The Temporal Pattern of Recovery in Eccentric Hamstring Strength Post-Localised Fatigue

Volume 4, Issue 1, February 2020     |     PP. 1-15      |     PDF (553 K)    |     Pub. Date: March 10, 2020
DOI:    267 Downloads     6707 Views  

Author(s)

David RHODES, Institute of Coaching and Performance, School of Sport and Health Sciences, University of Central Lancashire, Preston, UK
Jill ALEXANDER, Sport, Nutrition and Clinical Sciences, School of Sport and Health Sciences, University of Central Lancashire, Preston, UK
Matt GREIG, Sport and Physical Activity, Edge Hill University, Ormskirk Road, L39 4QP

Abstract
BACKGROUND
Eccentric hamstring training is a contemporary approach to reducing injury risk in elite footballers. Understanding the temporal pattern of recovery would inform training design.
METHODS
20 male professional football players completed baseline assessments of eccentric hamstring strength at isokinetic speeds of 60, 150 and 300°·s-1. Post-exercise assessments were repeated immediately, +24hrs, +48hrs and +72hrs. Main effects for recovery time and testing speed in average torque (AvT), peak torque (PT) and the corresponding angle (Ɵ) were supplemented by regression modelling to describe the temporal pattern of recovery.
RESULTS
A main effect for recovery time highlighted greater strength pre exercise, with a quadratic pattern to temporal recovery highlighting minima attained at 35.2 – 41.0 hrs.
CONCLUSIONS
Strength parameters are not fully recovered until 82 hrs post localised fatigue, with the angle of peak torque at high speeds recovering at a much slower rate, with implications for training design.

Keywords
Training, Soccer, Injury, Knee.

Cite this paper
David RHODES, Jill ALEXANDER, Matt GREIG, The Temporal Pattern of Recovery in Eccentric Hamstring Strength Post-Localised Fatigue , SCIREA Journal of Health. Volume 4, Issue 1, February 2020 | PP. 1-15.

