The effect of fatigue on jump height and the risk of knee injury after a volleyball training game: A pilot study

1. Ardern C.L., Taylor N.F., Feller J.A. Webster K.E. (2014) Fifty-five per cent return to competitive sport following anterior cruciate ligament reconstruction surgery: An updated systematic review and meta-analysis including aspects of physical functioning and contextual factors. Br. J. Sports Med., 48: 1543–1552. DOI: 10.1136/bjsports-2013-093398.10.1136/bjsports-2013-09339825157180 Search in Google Scholar

2. Baugh C.M., Weintraub G.S., Gregory A.J., Djoko A., Dompier T.P. Kerr Z.Y. (2018) Descriptive Epidemiology of Injuries Sustained in National Collegiate Athletic Association Men’s and Women’s Volleyball, 2013–2014 to 2014–2015. Sports Health, 10: 60–69. DOI: 10.1177/1941738117733685.10.1177/1941738117733685575396728985702 Search in Google Scholar

3. Benjaminse A., Habu A., Sell T.C., Abt J.P., Fu F.H., Myers J.B., Lephart S.M. (2008) Fatigue alters lower extremity kinematics during a single-leg stop-jump task. Knee Surgery, Sport Traumatol. Arthrosc., 16: 400–407. DOI: 10.1007/s00167-007-0432-7.10.1007/s00167-007-0432-718026933 Search in Google Scholar

4. Benjaminse A., Webster K.E., Kimp A., Meijer M., Gokeler A. (2019) Revised Approach to the Role of Fatigue in Anterior Cruciate Ligament Injury Prevention: A Systematic Review with Meta-Analyses. Sport Med., 49: 565–586. DOI: 10.1007/s40279-019-01052-6.10.1007/s40279-019-01052-6642296030659497 Search in Google Scholar

5. Beynnon B.D., Johnson R.J., Abate J.A., Fleming B.C. Nichols C.E. (2005) Treatment of anterior cruciate ligament injuries, part I. Am. J. Sports Med., 33: 1579–1602. DOI: 10.1177/0363546505279913.10.1177/036354650527991316199611 Search in Google Scholar

6. Boden, B.P., Dean, C.S., Feagin, J.A. and Garrett, W.E. (2000) Mechanisms of anterior cruciate ligament injury. Orthopedics, 23: 573–578. DOI: 10.3928/0147-7447-20000601-15.10.3928/0147-7447-20000601-1510875418 Search in Google Scholar

7. Boden B.P., Griffin L.Y., Garrett W.E. (2000) Etiology and prevention of noncontact ACL injury. Phys. Sports-med, 28: 53–60. DOI: 10.3810/psm.2000.04.841.10.3810/psm.2000.04.84120086634 Search in Google Scholar

8. Borg G. (1970) Perceived exertion as an indicator of somatic stress. Scand. J. Rehabil. Med., 2: 92–98.10.1037/t58166-000 Search in Google Scholar

9. Borotikar B.S., Newcomer R., Koppes R., McLean S.G. (2008) Combined effects of fatigue and decision making on female lower limb landing postures: Central and peripheral contributions to ACL injury risk. Clin. Biomech., 23: 81–92. DOI: 10.1016/j.clinbiomech.2007.08.008.10.1016/j.clinbiomech.2007.08.00817889972 Search in Google Scholar

10. Borràs X., Balius X., Drobnic F., Galilea P. (2011) Vertical Jump Assessment on Volleyball: A Follow-Up of Three Seasons of a High-Level Volleyball Team. J. Strength Cond. Res., 25: 1686-1694.10.1519/JSC.0b013e3181db9f2e Search in Google Scholar

11. Bosco C., Luhtanen P., Komi P.V. (1983) A simple method for measurement of mechanical power in jumping. Eur. J. Appl. Physiol. Occup. Physiol., 50: 273–282. DOI: 10.1007/BF00422166.10.1007/BF004221666681758 Search in Google Scholar

12. Bourne M.N., Webster K.E., Hewett T.E. (2019) Is Fatigue a Risk Factor for Anterior Cruciate Ligament Rupture? Sport Med., 49: 1629–1635. DOI: 10.1007/s40279-019-01134-5.10.1007/s40279-019-01134-531183767 Search in Google Scholar

