Reliability of Sports Medical Solutions Handgrip and Jamar Handgrip Dynamometer

[1] Zatsiorsky, V.M. (1995). Science and Practice of Strength Training. Human Kinetics.Search in Google Scholar

[2] Kudrna, P., Tejkl, L., Rozanek, M. (2017). Electronic hand grip dynamometer. In E-Health and Bioengineering Conference (EHB). IEEE, 249-252.10.1109/EHB.2017.7995408Search in Google Scholar

[3] Tyldesley, B., Grieve, J.I. (1996). Muscles, Nerves, and Movement: Kinesiology in Daily Living, 2nd ed. Wiley-Blackwell.Search in Google Scholar

[4] Vargo, E.A., Kuzala, M.C. (1992). The relationship between elbow position and grip strength. American Journal of Occupational Therapy, 46, 509-512.10.5014/ajot.46.6.509Search in Google Scholar

[5] Balogun, J.A., Akomolafe, C.T., Amusa, L.O. (1991). Grip strength: Effects of testing posture and elbow position. Archives of Physical Medicine and Rehabilitation, 72 (5), 280-283.Search in Google Scholar

[6] Dopsaj, M., Ivanovič, J., Blagojevič, M. et al. (2009). Basic and specific characteristics of the hand grip explosive force and time parameters in different strength trained population. Brazilian Journal of Biomotricity, 3 (2), 177-193.Search in Google Scholar

[7] Bohannon, R.W. (2001). Dynamometer measurements of hand grip strength predict multiple outcomes. Perceptual and Motor Skills, 93 (2), 323-328.10.2466/pms.2001.93.2.323Search in Google Scholar

[8] Marković, M.R., Dopsaj, M., Koropanovski, N., Ćopić, N., Trajkov, M. (2018). Reliability of measuring various contractile function of finger flexors of men of various age. Physical Culture (Belgrade), 72 (1), 37-48.10.5937/fizkul1801037MSearch in Google Scholar

[9] Wind, A.E., Takken, T., Helders, P.J., Engelbert, R.H. (2010). Is grip strength a predictor for total muscle strength in healthy children, adolescents, and young adults? European Journal of Pediatrics, 169 (3), 281-287.10.1007/s00431-009-1010-4Search in Google Scholar

[10] Ivanović. J., Dopsaj, M. (2012). Functional dimorphism and characteristics of maximal hand grip force in top level female athletes. Collegium Antropologicum, 36 (4), 1231-1240.Search in Google Scholar

[11] Leyk, D., Gorges, W., Ridder, D. et al. (2007). Hand grip strength of young men, women and highly trained female athletes. European Journal of Applied Physiology, 99 (4), 415-421.10.1007/s00421-006-0351-1Search in Google Scholar

[12] Marković, S., Dopsaj, M., Koprivica, V., Kasum, G. (2018). Qualitative and quantitative evaluation of the characteristics of the isometric muscle force of different muscle groups in cadet judo athletes: A gender-based multidimensional model. FACTA Universitatis Series: Physical Education and Sport, 16 (2), 245-260.10.22190/FUPES180219022MSearch in Google Scholar

[13] Sayer, A.A., Kirkwood, T. (2015). Grip strength, and mortality: A biomarker of ageing? The Lancet, 386 (18), 226-227.10.1016/S0140-6736(14)62349-7Search in Google Scholar

[14] Roberts, H.C., Denison, H.J., Martin, H.J. et al. (2011). A review of the measurement of grip strength in clinical and epidemiological studies: Towards a standardised approach. Age and Ageing, 40 (4), 423-429.10.1093/ageing/afr05121624928Search in Google Scholar

[15] Innes, E. (1999). Handgrip strength testing: A review of the literature. Australian Occupational Therapy Journal, 46 (3), 120-140.10.1046/j.1440-1630.1999.00182.xSearch in Google Scholar

[16] Mirkov, D., Nedeljkovic, A., Milanovic, S., Jaric, S. (2004). Muscle strength testing: Evaluation of tests of explosive force production. European Journal of Applied Physiology, 91 (2-3), 147-154.10.1007/s00421-003-0946-814523563Search in Google Scholar

