Minasian, Vazgen, Hovsepian, Volga. (1401). The Association between Relative Total Hand Grip Strength and Cardiorespiratory Fitness: Has Hand Grip Strength Predictive Ability for VO2 Max?. , 2(3), 81-94. doi: 10.22089/jehs.2024.16301.1080
Vazgen Minasian; Volga Hovsepian. "The Association between Relative Total Hand Grip Strength and Cardiorespiratory Fitness: Has Hand Grip Strength Predictive Ability for VO2 Max?". , 2, 3, 1401, 81-94. doi: 10.22089/jehs.2024.16301.1080
Minasian, Vazgen, Hovsepian, Volga. (1401). 'The Association between Relative Total Hand Grip Strength and Cardiorespiratory Fitness: Has Hand Grip Strength Predictive Ability for VO2 Max?', , 2(3), pp. 81-94. doi: 10.22089/jehs.2024.16301.1080
Minasian, Vazgen, Hovsepian, Volga. The Association between Relative Total Hand Grip Strength and Cardiorespiratory Fitness: Has Hand Grip Strength Predictive Ability for VO2 Max?. , 1401; 2(3): 81-94. doi: 10.22089/jehs.2024.16301.1080

The Association between Relative Total Hand Grip Strength and Cardiorespiratory Fitness: Has Hand Grip Strength Predictive Ability for VO2 Max?

Journal of Exercise and Health Science
دوره 2، شماره 3، شهریور 2022، صفحه 81-94    اصل مقاله (617.8 K)
نوع مقاله: Original Article
شناسه دیجیتال (DOI): 10.22089/jehs.2024.16301.1080
نویسندگان
Vazgen Minasian* 1؛ Volga Hovsepian2
1Department of Exercise Physiology, Faculty of Sport Sciences, University of Isfahan, Isfahan, Iran
2Department of Exercise Physiology, Paculty of Sport Science, University of Isfahan , Isfahan,Iran
چکیده
Background: Hand-grip strength has an important role in daily activities and serves as a reliable indicator of overall strength of body and health.
Aims: The purpose of present study was to determine the association between relative total hand grip strength and cardiorespiratory fitness of individuals who joined in Isfahan iron smelting factory recruitment tests.
Methods: Data were collected from 1010 men aged 20-35 years that participated in this study. The Right and Left-hand strength evaluated by dynamometer; cardiorespiratory fitness with 20m shuttle run test; push-ups; curl-ups; trunk strength and body fat percentage with valid tests and protocols. Relationship between relative overall hand-grip and cardiorespiratory index of individuals and other variables were examined using multiple linear regression.
Results: The regression analysis showed significant association between relative total handgrip strength (THGS) and cardiorespiratory fitness of participants adjusted by body mass index (r= 0.482; p=0.001) and body surface area (r= 0.207; p=0.001).
Conclusions: Data analysis revealed that hand-grip strength adjusted by body max index and body surface area could be an indicator of physical health and moderately reflect cardiorespiratory fitness in healthy young adults.
مراجع
  1. Alahmari, K. A., Silvian, S. P., Reddy, R. S., Kakaraparthi, V. N., Ahmad, I., & Alam, M. M. (2017). Hand grip strength determination for healthy males in Saudi Arabia: A study of the relationship with age, body mass index, hand length and forearm circumference using a hand-held dynamometer. Journal of International Medical Research, 45(2), 540-548.
  2. Artero, E. G., Ruiz, J. R., Ortega, F. B., España‐Romero, V., Vicente‐Rodríguez, G., Molnar, D., Moreno, L. A. (2011). Muscular and cardiorespiratory fitness are independently associated with metabolic risk in adolescents: the HELENA study. Pediatric diabetes, 12(8), 704-712.
  3. Bohannon, R. W. (2008). Hand-grip dynamometry predicts future outcomes in aging adults. Journal of geriatric physical therapy, 31(1), 3-10.
  4. Calderwood, C., ten Brummelhuis, L. L., Patel, A. S., Watkins, T., Gabriel, A. S., & Rosen, C. C. (2020). Employee Physical Activity: A Multidisciplinary Integrative Review. Journal of Management, 47(1), 144-170. doi:10.1177/0149206320940413
  5. Celis-Morales, C. A., Lyall, D. M., Anderson, J., Iliodromiti, S., Fan, Y., Ntuk, U. E., Gill, J. M. (2017). The association between physical activity and risk of mortality is modulated by grip strength and cardiorespiratory fitness: evidence from 498 135 UK-Biobank participants. European heart journal, 38(2), 116-122.
