Effects of Resistance Training with and without Blood Flow Restriction on Cardiovascular Risk Factors in Overweight Females

Farzaneh Hesari , Amin; Ebrahimi, Akram; Azizi Zanjani , Masoumeh; Mahdavi, Solmaz

doi:10.29252/mlj.12.1.31

Volume 12, Issue 1 (Jan-Feb 2018) mljgoums 2018, 12(1): 31-36 | Back to browse issues page

‎ 10.29252/mlj.12.1.31

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Farzaneh Hesari A, Ebrahimi A, Azizi Zanjani M, Mahdavi S. Effects of Resistance Training with and without Blood Flow Restriction on Cardiovascular Risk Factors in Overweight Females . mljgoums 2018; 12 (1) :31-36
URL: http://mlj.goums.ac.ir/article-1-1048-en.html

Effects of Resistance Training with and without Blood Flow Restriction on Cardiovascular Risk Factors in Overweight Females

Amin Farzaneh Hesari

¹, Akram Ebrahimi²

, Masoumeh Azizi Zanjani²

, Solmaz Mahdavi³

1- Department of Exercise Physiology, Sari Branch, Islamic Azad University, Sari, Iran , af.hessari@gmail.com
2- Department of Exercise Physiology, Sari Branch, Islamic Azad University, Sari, Iran
3- Department of sport injuries, Faculty of Physical Education and Sport Sciences, University of Arak, Arak, Iran

Abstract: (16860 Views)

ABSTRACT
         Background and Objectives: Elevated blood lipid levels are correlated with risk of cardiovascular disease, especially in overweight individuals. The beneficial effect of strength training on lipid profile has been well documented. However, the effect of strength training with flow blood restriction has not been established. The purpose of this study was to compare the effect of eight weeks of strength training with and without blood flow restriction on some of the cardiovascular risk factors in overweight females.
         Methods: In this study, 28 overweight females aged 18 to 24 years were randomly assigned into three groups of blood flow restriction strength training (BFRT), traditional strength training (TRT) and control. Participants in the BFRT group performed eight weeks of strength training three sessions per week at 30% of 1-repetetion maximum, while participants in the TRT group performed the training at 65-80% of 1-repetetion maximum. Cardiovascular variables, systolic blood pressure and diastolic blood pressure were measured before and after the exercise training. Data was analyzed using descriptive statistics, paired t-test and one-way analysis of variance.
          Results: Triglyceride level decreased significantly in the BFRT (p=0.022) and TRT (p=0.038) groups compared with the control group. Moreover, there were no significant differences in the body mass, waist-to-hip ratio, body mass index, high-density lipoprotein, low-density lipoprotein, and cholesterol levels between the study groups (P≥0.05).
           Conclusion: Our findings suggest that the BFRT and TRT may not be suitable for preventing or even reversing the physiological changes induced by obesity.
         Keywords: Resistance Training, Lipids, lipoprotein, overweight.

Keywords: Resistance Training, Lipids, lipoprotein, overweight.

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Research Article: Original Paper |
Received: 2018/02/24 | Accepted: 2018/02/24 | Published: 2018/02/24 | ePublished: 2018/02/24

References

1. Kelly T, Yang W, Chen C, Reynolds K, He J. Global burden of obesity in 2005 and projections to 2030. Int J Obes. 2008; 32(9): 1431-7. doi: 10.1038/ijo.2008.102. [DOI:10.1038/ijo.2008.102]

2. Parente B, Guazzelli I, Ribeiro MM, Silva AG. Obese children lipid proﬁle: Effects of hypocaloric diet and aerobic physical exercise. J Endocrino Metabolism. 2006; 50(3): 499. 504.

3. Khadem vatan K, Haghparast F, Eftekhar E, Noroz zade J. Pro oxidant and antioxidant status in patients with coronary artery disease proven angiographically. Hormozgan. Medical Journal. 2009; 12(4): 231-6.[Persian]

4. Wang Z, Nakayama T. Inflammation, a link between obesity and cardiovascular disease. Mediators Inflamm. 2010; 53: 59-18. doi: 10.1155/2010/535918. [DOI:10.1155/2010/535918]

5. Correa C, Teixerira B, Bittencourt A, Lemos L, Radalli R, Pinto R. effect of high and low strength training on muscle strength and lipid profile in postmenopausal women. J of Exercise Science & Fitness. 2014; 12(2): 62-67. [DOI:10.1016/j.jesf.2014.07.001]

6. Gomez J, Rodríguez G, Royo A, Martínez-Redondo R, Luis A, Casajús J. Effect of endurance and resistance training on regional fat mass and lipid profile. Nutr Hosp j. 2013; 28(2): 340-346. doi: 10.3305/nh.2013.28.2.6200.