13. Brazen D.M., Todd M.K., Ambegaonkar J.P., Wunderlich R., Peterson C. (2010) The effect of fatigue on landing biomechanics in single-leg drop landings. Clin. J. Sport Med., 20: 286–292. DOI: 10.1097/JSM.0b013e3181e8f7dc.10.1097/JSM.0b013e3181e8f7dc20606514 Search in Google Scholar

14. Chappell J.D., Herman D.C., Knight B.S., Kirkendall D.T., Garrett W.E., Yu, B. (2005) Effect of fatigue on knee kinetics and kinematics in stop-jump tasks. Am. J. Sports Med., 33: 1022–1029. DOI: 10.1177/0363546504273047.10.1177/036354650427304715983125 Search in Google Scholar

15. Chimera N.J., Warren M. (2016) Use of clinical movement screening tests to predict injury in sport. World J. Orthop., 7: 202–217. DOI: 10.5312/wjo.v7.i4.202.10.5312/wjo.v7.i4.202483222227114928 Search in Google Scholar

16. Cortes N., Quammen D., Lucci S., Greska E., Onate J. (2012) A functional agility short-term fatigue protocol changes lower extremity mechanics. J. Sports Sci., 30: 797–805. DOI: 10.1080/02640414.2012.671528.10.1080/02640414.2012.671528332388522424559 Search in Google Scholar

17. Eston R. (2012) Use of Ratings of Perceived Exertion in Sports. Int. J. Sports Physiol. Perform., Human Kinetics, Inc., Champaign IL, USA. 7.10.1123/ijspp.7.2.17522634967 Search in Google Scholar

18. Gabbett T.J. (2000) Incidence, site, and nature of injuries in amateur rugby league over three consecutive seasons. Br. J. Sports Med., 34: 98–103. DOI: 10.1136/bjsm.34.2.98.10.1136/bjsm.34.2.98172419410786864 Search in Google Scholar

19. Harkins K.M., Mattacola C.G., Uhl T.L., Malone T.R., McCrory J.L. (2005) Effects of 2 ankle fatigue models on the duration of postural stability dysfunction. J. Athl. Train, 40: 191–194. Search in Google Scholar

20. Hewett T.E., Ford K.R., Hoogenboom B.J., Myer G.D. (2010) Understanding and preventing acl injuries: current biomechanical and epidemiologic considerations – update 2010. N. Am. J. Sports Phys. Ther., 5: 234–251. Search in Google Scholar

21. Hewett T.E., Torg J.S., Boden B.P. (2009) Video analysis of trunk and knee motion during non-contact anterior cruciate ligament injury in female athletes: Lateral trunk and knee abduction motion are combined components of the injury mechanism. Br. J. Sports Med., 43: 417–422. DOI: 10.1136/bjsm.2009.059162.10.1136/bjsm.2009.059162406229519372088 Search in Google Scholar

22. James C.R., Scheuermann B.W., Smith M.P. (2010) Effects of two neuromuscular fatigue protocols on landing performance. J. Electromyogr. Kinesiol., 20: 667–675. DOI: 10.1016/j.jelekin.2009.10.007.10.1016/j.jelekin.2009.10.00720006522 Search in Google Scholar

23. James L.P., Kelly V.G., Beckman E.M. (2014) Injury risk management plan for volleyball athletes. Sports Med., 44: 1185–1195. DOI: 10.1007/s40279-014-0203-9.10.1007/s40279-014-0203-924849543 Search in Google Scholar

24. Joseph A.M., Collins C.L., Henke N.M., Yard E.E., Fields S.K., Comstock R.D. (2013) A Multisport Epidemiologic Comparison of Anterior Cruciate Ligament Injuries in High School Athletics. J. Athl. Train., 48: 810–817. DOI: 10.4085/1062-6050-48.6.03.10.4085/1062-6050-48.6.03386709324143905 Search in Google Scholar