References

[ 1 ] Opar, D. A., Piatkowski, T., Williams, M. D., & Shield, A. J. (2013). A Novel Device using the Nordic Hamstring Exercise to Assess Eccentric Knee Flexor Strength: A Reliability and Retrospective Injury Study. J Ortho Sports Phys Ther, 43, 636-640.
[ 2 ] Ekstrand, J., Hagglund, M., & Walden, M. (2011). Epidemiology of Muscle Injuries in Professional Football (Soccer). Am J Sports Med, 39, 1226 – 1232.
[ 3 ] Ekstrand, J., Walden, M., & Hagglund, M. (2016). Hamstring Injuries Have Increased by 4% Annually in Men’s Professional Football, Since 2001: A 13 Year Longitudinal Analysis of the UEFA Elite Club Injury Study. Br J Sports Med, 0, 1 – 8.
[ 4 ] Attar, W. S., Soomro, N., Sinclair, P. J., Pappas, E., & Saunders, R. H. (2017). Effect of Injury Prevention Programs that Include the Nordic Hamstring Exercise on Hamstring Injury Rates in Soccer Players: A Systematic Review and Meta Analysis. Sports Med. 47, 906 – 916.
[ 5 ] Delextrat, A., Gregory, J., & Cohen, D. (2010). The use of functional H:Q ratio to assess fatigue in soccer. Int J Sports Med, 31, 192 – 197.
[ 6 ] Serpell, B. G., Scarvell, J. M., & Ball, N. B., et al. (2012). Mechanisms and Risk Factors for Non-Contact ACL Injury in Age Mature Athletes Who Engage in Field or Court Sports: A Summary of the Literature Since 1980. Jour of Strength and Cond, 26, 3160 – 3176.
[ 7 ] Walden, M., Hagglund, M., Magnusson. H., & Ekstrand, J. (2016). ACL Injuries in Men’s Professional Football: A 15-Year Prospective Study on Time Trends and Return-to-Play Rates Reveals only 65% of Players Still Play at the Top Level 3 Years after ACL Rupture. Br J Sports Med, 0, 1 – 7.
[ 8 ] Proske, U., & Morgan, D. L. (2001). Muscle Damage from Eccentric Exercise: Mechanism, Mechanical Signs, Adaptation and Clinical Applications. J Physiol, 537, 333 – 345.
[ 9 ] Rampinini, E., Bosio, A., & Ferraresi, I., et al. (2011). Match Related Fatigue in Soccer Players. Amer College Sports Med, 43, 2161 – 2170.
[ 10 ] Nogueira, F. R. D., Conceicao, M. S., Vechin, F. C., Junior, E. M. M., Rodrigues, G. F. C., Fazolin, M. A., Chacon-Mikahil, M. P. T., Libardi, C. A. (2013). The Effect of Eccentric Contraction Velocity on Muscle Damage: A Review. Isokinetics Ex Sci, 21, 1 – 9.
[ 11 ] Buckner, S. L., Mouser, G., Dankel, S. J., Jessee, M. B., Mattocks, K. T., & Loenneke, J. P. (2017). The General Adaptation Syndrome: Potential Misapplications to Resistance Exercise. J Sci Med Sport, 20, 1140 – 2440.
[ 12 ] Dupont, G., Nedelec, M., & Mccall, A., et al. (2010). Effect of 2 Soccer Matches in a Week on Physical Performance and Injury Rate. Am J of Sports Med, 38, 1752 - 1758.
[ 13 ] Dellal, L A., Lago-Penas, C., & Rey, E., et al. (2015). The Effects of a Congested Fixture Period on Physical Performance, Technical Activity and Injury Rate During Matches in a Professional Soccer Team. Br J Sports Med, 49, 390 - 394.
[ 14 ] Agel, J., Arendt, E. A., & Bershadsky, B. (2005). Anterior Cruciate Ligament Injury in National Collegiate Athletic Association Basketball and Soccer: A 13-year review. Am J Sports Med, 33, 524–530.
[ 15 ] Greig, M. (2008). The Influence of Soccer-Specific Fatigue on Peak Isokinetic Torque Production of the Knee Flexors and Extensors. Amer J Sports Med, 36, 1403-1409.
[ 16 ] Small, K., McNaughton, L. R., & Greig, M., et al. (2009). The Effects of Multidirectional Soccer-Specific Fatigue on Markers of Hamstring Injury Risk. J Sci Med Sport, 13, 120 - 125.
[ 17 ] Rhodes, D., McNaughton, L., & Greig, M. (2018). The Temporal Pattern of Recovery in Eccentric Hamstring Strength Post Soccer Specific Fatigue. Res Sports Med, 27, 339-350.
[ 18 ] Carling, C., Gregson, W., & McCall, A., et al. (2015). Match Running Performance During Fixture Congestion in Elite Soccer: Research Issues and Future Directions. Sports Med, 45, 605 - 613.
[ 19 ] Carling, C., Le Gall, F., & Dupont, G. (2012). Are Physical Performance and Injury Risk in a Professional Soccer Team in Match-Play Affected Over a Prolonged Period of Fixture Congestion? Int J Sports Med, 33, 36 - 42.
[ 20 ] Rollo, I., Impellizzeri, F. M., & Zago, M, et al. (2014). Effects of 1 versus 2 Games a Week on Physical and Subjective Scores of Sub-elite Soccer Players. Int J Sports Phys Perf, 9, 425 – 431.
[ 21 ] Hinman, M. (2000). Factors Affecting Reliability of the Biodex Balance System: A summary of Four Studies. J Sport Rehabil, 9, 240-252.
[ 22 ] Sedliak, M., Haverinen, M., & Hakkinen, K. (2011). Muscle Strength, Resting Muscle Tone and EMG Activation in Untrained Men: Interaction Effect of time of Day and Test Order-Related Confounding Factors. J Sports Med Phys Fit, 51, 560 – 570.
[ 23 ] Brophy, R., Silvers, H. J., & Gonzales, T., et al. (2010). Gender Influences: The Role of Leg Dominance in ACL Injury Among Soccer Players. Br J Sports Med, 44, 694 – 697.
[ 24 ] Hazdic, V., Sattler, T., & Markovic, G., et al. (2010). The Isokinetic Strength Profile of Quadriceps and Hamstrings in Elite Volleyball Players. Isokin Ex Sci, 18, 31 – 37.
[ 25 ] Knicker, A. J., Renshaw, I., & Oldham, A. R. H., et al. (2011). Interactive Processes Link the Multiple Symptoms of Fatigue in Sport Competition. Sports Med, 41, 307 -328.
[ 26 ] Drouin, J. M., Valovich, M., & Shultz, S. J., et al. (2004). Reliability and validity of the Biodex System 3 pro isokinetic dynamometer velocity, torque and position measurements. Eur J Appl Physiol, 91, 22-29.
[ 27 ] Opar, D. A., Williams, M. D., & Shield, A. J. (2012). Hamstring Strain Injuries: Factors that Lead to Injury and Re-injury. Sports Med, 42, 209 – 226.
[ 28 ] Dvir Z. (1991). Clinical Applicability of Isokinetics. A Review. Clin Biomech, 6, 133 - 144
[ 29 ] Ayala, F., De Ste Croix, M., Sainz de Baranda, P., et al. (2012). Absolute Reliability of Isokinetic Knee Flexio and Extension Measurements Adopting a Prone Position. Clin Phys Func Imag. 33, 45-54
[ 30 ] Sangnieer, S., & Tourny-Chollet, C. (2007). Comparison of the Decrease in Strength between Hamstrings and Quadriceps during Isokinetic Fatigue Testing in Semi-professional Soccer Players. Int J Sports Med, 28, 952–957.
[ 31 ] Thomas, A. C., McLean, S. G., & Palmieri-Smith, R. M. (2010). Quadriceps and Hamstrings Fatigue Alters Hip and Knee Mechanics. J App Biomec, 2, 159 – 170.
[ 32 ] Alentorn-Geli, E., Myer, G. D., & Silvers, H. J., et al. (2009). Prevention of Non-Contact Anterior Cruciate Ligament Injuries in Soccer Players. Part 1: Mechanisms of Injury and Underlying Risk Factors. Knee Surg Traumatol Arthrosc. 17, 705 – 72.