7. Vincent KR, Braith RW, Bottiglieri T, Vincent HK, Lowenthal DT. Homocysteine and lipoprotein levels following resistance training in older adults. Prev Cardiol j. 2003, 6(4): 197-203. [DOI:10.1111/j.1520-037X.2003.01723.x]

8. Atashak A, Jafari A, Azarbaijani M. The Influences of long-term resistance training on Adiponectin and lipid profiles levels in obese men. Razi Journal of Medical Sciences.2011, 18 (86): 23-31. [Persian]

9. Kawada SH, Ishii N. Skeletal muscle hypertrophy after chronic restriction of venous blood flow in rats. Med Sci Sports Exerc. 2005; 37(7): 1144-1150. [DOI:10.1249/01.mss.0000170097.59514.bb]

10. Madaram H, Sasaki K, Ishi N. Endocrine responses to upper and lower-limb resistance exercises with blood flow restriction. Acta Physiol Hung. 2010; 97(2): 192-200. doi: 10.1556/APhysiol.97.2010.2.5. [DOI:10.1556/APhysiol.97.2010.2.5]

11. Laurentino G, Ugrinowitsch C, Aihara A Y, Fernandes A R, Parcell A C, Ricard M, et al. Effects of strength training and vascular occlusion. Int J Sports Med: 2000, 29(8): 664-7. doi: 10.1055/s-2007-989405. [DOI:10.1055/s-2007-989405]

12. Suga T, Okita K, Morita N, Yokoto T, Hirabayashi K. Intramuscular metabolism during low-intensity resistance exercise with blood flow restriction. J Appl physiol. 2009, 106(4): 1119-24. doi: 10.1152/japplphysiol.90368.2008. [DOI:10.1152/japplphysiol.90368.2008]

13. Hosseini Khakhk SA, Sharifi A, Hamedi Nia MR. A comparison of the effect of traditional resistance training with resistance training with vascular occlusion on ‌muscular function and cardiovascular endurance in young females. Sport Bioscience J. 2011; 3(10): 95-114. (Persian)

14. Scott BR, Loenneke JP, Slattery KM, Dascombe BJ. Exercise with blood flow restriction: An updated evidence-based approach for enhanced muscular development. Sports Medicine. 2015; 45(3): 313-25. doi: 10.1007/s40279-014-0288-1. [DOI:10.1007/s40279-014-0288-1]

15. Lixandrão M E, Ugrinowitsch C, Laurentino G, Libardi C A, Aihara A Y, Cardoso F N, et al. Effects of exercise intensity and occlusion pressure after 12 weeks of resistance training with blood-flow restriction. European Journal of Applied Physiology. 2015; 115(12): 2471-80. doi: 10.1007/s00421-015-3253-2. [DOI:10.1007/s00421-015-3253-2]

16. Mattar MA, Gualano B, Perandini LA, Shinjo SK, Lima FR, Sá-Pinto AL, et al. Safety and possible effects of low-intensity resistance training associated with partial blood flow restriction in polymyositis and dermatomyositis. Arthritis Research & Therapy. 2015, 16(4): 473-451.

17. Mogharnasi M, Bagheri M. The Effect of 12 Weeks of Circuit Resistance Training on C-Reactive Protein and Lipid Profile in Inactive Women. Sport Biosciences J. 2014, 6(2): 233-44. [Persian] Hosseini Kakhk SA, Amiri Parsa T, Azarnive M, Hamedinia MR. The Effect of Resistance Training, Aerobic Training and Detraining on the Lipid Profile and CRP in Obese girls. Journal of Sabzevar University of Medical Sciences. 2011, 18(3): 187-197. [Persian]

18. Heydarpour P, Fayazi S, Haghighi S. Resistance Training Effect on Lipid Profile and Body Fat Percentage of Premenopausal Women. Jundishapur J Chronic Dis Care. 2015; 4(2): 25-34. [DOI:10.5812/jjcdc.28339]

19. Banz WJ, Maher MA, Thompson WG, Bassett DR, Moore W, Ashraf M. Effect of resistance versus aerobic training on coronary artery disease risk factors. Experimental Biology and Medicine. 2003; 228(4): 434-440. [DOI:10.1177/153537020322800414]

20. Thompson PD, Tsongalis GJ, Seip RL, Bilbie C, Miles M, Zoeller R, et al. Apolipoprotein E genotype and changes in serum lipids and maximal oxygen uptake with exercise training. Metabolism J. 2004; 53 (2): 193-202. [DOI:10.1016/j.metabol.2003.09.010]

21. Eliakim A, Makowski GS, Brasel JA, Cooper DM. Adiposity, Lipid levels and brief endurance training in nonobese adolescent male. J sports Med. 2000; 21(5): 332. 337.

22. Davis G, Bartoli W, Durstin L. Effects of acute exercise intensity on Plasma Lipid and apolipoprote in intrained runners. J of Appl Physiol. 1992; 72(3): 914-19. [DOI:10.1152/jappl.1992.72.3.914]

23. Linda MH, Serge P, Duvillord V. Lipid and lipoprotein proﬁle, cordiovascular ﬁtness, bodycomposition and deit during and after resistance, aerobic and combination training in young. Women Eur J Appl Physiol. 2000; 82(5-6): 451-458. [DOI:10.1007/s004210000234]

24. Jones H, Hopkins N, Bailey B, Thijssen H. Seven-day remote ischemic preconditioning improves local and systemic endothelial function and microcirculation in healthy. American Journal of Hypertension. 2014; 27(7): 918-25. doi: 10.1093/ajh/hpu004. [DOI:10.1093/ajh/hpu004]

25. Jones H, Green D J, George K, Atkinson G. Intermittent exercise abolishes the diurnal variation in endothelial-dependent flow-mediated dilation in humans. Am J Physiol Regul Integr Comp Physiol. 2010; 298(8): 427-432. doi: 10.1152/ajpregu.00442.2009. [DOI:10.1152/ajpregu.00442.2009]

26. Semenza GL, Agani F, Booth G, Forsythe J, Iyer N, Jiang BH. Structural and functional analysis of hypoxia-inducible factor 1. Kidney Int. 1997, 51(2): 553-5. [DOI:10.1038/ki.1997.77]

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