25. Kellis E., Kouvelioti V. (2009) Agonist versus antagonist muscle fatigue effects on thigh muscle activity and vertical ground reaction during drop landing. J. Electromyogr. Kinesiol., 19: 55–64. DOI: 10.1016/j.jelekin.2007.08.002.10.1016/j.jelekin.2007.08.00217888681 Search in Google Scholar

26. Kim H., Son S., Seeley M.K., Hopkins J.T. (2015) Functional fatigue alters lower-extremity neuromechanics during a forward-side jump. Int. J. Sports Med., 36: 1192–1200. DOI: 10.1055/s-0035-1550050.10.1055/s-0035-155005026422053 Search in Google Scholar

27. Krosshaug T., Nakamae A., Boden B.P., Engebretsen L., Smith G., Slauterbeck J.R. et al. (2007) Mechanisms of anterior cruciate ligament injury in basketball: Video analysis of 39 cases. Am. J. Sports Med., 35: 359–367. DOI: 10.1177/0363546506293899.10.1177/036354650629389917092928 Search in Google Scholar

28. Majewski M., Susanne H., Klaus S. (2006) Epidemiology of athletic knee injuries: A 10-year study. Knee, 13: 184–188. DOI: 10.1016/j.knee.2006.01.005.10.1016/j.knee.2006.01.00516603363 Search in Google Scholar

29. Markovic G., Dizdar D., Jukic I., Cardinale M. (2004) Reliability and Factorial Validity of Squat and Countermovement Jump Tests. J. Strength Cond. Res., 18: 551-555.10.1519/00124278-200408000-00028 Search in Google Scholar

30. McLean S.G., Felin R.E., Suedekum N., Calabrese G., Passerallo A., Joy S. (2007) Impact of fatigue on gender-based high-risk landing strategies. Med. Sci. Sports Exerc., 39: 502–514. DOI: 10.1249/mss.0b013e3180d47f0.10.1249/mss.0b013e3180d47f017473777 Search in Google Scholar

31. O’Connor K.M., Johnson C., Benson L.C. (2015) The effect of isolated hamstrings fatigue on landing and cutting mechanics. J. Appl. Biomech., 31: 211–220. DOI: 10.1123/jab.2014-0098.10.1123/jab.2014-009825781073 Search in Google Scholar

32. Olsen O.E., Myklebust G., Engebretsen L., Bahr R. (2004) Injury mechanisms for anterior cruciate ligament injuries in team handball: A systematic video analysis. Am. J. Sports Med., 32: 1002–1012. DOI: 10.1177/0363546503261724.10.1177/036354650326172415150050 Search in Google Scholar

33. Onate J., Cortes N., Welch C., Van Lunen B. (2010) Expert versus novice interrater reliability and criterion validity of the landing error scoring system. J. Sport Rehabil., 19: 41–56. DOI: 10.1123/jsr.19.1.41.10.1123/jsr.19.1.41510200320231744 Search in Google Scholar

34. Padua D.A., Arnold B.L., Perrin D.H., Gansneder B.M., Carcia C.R., Granata K.P. (2006) Fatigue, vertical leg stiffness, and stiffness control strategies in males and females. J. Athl. Train, 41: 294–304. Search in Google Scholar

35. Padua D.A., DiStefano L.J., Beutler A.I., De La Motte S.J., DiStefano M.J., Marshall S.W. (2015) The landing error scoring system as a screening tool for an anterior cruciate ligament injury-prevention program in elite-youth soccer athletes. J. Athl. Train, 50: 589–595. DOI: 10.4085/1062-6050-50.1.10.10.4085/1062-6050-50.1.10452744225811846 Search in Google Scholar

36. Padua D.A., Marshall S.W., Boling M.C., Thigpen C.A., Garrett W.E., Beutler A.I. (2009) The Landing Error Scoring System (LESS) is a valid and reliable clinical assessment tool of jump-landing biomechanics: The jump-ACL Study. Am. J. Sports Med., 37: 1996–2002. DOI: 10.1177/0363546509343200.10.1177/036354650934320019726623 Search in Google Scholar

37. Paillard T. (2012) Effects of general and local fatigue on postural control: A review. Neurosci. Biobehav. Rev. p. 162–176. DOI: 10.1016/j.neubiorev.2011.05.009.10.1016/j.neubiorev.2011.05.00921645543 Search in Google Scholar

