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Interdependence of body mass index with handgrip strength and endurance among apparently healthy teenagers

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Abstract (2. Language): 
This study investigated the relationship of body mass index (BMI) with handgrip strength and endurance among apparently healthy Nigerian Teenagers. A total of 200 secondary school students participated in this study. Body height and body weight were measured with a wall–mounted stadiometer in meters (m) and bathroom weighing scale in kilogram (kg) respectively. Body mass index (BMI) was then calculated using the formula weight (kg)/height (m2). An electronic handgrip dynamometer was used to measure handgrip strength (HGS) in kg and handgrip endurance (HGE) in seconds (s). The relationship of BMI with HGS and HGE was analyzed using Pearson’s product moment coefficient of correlation. Then, differences in BMI, HGS and HGE across gender categories were analyzed using the independent sample t-test. The outcome of this study showed that BMI correlated proportionately and significantly (p < 0.05) with HGS and HGE. Also, a significant difference (p < 0.05) exists in HGS and HGE across gender characteristics. This study therefore concluded that BMI is a determinant of HGS and HGE among apparently healthy Nigerian Teenagers and thus, could be considered as a marker of nutritional and health status, as well as physical fitness of these individuals. Also, a gender difference does influence HGS and HGE among apparently healthy Nigerian Teenagers
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REFERENCES

References: 

Bansode DG, Borse LJ. Yadav R. Study of correlation between dominant hand’s grip strength and some physical factors in adult males and females. International Journal of Pharma Research and Health Sciences, 2014; 2(4): 316-323.
Baskaran C, Arindam G, Chandan P, Bidhan C. Anthropometric traits predict hand grip strength in healthy normal. Journal of Hand & Microsurgery, 2010; 2(2): 58 - 61.
Bohannon RW. Dynamometer measurements of handgrip strength predict multiple outcomes. Percept Motor Skills, 2001; 93(2): 323-328.
Das A, Dutta M. Correlation between body mass index and handgrip strength and handgrip endurance among young healthy adults. Journal of Evidence based Medicine and Healthcare, 2015; 2: 3995-4001.
Deepak GB, Laxmikant JB, Rasika DY. Study of correlation between dominant hand’s grip strength and some physical factors in adult males and females. Int J Pharm Res Health Sci., 2014; 2(4): 316–323.
Edwards RH, Young A, Hosking GP, Jones DA. Human skeletal muscle function: description of tests and normal values. Clin Sci Mol Med, 1977; 52: 283-290.
Fess EE. Grip Strength. American Society of Hand Therapists. 2nd edition, Chicago, 1992.
Foo LH. Influence of body composition, muscle strength, diet and physical activity on total body and forearm bone mass in Chinese adolescent girls. Br J Nutr, 2007; 98(6): 1281-1287.
Gunther CM, Burger A, Rickert M, Schulz CU. Grip strength in healthy Caucasian adults: reference values. J Hand Surg Am, 2008; 33: 558-565.
Hager-Ross C, Rosblad B. Norms for grip strength in children aged 4-16 years. Acta Paediatr, 2002; 91: 617-625.
Helmersson J, Vessby B, Larsson A, Basu S. Association of type 2 diabetes with cyclooxygenase-mediated inflammation and oxidative stress in an elderly population. Circulation, 2004; 109: 1729 –1734.
Henneberg M, Brush G, Harrison GA. Growth of specific muscle strength between 6 and 18 years in contrasting socio-economic conditions. Am J Phys Anthropol, 2001; 115: 62-70.
Lee JE, Kim KW, Paik N, Jang HC, Chang CB, Baek GH, Gong HS. Evaluation of factors influencing grip strength in elderly Koreans. Journal of Bone Metabolism, 2012; 19(2): 103-110.
Liao KH. Experimental study on gender differences in hands and sequence of force application on grip and hand-grip control. Int J Occup Saf Ergon, 2014; 20(1): 77-90.
Mandahawi N, Imrhan S, Al-Shobaki S, Sarder B. Hand anthropometry survey for the Jordanian population. International Journal of Industrial Ergonomics, 2008; 38(11–12): 966–976.
Neu CM, Rauch F, Rittweger J, Manz F, Schoenau E. Influence of puberty on muscle development at the forearm. Am J Physiol Endocrinol Metab, 2002; 283: 103-107.
Savas S, Koroglu BK, Koyuncuoglu HR, Uzar E, Celik H, Tamer NM. The effects of diabetic related soft tissue hand lesions and the reduced hand strength on functional disability of hand in type 2 diabetic patients. Diabetes Research and Clinical Practice, 2007; 77(1): 77–83.
Schlussel MM, Anjos LA, Kac G. Hand grip strength test and its use in nutritional assessment. Rev Nutr, 2008; 21: 223–225.
Silventoinen K, Magnusson PK, Tynelius P. Heritability of body size and muscle strength in young adulthood: A study of one million Swedish men. Genet Epidemiol, 2008; 32: 341-9.
Smith T, Martin M, Henry R, Weeks S, Bryant A. Grip strength in relation to overall strength and functional capacity in very old and oldest old females. The Haworth Press Inc., 2006.
Smrithi SC, Shibin GP, Nagaraja S. Influence of various anthropometric parameters on handgrip strength and handgrip endurance in young males and females. Int J Biol Med Res, 2012; 3(3): 2153-2157.
Vassilis G. Reliability of handgrip strength test in Basketball Players. Journal of Human Kinetics, 2012; 31: 25‐36.
Body mass index with handgrip strength and endurance … 7
Turk J Kin 2018; 4(1): 1-7
Vaz M, Hunsberger S, Diffey B. Prediction equations for handgrip strength in healthy male and female subjects encompassing a wide age range. Ann Hum Biol, 2002; 29: 131-141.
Visnapuu M, Jurimae T. Handgrip strength and hand dimensions in young handball and basketball players. J Strength Cond Res, 2007; 21(3): 923–929.
World Health Organization. Now more than ever: The World Health Report, Geneva: World Health Organization, 2008.

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