  6. Cooper, A., Lamb, M., Sharp, S., Simmons, R., & Griffin, S. (2017). Bidirectional association between physical activity and muscular strength in older adults: Results from the UK Biobank study. International journal of epidemiology, 46(1), 141-148.
  7. Crump, C., Sundquist, J., Winkleby, M. A., & Sundquist, K. (2017). Interactive effects of aerobic fitness, strength, and obesity on mortality in men. American journal of preventive medicine, 52(3), 353-361.
  8. Dag, F., Tas, S., & Cimen, O. B. (2021). Hand-grip Strength is Correlated with Aerobic Capacity in Healthy Sedentary Young Females. Montenegrin Journal of Sports Science and Medicine, 10(1), 55-60.
  9. Eston, R. G., & Parfitt, G. (2018). Perceived Exertion, Heart Rate, and other Non-Invasive Methods for Exercise Testing and Intensity Control. Kinanthropometry and Exercise Physiology, 464-499.
  10. Gibson, A. L., Wagner, D., & Heyward, V. (2019). Advanced fitness assessment and exercise prescription, 8E: Human kinetics.
  11. Grant, J. A., Josepeh, A., & Campagna, P. D. (1999). The prediction of VO2max: a comparison of 7 indirect tests of aerobic power. The Journal of Strength & Conditioning Research, 13(4), 346-352.
  12. Ingrová, P., Králík, M., & Bártová, V. (2017). Relationships between the hand grip strength and body composition in Czech and Slovak students. Slovenská antropológia, 20(1), 30-43.
  13. Kallman, D. A., Plato, C. C., & Tobin, J. D. (1990). The role of muscle loss in the age-related decline of grip strength: cross-sectional and longitudinal perspectives. Journal of gerontology, 45(3), M82-M88.
  14. Kilding, A. E., Aziz, A. R., & Teh, K. (2006). Measuring and predicting maximal aerobic power in international-level intermittent sport athletes. Journal of sports medicine and physical fitness, 46(3), 366.
  15. Kodama, S., Saito, K., & Tanaka, S. (2009). Healthy Men and Women: A Metaanalysis All-Cause Mortality and Cardiovascular Events in Healthy Men and Women: A Meta-analysis. JAMA, 301(19), 2024-2035.
  16. LeBlanc, P. J., Peters, S. J., Tunstall, R. J., Cameron‐Smith, D., & Heigenhauser, G. J. (2004). Effects of aerobic training on pyruvate dehydrogenase and pyruvate dehydrogenase kinase in human skeletal muscle. The Journal of Physiology, 557(2), 559-570.
  17. Nevill, A. M., & Holder, R. L. (2003). Modelling handgrip strength in the presence of confounding variables: results from the Allied Dunbar National Fitness Survey. In Advances in Sport, Leisure and Ergonomics (pp. 291-302): Routledge.
  18. Ortega, F. B., Silventoinen, K., Tynelius, P., & Rasmussen, F. (2012). Muscular strength in male adolescents and premature death: cohort study of one million participants. Bmj, 345, e7279.
  19. Pettersson-Pablo, P., Nilsson, T. K., Breimer, L. H., & Hurtig-Wennlöf, A. (2019). Body fat percentage is more strongly associated with biomarkers of low-grade inflammation than traditional cardiometabolic risk factors in healthy young adults–the Lifestyle, Biomarkers, and Atherosclerosis study. Scandinavian Journal of Clinical and Laboratory Investigation, 79(3), 182-187.
  20. Prince, S. A., Rasmussen, C. L., Biswas, A., Holtermann, A., Aulakh, T., Merucci, K., & Coenen, P. (2021). The effect of leisure time physical activity and sedentary behaviour on the health of workers with different occupational physical activity demands: a systematic review. International Journal of Behavioral Nutrition and Physical Activity, 18, 1-17.
  21. Ramírez-Vélez, R., Tordecilla-Sanders, A., Correa-Bautista, J. E., Peterson, M. D., & Garcia-Hermoso, A. (2016). Handgrip strength and ideal cardiovascular health among Colombian children and adolescents. The Journal of pediatrics, 179, 82-89. e81.