38. Pappas E., Sheikhzadeh A., Hagins M., Nordin M. (2007) The effect of gender and fatigue on the biomechanics of bilateral landings from a jump: Peak values. J. Sport Sci. Med., 6: 77–84. Search in Google Scholar

39. Patrek M.F., Kernozek T.W., Willson J.D., Wright G.A., Doberstein S.T. (2011) Hip-abductor fatigue and single-leg landing mechanics in women athletes. J. Athl. Train, 46: 31–42. DOI: 10.4085/1062-6050-46.1.31.10.4085/1062-6050-46.1.31301748621214348 Search in Google Scholar

40. Quammen D., Cortes N., Van Lunen B.L., Lucci S., Ringleb S.I., Onate J. (2012) Two different fatigue protocols and lower extremity motion patterns during a stop-jump task. J. Athl. Train, 47: 32–41. DOI: 10.4085/1062-6050-47.1.32.10.4085/1062-6050-47.1.32341811222488228 Search in Google Scholar

41. Ribeiro F., Santos F., Gonçalves P., Oliveira J. (2008) Effects of volleyball match-induced fatigue on knee joint position sense. Eur. J. Sport Sci., Routledge. 8: 397–402. DOI: 10.1080/02614360802373060.10.1080/02614360802373060 Search in Google Scholar

42. Schmitz R.J., Cone J.C., Tritsch A.J., Pye M.L., Montgomery M.M., Henson R.A. Shultz S.J. (2014) Changes in drop-jump landing biomechanics during prolonged intermittent exercise. Sports Health, 6: 128–135. DOI: 10.1177/1941738113503286.10.1177/1941738113503286393133724587862 Search in Google Scholar

43. Shultz S.J., Schmitz R.J., Cone J.R., Henson R.A., Montgomery M.M., Pye M.L. Tritsch A.J. (2015) Changes in fatigue, multiplanar knee laxity, and landing biomechanics during intermittent exercise. J. Athl. Train, 50: 486–97. DOI: 10.4085/1062-6050-49.5.08.10.4085/1062-6050-49.5.08456000925674926 Search in Google Scholar

44. Wesley C.A., Aronson P.A., Docherty C.L. (2015) Lower extremity landing biomechanics in both sexes after a functional exercise protocol. J. Athl. Train, 50: 914–920. DOI: 10.4085/1062-6050-50.8.03.10.4085/1062-6050-50.8.03463988126285090 Search in Google Scholar

45. Xergia S.A., Pappas E., Zampeli F., Georgiou S., Georgoulis A.D. (2013) Asymmetries in functional hop tests, lower extremity kinematics, and isokinetic strength persist 6 to 9 months following anterior cruciate ligament reconstruction. J. Orthop. Sports Phys. Ther., 43: 154–162. DOI: 10.2519/jospt.2013.3967.10.2519/jospt.2013.396723322072 Search in Google Scholar

46. Xia R., Zhang X., Wang X., Sun X., Fu W. (2017) Effects of Two Fatigue Protocols on Impact Forces and Lower Extremity Kinematics during Drop Landings: Implications for Noncontact Anterior Cruciate Ligament Injury. J. Healthc Eng., 2017: 5690519. DOI: 10.1155/2017/5690519.10.1155/2017/5690519552965429065622 Search in Google Scholar

eISSN:: 2080-2234
Idioma:: Inglés

Calendario de la edición:: Volume Open
Temas de la revista:: Medicine, Basic Medical Science, other, Clinical Medicine, Public Health, Sports and Recreation, Physical Education

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The effect of fatigue on jump height and the risk of knee injury after a volleyball training game: A pilot study

Publicado en línea: 18 jun 2021

Páginas: 197 - 204

Recibido: 30 nov 2020

Aceptado: 22 abr 2021

DOI: https://doi.org/10.2478/bhk-2021-0024

Palabras claveLanding, Injury prevention, Anterior cruciate ligament, Risk factors, Lower extremity

© 2021 Charis Tsarbou et al., published by Sciendo

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

Palabras clave
Landing, Injury prevention, Anterior cruciate ligament, Risk factors, Lower extremity