Int J Sports Med 2013; 34(07): 646-653
DOI: 10.1055/s-0032-1321801
Training & Testing
© Georg Thieme Verlag KG Stuttgart · New York

The Effect of Isokinetic Testing Speed on the Reliability of Muscle Fatigue Indicators During a Hip Abductor-Adductor Fatigue Protocol

C. N. Gautrey
1   Sport, Health and Exercise, University of Hertfordshire, Hertfordshire, United Kingdom
,
T. Watson
2   Physiotherapy, University of Hertfordshire, Hertfordshire, United Kingdom
,
A. Mitchell
1   Sport, Health and Exercise, University of Hertfordshire, Hertfordshire, United Kingdom
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Publikationsverlauf



accepted after revision 13. Juni 2012

Publikationsdatum:
02. April 2013 (online)

Abstract

The aim of this study was to investigate the reliability of fatigue indicators calculated from peak torque and total work during isokinetic speeds of 60, 90, 120 and 180° · s−1 during a hip fatigue protocol. 10 males suffering from a history of unilateral functional ankle instability and 10 male healthy controls performed 5 maximal concentric contractions on an isokinetic dynamometer. Following a 4 min rest period subjects were instructed to perform repeated maximal concentric contractions to fatigue, which was defined as 3 consecutive repetitions below 50% of the maximum peak torque value. Each testing speed was randomised with 24 h between speeds. The subjects were asked to return to the laboratory 7 days later to repeat the 4 speeds, with 24 h between speeds. Muscle fatigue was determined for each testing speed by the fatigue index, the percent decrease in performance and the slope of the regression equation. The most reliable fatigue determination method was the slope of the regression equation, when testing at a speed of 120° · s−1. It is recommended that future investigators examine and plot their data before choosing the slope of the regression equation as their fatigue indicator, as a linear model is required.

