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http://dx.doi.org/10.5370/KIEE.2017.66.11.1628

Prediction of Maximal Flexion Strength for Exercise Intensity Setting and Measurement in Elbow Joint  

Jang, Jee-Hun (Dept. of Sport & Leisure Studies, Catholic Kwandong University)
Kim, Jae-Min (Dept. of Sport & Leisure Studies, Catholic Kwandong University)
Kim, Yeon-Kyu (Dept. of Sport & Leisure Studies, Catholic Kwandong University)
Kim, Jin-Chul (Dept. of Sport & Leisure Studies, Catholic Kwandong University)
Cho, Tae-Yong (Dept. of Sport & Leisure Studies, Catholic Kwandong University)
Kim, Yun-Jeong (Dept. of Sport & Leisure Studies, Catholic Kwandong University)
Lee, Sang-Sik (Dept. of Biomedical Engineering, Catholic Kwandong University)
Publication Information
The Transactions of The Korean Institute of Electrical Engineers / v.66, no.11, 2017 , pp. 1628-1633 More about this Journal
Abstract
The purpose of this study was to identify the difference and correlation in elbow joint maximal flexion strength according to measurement methods and characteristics of muscular contraction, and to develop the predictive equation of elbow joint maximal flexion strength for the optimal exercise intensity setting and accurate measurement. Subjects were 30 male university students. Elbow joint maximal flexion strength of isokinetic contraction, isometric contraction at $75^{\circ}$ elbow joint flexion position, isotonic concentric 1RM, manual muscle strength (MMT) were measured with isokinetic dynamometer, dumbbell, and manual muscle tester. Pearson's r, linear regression equation, and multiple regression equation between variables were calculated. As a result, the highest value was isometric contraction. The second highest value was MMT. The third highest value was isokinetic contraction. 1RM was the lowest. Predictive equations of elbow joint maximal flexion strength between isometric and isokinetic contraction, between isometric contraction and 1RM, among isometric contraction, 1RM, and body weight were developed. In conclusion, 1RM and isokinetic elbow joint maximal flexion strength could be seemed to underestimate the practical elbow joint maximal flexion strength. And it is suggested that the developed predictive equations in this study should be useful in criteria- and goal-setting for resistant exercise and sports rehabilitation after elbow joint injury.
Keywords
Predictive equation; Elbow joint; Maximal flexion strength; Rehabilitation; Injury;
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  • Reference
1 ACSM, "ACSM's Guidelines for Exercise Testing and Prescription," 2014
2 So Wi-Young, Sea Dong-Il, Choi Dai-Hyuk, "Regression Analysis of One Repetition Maximal Strength from a 7-10, 11-15 Repetition Submaximal Strength Test in 30-40s Women," The Korean Journal of Measurement and Evaluation in Physical Education and Sport Science, Vol.13, No.1, pp.67-78. 2011
3 Lee Hye-Young, Jin, Young-soo, Chung, Jae-Soon, "Estimation of 1-RM from Isometric Maximal Voluntary Contraction in Healthy Male Adults," The Korean Journal of Growth and Development, Vol. 18, No. 1, pp. 71-76. 2010
4 Dvir, Z., "Isokinetics. Muscle Testing, Interpretation, and Clinical Applications(2nd Ed.)," 2004
5 Kravitz L., Akalan C, Nowicki K, Kinzey S.J., "Prediction of 1 repetition maximum in high-school power lifters," Journal of strength and conditioning research, Vol. 17, No. 1, pp. 167-172. 2003   DOI
6 Lee D.R., Kim L.J., "Reliability and validity of the closed kinetic chain upper extremity stability test," Journal of physical therapy science. Vol. 27, No. 4, pp. 1071-1073. 2015   DOI
7 Lee Suk-in, Lim Seung-Kil, "Regression equations to predict one repetition maximal strength of bench press and lat pull down from 7-10 repetition submaximal test in twenties males," The Korean Journal of Physical Education, Vol.44, No.2, pp.285-293. 2004
8 Kim P.S., Mayhew J.L., Peterson D.F., "A modified YMCA bench press test as a predictor of 1 repetition maximum bench press strength," Journal of strength and conditioning research, Vlo. 16, No. 3, pp. 440-445. 2002   DOI
9 Lienhard K., Lauermann S.P., Schineider D, Item- Glatthon J.F., Casartelli N.C., Maffuletti N.A., "Validity and reliability of isometric, isokinetic and isoinertial modalities for the assessment of quadriceps muscle strength in patients with total knee arthroplasty," Journal of electromyography and kinesiology, Vol. 23, No. 6, pp.1283-1288. 2013   DOI
10 Tourville T.W., Smith H.C., Shultz S.J., Vacek P.M., Slauterbeck J.R., Beynnon B.D., "Reliability of a new stabilized dynamometer system for the evaluation of hip strength," Sports Health, Vol. 5, No. 2, pp. 129-136. 2013   DOI
11 Suh Sung-Hyeok, Park Seung-Yong, Kim Kyoung-Bae, "One Repetition Maximum by Circumference of Muscles in Weight Training Beginners," The Korean Journal of Measurement and Evaluation in Physical Education and Sport Science, Vol. 10, No. 2, pp. 57-68, 2008
12 Korean Standareds Association, "Standard Anthropometry," http://www.kssn.net
13 Chung Jae-soon, Lee Han-Yong, "Estimation of 1-RM from Isometric Maximal Voluntary Contraction in Female Adults," Korean Association of Physical Education and Sport of Girls and Women, Vol. 21, No. 4, pp. 17-82. 2007
14 Neumann, D.A., "Kinesiology of the musculoskeletal system. Foundations for Physical Rehabilitation(2nd ed.)," 2010
15 Kim Myong-Gi, Kim Chang-Kook, Cha Ki-Chil, "Assessment of fat-free mass using segmental bioelectrical impedance analysis," The Korean Journal of Physical Education, Vol.39, No.3, pp.391-400, 2000
16 Askew L.J., An K.N., Morrey B.F., Chao E.Y., "Isometric elbow strength in normal individuals," Clinical Orthopaedics and Related Research, Vol.222, pp.261-266, 1987