[17] Dopsaj, M., Mijalkovski, Z., Vasilovski, N., Copic, N., Brzakovic, M., Markovic, M. (2018). Morphological parameters and handgrip muscle force contractile characteristics in the first selection level in water polo: Differences between U15 water polo players and the control group. Human. Sport. Medicine, 18 (3), 5-15.10.14529/hsm180301Search in Google Scholar

[18] Murugan, S., Patel, D., Prajapati, K., Ghoghari, M., Patel, P. (2013). Grip strength changes in relation to different body postures, elbow and forearm positions. International Journal of Physiotherapy and Research, 1 (4), 116-121.Search in Google Scholar

[19] Hillman, T.E. Nunes, Q.M., Hornby, S.T. et al. (2005). A practical posture for hand grip dynamometry in the clinical setting. Clinical Nutrition, 24 (2), 224-228.10.1016/j.clnu.2004.09.013Search in Google Scholar

[20] Mathiowetz, V., Rennells, C., Donahoe, L. (1985). Effect of elbow position on grip and key pinch strength. The Journal of Hand Surgery, 10 (5), 694-697.10.1016/S0363-5023(85)80210-0Search in Google Scholar

[21] Su, C.-Y., Lin, J.-H., Chien, T.-H., Cheng, K.-F., Sung, Y.-T. (1994). Grip strength in different positions of elbow and shoulder. Archives of Physical Medicine and Rehabilitation, 75 (7), 812-815.10.1016/0003-9993(94)90142-2Search in Google Scholar

[22] Thomas, J., Nelson, J., Silverman, S. (2015). Research Methods in Physical Activity, 7th ed. Human Kinetics.Search in Google Scholar

[23] All4gym d.o.o.; http://all4gym.rs/.Search in Google Scholar

[24] SAEHAN Corp.; http://www.saehanmedical.com/sub/eng/main/main.html.Search in Google Scholar

[25] Tanner, R., Gore, C. (2012). Physiological Tests for Elite Athletes, 2nd ed. Human Kinetics.Search in Google Scholar

[26] Hair, J, Anderson, R., Tatham, R., Black, W. (1998). Multivariate Data Analysis With Readings, 5th ed. Prentice-Hall.Search in Google Scholar

[27] Mathiowetz, V., Vizenor, L., Melande, D. (2000). Comparison of baseline instruments to the Jamar dynamometer and the B&L engineering pinch gauge. OTJR Occupation Participation Health, 20 (3), 147-162.10.1177/153944920002000301Search in Google Scholar

[28] España-Romero, V., Ortega, F.B., Vicente-Rodríguez, G. et al. (2010). Elbow position affects handgrip strength in adolescents: Validity and reliability of Jamar, DynEx, and TKK dynamometers. Journal of Strength and Conditioning Research, 24 (1), 272-277.10.1519/JSC.0b013e3181b296a5Search in Google Scholar

[29] Shyam Kumar, A.J., Parmar, V., Ahmed, S., Kar, S., Harper, W.M. (2008). A study of grip endurance and strengh in different elbow positions. Journal of Orthopaedics and Traumatology, 9 (4), 209-211.10.1007/s10195-008-0020-8Search in Google Scholar

[30] Su, C.-Y., Lin, J.-H., Chien, T.-H., Cheng, K.-F., Sung, Y.-T. (1994). Grip strength in different positions of elbow and shoulder. Archives of Physical Medicine and Rehabilitation, 75 (7), 812-815.10.1016/0003-9993(94)90142-2Search in Google Scholar

[31] Li, Z.-M., Zatsiorsky, V.M., Latash, M.L. (2001). The effect of finger extensor mechanism on the flexor force during isometric tasks. Journal of Biomechanics, 34 (8), 1097-1102.10.1016/S0021-9290(01)00061-6Search in Google Scholar

[32] Johanson, M.E., James, M.A., Skinner, S.R. (1998). Forearm muscle activation during power grip and release. The Journal of Hand Surgery, 23 (5), 938-944.10.1016/S0363-5023(98)80177-9Search in Google Scholar

[33] Vincent, W. (2005). Statistics in Kinesiology, 3rd ed. Human Kinetics.Search in Google Scholar

[34] Koo, T.K., Li, M.Y. (2016). A guideline of selecting and reporting intraclass correlation coefficients for reliability research. Journal of Chiropractic Medicine, 15 (2), 155-163.10.1016/j.jcm.2016.02.012491311827330520Search in Google Scholar