premier leagues. Br J Sports Med 2014; 1352-1357
  • 14 Klein C, Henke T, Luig P. et al. Leaving injury prevention theoretical? Ask the coach! – A survey of 1012 football coaches in Germany. Ger J Exerc Sport Res 2018; 489-497
  • 15 Kiesel K, Plisky PJ, Voight ML. Can serious injury in professional football be predicted by a preseason functional movement screen?. N Am J Sports Phys Ther 2007; 2 (03) 147-158
  • 16 Doyscher R, Schütz E, Kraus K. Evidenz des Functional Movement Screen im Leistungssport – Ein strukturierter Review mit eigenen Daten. Sports Orthopaedics and Traumatology Sport-Orthopädie – Sport-Traumatologie 2016; 4-13
  • 17 Newton F, McCall A, Ryan D. et al. Functional Movement Screen (FMS™) score does not predict injury in English Premier League youth academy football players. Science and Medicine in Football 2017; 102-106
  • 18 Hainc Scheller C, Keller M, Kurz E. Risiko-Screening im Handballsport – Welche funktionellen Tests sind sinnvoll?. Sportverletz Sportschaden 2018; 187-195
  • 19 Slodownik R, Ogonowska-Slodownik A, Morgulec-Adamowicz N. Functional Movement Screen™ and history of injury in the assessment of potential risk of injury among team handball players. J Sports Med Phys Fitness 2018; 1281-1286
  • 20 Svensson K, Alricsson M, Olausson M. et al. Physical performance tests – a relationship of risk factors for muscle injuries in elite level male football players. J Exerc Rehabil 2018; 282-288
  • 21 Wright AA, Stern B, Hegedus EJ. et al. Potential limitations of the functional movement screen: A clinical commentary. Br J Sports Med 2016; 770-771
  • 22 Chalmers S, Fuller JT, Debenedictis TA. et al. Asymmetry during preseason functional movement screen testing is associated with injury during a junior Australian football season. J Sci Med Sport 2017; 653-657
  • 23 Chalmers S, Debenedictis TA, Zacharia A. et al. Asymmetry during functional movement screening and injury risk in junior football players: A replication study. Scand J Med Sci Sports 2018; 1281-1287
  • 24 Bakken A, Targett S, Bere T. et al. The functional movement test 9 + is a poor screening test for lower extremity injuries in professional male football players: A 2-year prospective cohort study. Br J Sports Med 2018; 1047-1053
  • 25 McCunn R, Fünten K, aus der, Whalan M. et al. Soccer Injury Movement Screen (SIMS) composite score is not associated with injury among semiprofessional soccer players. J Orthop Sports Phys Ther 2018; 630-636
  • 26 Plisky PJ, Rauh MJ, Kaminski TW. et al. Star Excursion Balance Test as a predictor of lower extremity injury in high school basketball players. J Orthop Sports Phys Ther 2006; 911-919
  • 27 Chimera NJ, Warren M. Use of clinical movement screening tests to predict injury in sport. World J Orthop 2016; 202-217
  • 28 Gabbe BJ, Finch CF, Wajswelner H. et al. Predictors of lower extremity injuries at the community level of Australian football. Clin J Sport Med 2004; 14 (02) 56-63
  • 29 Pontillo M, Spinelli BA, Sennett BJ. Prediction of in-season shoulder injury from preseason testing in division I collegiate football players. Sports Health 2014; 497-503
  • 30 Mosler AB, Agricola R, Weir A. et al. Which factors differentiate athletes with hip/groin pain from those without? A systematic review with meta-analysis. Br J Sports Med 2015; 810
  • 31 Khayambashi K, Ghoddosi N, Straub RK. et al. Hip muscle strength predicts noncontact anterior cruciate ligament Injury in male and female athletes: A prospective study. Am J Sports Med 2016; 355-361
  • 32 Gokeler A, Seil R. Kerkhoffs. et al. A novel approach to enhance ACL injury prevention programs. Journal of Experimental Orthopaedics 2018; 1-6
  • 33 Bakken A, Targett S, Bere T. et al. Health conditions detected in a comprehensive periodic health evaluation of 558 professional football players. Br J Sports Med 2016; 1142-1150
  • 34 Needleman I, Ashley P, Meehan L. et al. Poor oral health including active caries in 187 UK professional male football players: Clinical dental examination performed by dentists. Br J Sports Med 2016; 41-44
  • 35 Gay-Escoda C, Vieira-Duarte-Pereira D-M, Ardèvol J. et al. Study of the effect of oral health on physical condition of professional soccer players of the Football Club Barcelona. Med Oral Patol Oral Cir Bucal 2011; 16 (03) e436-9
  • 36 Solleveld H, Goedhart A, Vanden Bossche L. Associations between poor oral health and reinjuries in male elite soccer players: A cross-sectional self-report study. BMC Sports Sci Med Rehabil 2015; 11
  • 37 Schnell D. Wieviel Auge braucht der Sport?. Deutsches Ärzteblatt 1999; 925-928
  • 38 Jendrusch G, Oertzen-Hagemann V, Bußmann C. et al. Fehlsichtigkeit im Spitzensport: eine aktuelle Bestandsaufnahme. Die Kontaktlinse 2014; 4-11
  • 39 Ekstrand J, Lundqvist D, Davison M. et al. Communication quality between the medical team and the head coach/manager is associated with injury burden and player availability in elite football clubs. Br J Sports Med. 2018