The purpose of this study was to analyze the effect of one circular resistance training session on circular surface and plasma myostatin of young female volleyball players. This article was semi-experimental with pre-test and post-test design. The statistical population of this study included club female volleyball players of Zahedan city. In this study, a sample size of 24 was used, who were divided into two groups of 12. Age of subjects was between 23.9 and 24.5. Sampling was done using purposive sampling method from among qualified subjects. Measurement tools included a demographic questionnaire and consent form, digital scales, height gauge, stopwatch, syringes and blood samplers, free weights and training machine weights, laboratory kits, freezers and centrifuges, and microplate reader. To analyze the data, the descriptive statistics were used, including mean and standard deviation and for comparison between pre-test and post-test variables, paired t-test (dependent t) were used and independent t-test was used to compare the mean differences between the studied groups. All analysis operations were done at the significance level of p ≥ 0.05 and statistical analysis was done using SPSS version 20. In this study, the following results were obtained: (1) a circular resistance training session had significant effect on increasing plasma concentrations in female volleyball players. 2. A circular resistance training session had no significant effect on plasma myostatin concentration in female volleyball players. The results showed for the first time that circular resistance training is a strong stimulus to increase plasma myogenin. So, this kind of activity can be a stimulus for muscle hypertrophy.

 

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circular resistance training, myogenin, myostatin, female volleyball players

Arazi, H., Hosseini, R. (2010), Comparing the effect of different intensities of circular resistance training on appetite level of female and male student trained, sports and motor Life Sciences journal, (2) 47-53.

Assad, MR, Vakili, J. (2012), The effect of resistance training program on plasma myostatin level of untrained obese men, Journal of Applied Researches in Management and Life Sciences in Sport, No. 1, Ss75-80.

Bagheri, A., (2014), The effect of combined training (strength and endurance) on serum levels of myostatin, follistatin and follistatic ratio on myostatin of elderly women.

Boroujeni, A., (2012), The effect of 8 weeks of resistance training on signal factors affecting the satellite cells in male Wistar rats, Master Thesis, University of Isfahan.

Pakdel, A., Naqib al-Hussaini, F. (2013), Effect of carcinoembryonic antigen solution on cell myogenic enterocytic differentiation, Koomesh Journal, 14(3) 373-381.

Tavassoli, A., (2014), The impact of a circular resistance training on plasma levels of acylated ghrelin, insulin and growth hormone in males 17 to 19 years old with overweight, Research Journal of Animal Science, 3(3) 265-269.

Saghebjoo, M., Shabanpour, J. (2013), The effect of eight weeks of high-intensity circular resistance training on plasma chemerin levels and glycemic control in male patients with diabetes type 2, Olympic Magazine, 20(3) 100-113.

Robergs, R. (2005), The fundamental principles of sports physiology (Trans. A. Gaeini, V. Dabidi Roshan. Tehran: SAMT.

Rahimi, A., Mirdar, Sh., Baghban, H., (2014), The influence of Ginseng supplements on serum levels of IGF-1 and myostatin among Karate players after one-round race simulation, Metabolism and training journal, 3 F(2), 167-179.

Rashidlamir, A., Mirzendehdel, Z., Ravasi, A., (2011), The effect of intensity of circular resistance training on ghrelin and GH plasma concentration among young women, Journal of Sport Life Sciences, (15) 107-120.

Zakavi (2014), The effect of 12 weeks of combined training (aerobic and resistance) on plasma myostatin levels in obese adolescents, Journal of motor and sports sciences, 7(13) 67-80.

Saremi, A., Gharaati, M. (2010), The effects of resistance training on serum myostatin and insulin resistance in overweight men, Journal of Sport Life Sciences, (4) 93-108.

Saremi (2011). Effects of resistance training on serum levels of myostatin and muscle mass OF male smokers and non-smokers. Cell and tissue journal, (9) 1-15.

Saremi, A. (2009), The effects of resistance training on bone mineral density and serum levels of myostatin among male adolescents. Arak University of Medical Sciences.

Saremi, A., (2009), The effect of resistance training on bone mineral density and serum myostatin levels in young men, Arak Journal of Medical Sciences, 12(2) 89-97.

Saremi, A., Bahrami, A. (2011), Effect of resistance training on serum levels of myostatin and skeletal muscle mass among male smokers and non-smokers, Journal of cells and tissues, 2(1) 9-15.

Saremi, A., Gharaati, M. (2010), The effects of resistance training on serum levels of myostatin and insulin resistance among obese men, Life sciences journal, 4.

Asgarpour M., (2015), The effects of resistance training methods and lack of training on serum myostatin levels, cortisol, testosterone and male non-trained muscle strength, Metabolism and training journal, 3 F (2) 167-179.

Gharakhanlou, R., saremi, A., Omidfar, K., Sharghi, S., (2008), The effect of resistance training on levels of myostatin GASP-1, IGF-I and IGFBP-3 in young men, Motor and sport sciences journal, 7(13) 67-80.

Gharakhanlou, A.A. (2008), The effect of resistance training on serum levels of myostatin, testosterone and cortisol among young men, Olympic journal, (31) 3-43.

Mohammadi, Z., Roshanfekr, H. (2014), Study and proliferation of myostatin gene regulation zone and determining sequence of it in native cattle (Najdi) of Khuzestan, Iran Animal Science Research Journal, 6(3) 265-269.

Schiaffino S, Reggiani C(1996).Molecular diversity of myofibrillar proteins: gene regulation and functional significance. Physiological reviews.76,2,371

Crameri RM, Langberg H, Magnusson P, Jensen CH, Schrøder HD, Olesen JL, et al.(2004).Changes in satellite cells in human skeletal muscle after a single bout of high intensity training.The Journal of Physiology.558,1,333

Sabourin LA, Rudnicki MA(2000).The molecular regulation of myogenesis.Clinical genetics.57,1,16-25

Musaro A, De Angelis MGC, Germani A, Ciccarelli C, Molinaro M, Zani B(1995).Enhanced expression of myogenic regulatory genes in aging skeletal muscle.Experimental cell research.221,1,241-8

Hulmi JJ, Kovanen V, Lisko I, Selänne H, Mero AA(2008).The effects of whey protein on myostatin and cell cycle-related gene expression responses to a single heavy resistance training bout in trained older men.European journal of applied physiology.102,2,205-13

Matsakas A, Bozzo C, Cacciani N, Caliaro F, Reggiani C, Mascarello F, et al.(2006).Effect of swimming on myostatin expression in white and red gastrocnemius muscle and in cardiac muscle of rats.Experimental Physiology.91,6,983

Kim J, Cross JM, Bamman MM(2005).Impact of resistance loading on myostatin expression and cell cycle regulation in young and older men and women.American Journal of Physiology-Endocrinology And Metabolism.288,6,E1110

Willoughby DS(2004).Effects of heavy resistance training on myostatin mRNA and protein expression.Medicine & Science in Sports & Training.36,4,574

Louis E, Raue U, Yang Y, Jemiolo B, Trappe S(2007).Time course of proteolytic, cytokine, and myostatin gene expression after acute training in human skeletal muscle.Journal of Applied Physiology.103,5,1744

Walker Ks, Kambadur R, Sharma M, Smith Hk(2004).Resistance training alters plasma myostatin but not IGF-1 in healthy men.Medicine & Science in Sports & Training.36,5,787

Jensky NE, Sims JK, Dieli-Conwright CM, Sattler FR, Rice JC, Schroeder ET(2010).Training does not influence myostatin and follistatin mRNA expression in young women.Journal of strength and conditioning research/National Strength & Conditioning Association.24,2,522