 
  • References

  • 1 Bahr R, Pena F, Shine J, Lew WD, Lindquist C, Tyrdal S, Engebretsen L. Mechanics of the anterior drawer and talar tilt tests. Acta Orthop Scand 1997; 68: 435-441
  • 2 Bigland-Richie B, Woods JJ. Changes in muscular contractile properties and neural control during human muscular fatigue. Muscle Nerve 1984; 7: 691-699
  • 3 Bosquet L, Maquet D, Forthomme B, Nowak N, Lehance C, Crosier JL. Effect of the lengthening of the protocol on the reliability of muscle fatigue indicators. Int J Sports Med 2010; 31: 82-88
  • 4 Brown LE, Whitehurst M, Bryant JR, Buchalter DN. Reliability of the Biodex System 2 isokinetic dynamometer concentric mode. Isokinet Exerc Sci 1993; 3: 160-163
  • 5 Brown LE, Whitehurst M, Gilbert R, Buchalter DN. The effect of velocity and gender on load range during knee extension and flexion exercise on an isokinetic device. J Orthop Sports Phys Ther 1995; 21: 107-112
  • 6 Claiborne TL, Timmons MK, Pincivero DM. Test-retest reliability of cardinal plane isokinetic hip torque and EMG. J Electromyogr Kinesiol 2009; 19: 345-352
  • 7 Croisier JL, Ganteaume S, Binet J, Genty M, Ferret J. Strength imbalances and prevention of hamstring injury in professional soccer players. Am J Sports Med 2008; 36: 1469-1475
  • 8 Currier D. Elements of Research in Physical Therapy. Baltimore: Williams and Wilkins: 1990
  • 9 Docherty CL, Rybak-Webb K. Reliability of the anterior drawer and talar tilt tests using the LigMaster joint arthrometer. J Sport Rehabil 2009; 18: 389-397
  • 10 Drouin JM, Valovich-McLeod TC, Shultz SJ, Gansneder BM, Perrin DH. Reliability and validity of the Biodex system 3 pro isokinetic dynamometer velocity, torque and position measurements. Eur J Appl Physiol 2004; 91: 22-29
  • 11 Emery CA, Maitland ME, Meeuwisse WH. Test-retest reliability of isokinetic hip adductor and flexor muscle strength. Clin J Sport Med 1999; 9: 79-85
  • 12 Feiring DC, Ellenbecker TS, Dershield GL. Test-retest reliability of the Biodex isokinetic dynamometer. J Orthop Sport Phys Ther 1990; 11: 298-300
  • 13 Ferber R, McClay-Davis I, Williams DS. Gender differences in lower extremity mechanics during running. Clin Biomech 2003; 18: 350-357
  • 14 Forestier N, Toschi P. The effects of an ankle destabilization device on muscular activity while walking. Int J Sports Med 2005; 26: 464-470
  • 15 Friel K, McLean N, Myers C, Caceres M. Ipsilateral hip abductor weakness after inversion ankle sprain. J Athl Train 2006; 41: 74-78
  • 16 Gear WS. Effect of different levels of localized muscle fatigue on knee position sense. Sports Med 2011; 10: 725-730
  • 17 Gerdle B, Elert J. The temporal occurrence of the mean power frequency shift of the electromyogram during maximal prolonged dynamic and static working cycles. Int J Sports Med 1994; 15 (Suppl. 01) S32-S37
  • 18 Glaister M, Stone MH, Stewart AM, Hugues M, Moir GL. The reliability and validity of fatigue measures during short duration maximal intensity intermittent exercise. J Strength Cond Res 2004; 18: 459-462
  • 19 Gleeson NP, Mercer TH. Reproducibility of isokinetic leg strength and endurance characteristics of adult men and woman. Eur J Appl Physiol 1992; 65: 221-228
  • 20 Gleeson NP, Mercer TH. The utility of isokinetic dynamometry in the assessment of human muscle function. Sports Med 1996; 21: 18-34
  • 21 Gross MT, Huffman GM, Phillips CN, Wray JA. Intramachine and intermachine reliability of the Biodex and the Cybex II for knee flexion and extension peak torque and angular work. J Orthop Sport Phys Ther 1991; 13: 329-335
  • 22 Harriss DJ, Atkinson G. Update – ethical standards in sport and exercise science research. Int J Sports Med 2011; 32: 819-821
  • 23 Hislop HJ, Perrine JJ. The isokinetic concept of exercise. Phys Ther 1967; 47: 114-117
  • 24 Hopkins WG. Measures of reliability in sports medicine and science. Sports Med 2000; 30: 375-381
  • 25 Houweling TA, Head A, Hamzeh MA. Validity of isokinetic testing for previous hamstring injury detection in soccer players. Isokinet Exerc Sci 2009; 17: 213-220
  • 26 Hubbard TJ, Kaminski TW. Kinaesthesia is not affected by functional ankle instability status. J Athl Train 2002; 37: 481-486
  • 27 Janssen JC, Le-Ngoc L. Intratester reliability and validity of concentric measurements using a new hand-held dynamometer. Arch Phys Med Rehabil 2009; 90: 1541-1547
  • 28 Kannus P. Isokinetic evaluation of muscular performance: implications for muscle testing and rehabilitation. Int J Sports Med 1994; 15 (Suppl. 01) S11-S18
  • 29 Katoh M, Huragi Y, Uch ida M. Validity of isometric muscle strength measurements of the lower limbs using a hand-held dynamometer and belt: a comparision with an isokinetic dynamometer. J Phys Ther 2011; 23: 553-557
  • 30 Larsson B, Karlsson S, Eriksson M, Gerdle B. Test-retest reliability of EMG and peak torque during repetitive maximum concentric knee extensions. J Electromyogr Kinesiol 2003; 13: 281-287
  • 31 Liu SH, Jason WJ. Lateral ankle sprains and instability problems. Clin Sports Med 1994; 13: 793-809
  • 32 Maffiuletti NA, Bizzini M, Desbrosses K, Babault N, Munzinger U. Reliability of knee extension and flexion measurements using the Con-Trex isokinetic dynamometer. Clin Physiol Funct Imaging 2007; 27: 346-353
  • 33 Makofsky H, Panicker S, Abbruzzese J, Aridas C, Camp M, Drakes J, Franco C, Sileo R. Immediate effect of grade IV inferior hip joint mobilization on hip abductor torque: a pilot study. J Manual Manipulative Ther 2007; 15: 103-111
  • 34 McNair PJ, Depledge J, Brettkelly M, Stanley SN. Verbal encouragement: effects on maximum effort voluntary muscle action. Br J Sports Med 1996; 30: 243-245
  • 35 Messina DF, Farney WC, DeLee JC. The incidence of injury in Texas high school basketball: a prospective study among male and female athletes. Am J Sports Med 1999; 27: 294-299
  • 36 Munro B. Statistical Methods for Health Care Research. Third edition New York: Lippincott; 1997: 1-444
  • 37 Orri JC, Darden GF. Technica report: reliability and validity of the iSAM 9000 isokinetic dynamometer. J Strength Cond Res 2008; 22: 310-317
  • 38 Pincevero DM, Lephart SM Karunakara Reliability and precision of isokinetic strength and muscular endurance for the quadriceps and hamstrings. Int J Sports Med 1997; 18: 113-117
  • 39 Pincevero DM, Gear WS, Sterner RL. Assessment of the reliability of high-intensity quadriceps femoris muscle fatigue. Med Sci Sports Exerc 2001; 33: 334-338
  • 40 Piva SR, Teixeira P, Almeida G, Gil AB, DiGioia AM, Levison TJ, Fitzgerald GK. Contribution of hip abductor strength to physical function in patients with total knee arthroplasty. Phys Ther 2011; 91: 225-233
  • 41 Reid D. Assessment and Rehabilitation of Sports Injury. New York: Churchill Livingstone; 1992
  • 42 Salavati M, Moghadam M, Ebrahimi I, Arab AM. Changes in postural stability with fatigue of lower extremity frontal and sagittal plane movers. Gait Posture 2007; 26: 214-218
  • 43 Sole G, Hamren J, Milosavljevic S, Nicholson H, Sullivan SJ. Test-retest reliability of isokinetic knee extension and flexion. Arch Phys Med Rehabil 2007; 88: 626-631
  • 44 Smith RW, Reischl SF. Treatment of ankle sprains in young athletes. Am J Sports Med 1986; 14: 465-471
  • 45 Taylor NAS, Sanders RH, Howick IE, Stanley SN. Static and dynamic assessment of the Biodex dynamometer. Eur J Appl Physiol 1991; 62: 180-188
  • 46 Thorstensson A, Karlsson J. Fatiguability and fibre composition of human skeletal muscle. Acta Physiol Scand 1976; 98: 318-322
  • 47 Weir JP, Evans SA, Housh ML. The effect of extraneous movements on peak torque and constant joint angle torque-velocity curves. J Orthop Sports Phys Ther 1996; 23: 302-308
  • 48 Weir JP. Quantifying test-retest reliability using the intraclass correlation coefficient and the SEM. J Strength Cond Res 2005; 19: 231-240
  • 49 Winter DA, Wells RP, Orr GW. Error in the use of isokinetic dynamometers. Eur J Appl Physiol 1981; 46: 397-408
  • 50 Wolfe MW, Uhl TL, Mattacola CG, McCluskey LC. Management of ankle sprains. Am Fam Physician 2001; 63: 93-104
  • 51 Zawadzki J, Bober T, Siemienski A. Validity analysis of the Biodex system 3 dynamometer under static and isokinetic conditions. Acta Bioeng Biomech 2010; 12: 25-32