GENDER ORIENTED VARIATIONS IN THE FINGER FLEXION CASCADE IN NORMAL INDIVIDUALS
DOI:
https://doi.org/10.15621/ijphy/2020/v7i2/652Keywords:
Finger flexion cascade, power grip, nonpower grip, goniometer, composite finger flexionAbstract
Background: A normal Finger Flexion Cascade (FFC) is formed by the fingers of the hand when the hand in a relaxed position. Usually, the fingers of the hand assume a flexed position; gender may influence the normative values of the resting hand due to differences in the anatomical structure of hand and frequency of usage of joints of hand in their respective occupation and habitual activities of daily living. Hence the study aims to find the difference in the FFC between men and women in power grip and nonpower grip occupational activities.
Methods: A cross-sectional study was conducted in a mixed population of five hundred active individuals aged between 25 and 40 years belonging to various occupations of industrial work and individuals working with software companies. Individuals who fulfilled the inclusion criteria participated in the study. After completing a questionnaire based on occupation, the subjects were grouped into power grip users and nonpower grip users. The range of motion of the joints of all the fingers, namely, metacarpophalangeal, proximal interphalangeal, and distal interphalangeal joints of both dominant hand and nondominant hand was measured using universal finger goniometer, and the composite finger flexion was recorded using a geometric ruler. The results were analyzed, and Un-paired T-test was used to compare the FFC between the power grip and the nonpower grip group.
Results: The FFC variations in both the hands of male and female subjects in power grip users (PGU) and nonpower grip users(NPGU) were recorded. In the dominant hand, it was found that the DIP joint of 5th digit in female subjects had a greater ROM values than male subjects, but greater ROM values in MCP joints of the hand in males were found. The comparison between the range of values of both groups revealed that the values in the PGU group were more than the NPGU group with a statistical significance of p<0.001.
Conclusion: The finger flexion cascade was found to be more closed in female subjects than males in both the dominant and nondominant hands of in the power grip users than in the nonpower grip users.
References
Hanley B, Bissas A, Drake A. Kinematic characteristics of elite men’s 50 km race walking. European journal of sports science; 2013; 13(2): 272-279.
Phil Howell.A Brief History of Racewalking. 2013 http://www.eracewalk.com/Narf.htm.
International Association of Athletic Federation. Rule 230, (International Association of Athletic Federation).
Race Walking, 2007 https://en.m.Wikipedia.org.
Norberg, Jaclyn D. Biomechanical analysis of Race-walking compared to normal walking & running gait. Theses and Dissertation- Kinesiology and health promotion; university of Kentucky. 2015.20.
Song Q, Ding Z, Mao D, Zhang C, Sun W. Biomechanics and injury risk factors during race walking. In ISBS-Conference Proceedings Archive 2013 Vol. 1(1).
Francis PR, Richman NM, Patterson P. Injuries in the Sports of Race Walking. Journal of Athletic Training.1998 33(2): 122-129.
Woodford C. How parachutes work. The science of air resistance. 2018 https://www.explainthatstuff.com/how-parachutes-work.html .
Hanley B, Bissas A. A. Kinematic characteristics of elite men’s 20 km race walking. European journal of sports science J Sports Sci; 2013, 31(11):1222-32.
Palamarchuk R. Race-walking: a not so injury free sport. In: Rinaldi R, Sabia M, eds. Sports Medicine '80. Mt. Kisco, NY: Futura Publishing. Co; 1998. 1980:19-20.
Aluisio O. V. Avila, Ana C. D. Kalvdianos, Eliance F. Manfio. Race Walking And Normal Walking Analysis. 16 International Symposium on Biomechanics in sports.1998. 1999-4168.
Martin Pupiš. World race walking research.2011
Martinopoulou K, Argeitaki P, Paradisis G, Katsikas C, Smirniotou A. The effects of resisted training using parachute on sprint performance. Biology of Exercise. 2011 Jan 1;7(1).
Joyner MJ, Coyle EF. Endurance exercise performance: the physiology of champions. The Journal of physiology. 2008 Jan 1;586(1):35-44.
Brazo-Sayavera J, Martinez-Valencia MA, Müller L, Andronikos G, Martindale RJ. Relative age effects in international age group championships: A study of Spanish track and field athletes. PloS one. 2018 Apr 24;13(4):e0196386.
Penry JT, Wilcox AR, Yun J. Validity and reliability analysis of Cooper's 12-minute run and the multistage shuttle run in healthy adults. The Journal of Strength & Conditioning Research. 2011 Mar 1;25(3):597-605.
Hong AR, Hong SM, Shin YA. Effects of resistance training on muscle strength, endurance, and motor unit according to ciliary neurotrophic factor polymorphism in male college students. Journal of sports science & medicine. 2014 Sep;13(3):680.
Palamarchuk R. Racewalking: a not so injury free sport. Sports medicine. 1980;80(19-20).
Martinopoulou K, Argeitaki P, Paradisis G, Katsikas C, Smirniotou A. The effects of resisted training using parachute on sprint performance. Biology of Exercise. 2011 Jan 1;7(1).
Hanley B, Drake A. The Effect of Fatigue on Race Walking Technique. Ouro Preto Brazil.2007 25: 256-259.
Frank C, Kobesova A, Kolar P. Dynamic neuromuscular stabilization & sports rehabilitation. International journal of sports physical therapy. 2013. ;8(1):62.
Bokarius V. Long-term efficacy of dynamic neuromuscular stabilization in treatment of chronic musculoskeletal pain. Age. 2008. 17;18(25):3.
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