  22. Rantanen, T., Harris, T., Leveille, S. G., Visser, M., Foley, D., Masaki, K., & Guralnik, J. M. (2000). Muscle strength and body mass index as long-term predictors of mortality in initially healthy men. The Journals of Gerontology Series A: Biological Sciences and Medical Sciences, 55(3), M168-M173.
  23. Roberts, H. C., Denison, H. J., Martin, H. J., Patel, H. P., Syddall, H., Cooper, C., & Sayer, A. (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.
  24. Ruiz, J. R., Sui, X., Lobelo, F., Morrow, J. R., Jackson, A. W., Sjöström, M., & Blair, S. N. (2008). Association between muscular strength and mortality in men: prospective cohort study. Bmj, 337.
  25. Ruprai, R. K., Tajpuriya, S. V., & Mishra, N. (2016). Handgrip strength as determinant of upper body strength/physical fitness: a comparative study among individuals performing gymnastics (ring athletes) and gymnasium (powerlifters). J. Med. Sci. Public Health, 5, 1167-1172.
  26. Serra, C., Rodriguez, M. C., Delclos, G. L., Plana, M., López, L. I. G., & Benavides, F. G. (2007). Criteria and methods used for the assessment of fitness for work: a systematic review. Occupational and environmental medicine, 64(5), 304.
  27. Shah, R. V., Murthy, V. L., Colangelo, L. A., Reis, J., Venkatesh, B. A., Sharma, R., . . . Rana, J. S. (2016). Association of fitness in young adulthood with survival and cardiovascular risk: the Coronary Artery Risk Development in Young Adults (CARDIA) study. JAMA internal medicine, 176(1), 87-95.
  28. Shephard, R. J., Allen, C., Benade, A., Davies, C., Di Prampero, P., Hedman, R., Simmons, R. (1968). The maximum oxygen intake: An international reference standard of cardio-respiratory fitness. Bulletin of the World Health Organization, 38(5), 757.
  29. Sui, X., Lee, D.-c., Matthews, C. E., Adams, S. A., Hébert, J. R., Church, T. S., . . . Blair, S. N. (2010). The influence of cardiorespiratory fitness on lung cancer mortality. Medicine and science in sports and exercise, 42(5), 872.
  30. Thomaes, T., Thomis, M., Onkelinx, S., Goetschalckx, K., Fagard, R., Cornelissen, V., & Vanhees, L. (2012). Muscular strength and diameter as determinants of aerobic power and aerobic power response to exercise training in CAD patients. Acta cardiologica, 67(4), 399-406.
  31. Thomas, E., Gennaro, V., Battaglia, G., Bellafiore, M., Iovane, A., Palma, A., & Bianco, A. (2021). Upper body strength endurance evaluation: A comparison between the handgrip strength and three body weight tests. Isokinetics and Exercise Science, 29(2), 185-191.
  32. Trosclair, D., Bellar, D., Judge, L., Smith, J., Mazerat, N., & Brignac, A. (2011). Hand-grip strength as a predictor of muscular strength and endurance. The Journal of Strength & Conditioning Research, 25, S99.
  33. Wallymahmed, M., Morgan, C., Gill, G., & MacFarlane, I. (2007). Aerobic fitness and hand grip strength in Type 1 diabetes: relationship to glycaemic control and body composition. Diabetic Medicine, 24(11), 1296-1299.
  34. Wong, S. Y. S., Chan, F. W. K., Lee, C. K., Li, M., Yeung, F., Lum, C. C. M., Choy, D. T. (2008). Maximum oxygen uptake and body composition of healthy Hong Kong Chinese adult men and women aged 20–64 years. Journal of sports sciences, 26(3), 295-302.
  35. Xu, C., Kasimumali, A., Guo, X., Lu, R., Xie, K., Zhu, M., Wang, Q. (2020). Reduction of mitochondria and up regulation of pyruvate dehydrogenase kinase 4 of skeletal muscle in patients with chronic kidney disease. Nephrology, 25(3), 230-238.
  36. Zhang, Q., Lu, H., Pan, S., Lin, Y., Zhou, K., & Wang, L. (2017). 6MWT performance and its correlations with VO2 and handgrip strength in home-dwelling mid-aged and older Chinese. International journal of environmental research and public health, 14(5), 473.
  37. Zhou, M., Zha, F., Chen, Y., Liu, F., Zhou, J., Long, J., Luo, D. (2021). Handgrip strength-related factors affecting health outcomes in young adults: association with cardiorespiratory fitness. BioMed research international, 2021.
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