1. Zolfeghar Didani H, Kargarfard M, Marjani A, Karim V. The effects of vitamin supplementation on oxidative stress indices after anaerobic activity in Water Polo players. J Isfahan Med School. 2012;30(199): 1-12. (In Persian)
2. Afzalpour M, Gharakhanlou R, Gaeini A, Mohebi H, Hedayati S. The effects of vigorous and moderate aerobic exercise on the serum arylesterase activity and total antioxidant capacity in non-active healthy men. Int J Sport Sciense Eng.2006;2:105-12.
3. Cavas L, Tarhan L. Effects of vitamin-mineral supplementation on cardiac marker and radical scavenging enzymes, and MDA levels in young swimmers. Int J Sport Nut Exercise Met. 2004;14(2):133-46.
4. Allen R, Tresini M. Oxidative stress and gene regulation. Free Radical Bio Med. 2000;28(3):463-99.
5. Memar MM, Talebi GE. Comparison of total antioxidant capacity, oxidative stress status and lipoprotein profile of cyclist with non-athlete. Sport Bio Sci.2012;5:19-26. (In Persian).
6. Jenkins RR. Free radical chemistry. Sports Med. 1988;5(3):156-70.
7. Gharakhanlou R, Afzalpour ME, Gaeini AA, Rahnama N. Effects of aerobic exercises on the serum paraoxonase 1/arylesterase activity and lipid profile in non-active healthy men. Int J Sports Science and Eng. 2007;1:105-12.
8. Ascensão A, Ferreira R, Magalhães J. Exercise-induced cardioprotection—biochemical, morphological and functional evidence in whole tissue and isolated mitochondria. Int J Cardiol. 2007;117(1):16-30.
9. Ji LL. Antioxidants and oxidative stress in exercise. Experim Bio and med. 1999;222(3):283-92.
10. Morillas-Ruiz J, Zafrilla P, Almar M, Cuevas M, Lopez F, Abellan P, et al. The effects of an antioxidant-supplemented beverage on exercise-induced oxidative stress: results from a placebo-controlled double-blind study in cyclists. Eur J Appl Physiol. 2005;95(5-6):543-9.
11. Halliwell B, Gutteridge JM. Free radicals in biology and medicine: Oxford University Press, USA; 2015.
12. Güzel NA, Hazar S, Erbas D. Back Issues. J Sports Sci Med. 2007;6:417-22.
13. Gladden L. Lactate metabolism: A new paradigm for the third millennium. J physiol. 2004;558(1):5-30.
14. Radak Z, Taylor AW, Ohno H, Goto S. Adaptation to exercise-induced oxidative stress: from muscle to brain. Exerc Immunol Rev. 2001;7:90-107.
15. Bogdanis G, Stavrinou P, Fatouros I, Philippou A, Chatzinikolaou A, Draganidis D, et al. Short-term high-intensity interval exercise training attenuates oxidative stress responses and improves antioxidant status in healthy humans. Food Chem Toxicol. 2013;61:171-7.
16. Ugras AF. Effect of high intensity interval training on elite athletes’ antioxidant status. Sci Sport. 2013;28(5):253-9.
17. Smarsh DN, Williams CA. Oxidative Stress and Antioxidant Status in Standardbreds: Effect of Age and Acute Exercise Before and After Training. J Equine Vet Sci. 2016;47:92-106.
18. Cantú-Medellín N, Byrd B, Hohn A, Vázquez-Medina JP, Zenteno-Savín T. Differential antioxidant protection in tissues from marine mammals with distinct diving capacities. Shallow/short vs. deep/long divers. Comparative Comp Biochem Phys A. 2011;158(4):438-43.
19. Tahery B, Rezaeshirazi R. effect of a six-week high-intensity interval training on antioxidant capacity and lipid peroxidation in inactive men. Acta Medica. 2016;32:1055-8.
20. De Araujo GG, Papoti M, Dos Reis IG, de Mello MA, Gobatto CA. Short and long term effects of high-intensity interval training on hormones, metabolites, antioxidant system, glycogen concentration and aerobic performance adaptations in rats. fronti physiol. 2016;7:505.
21. Mirdar S, Alavi Y, Maleki F. The effects of caffeine and incremental exercise training on oxidative stress and enzymatic antioxidant in active men. J Sport physiol. 2014; 5(20):39-52. (In Persian).
22. Ogura Y, Naito H, Kurosaka M, Sugiura T, Junichiro A, Katamoto S. Sprint-interval training induces heat shock protein 72 in rat skeletal muscles. J sports sci med. 2006;5(2):194-201.
23. Miller NJ, Rice-Evans C, Davies MJ, Gopinathan V, Milner A. A novel method for measuring antioxidant capacity and its application to monitoring the antioxidant status in premature neonates. Clin Sci 1993;84(4):407-12.
24. Kaya H, Sezik M, Ozkaya O, Dittrich R, Siebzehnrubl E, Wildt L. Lipid peroxidation at various estradiol concentrations in human circulation during ovarian stimulation with exogenous gonadotropins. Horm Metab Res. 2004;36(10):693-5.
25. Atalay M, Seene T, Hänninen O, Sen C. Skeletal muscle and heart antioxidant defences in response to sprint training. Acta Physiol Scand. 1996;158(2):129-34.
26. Pinho CA, Tromm CB, Tavares AM, Silva LA, Silveira PCL, Souza CT, et al. Effects of different physical training protocols on ventricular oxidative stress parameters in infarction-induced rats. Life Sci. 2012;90(13):553-9.
27. Chevion S, Moran DS, Heled Y, Shani Y, Regev G, Abbou B, et al. Plasma antioxidant status and cell injury after severe physical exercise. Proc Nati Acad Sci. 2003;100(9):5119-23.
28. Powers SK, Quindry JC, Kavazis AN. Exercise-induced cardioprotection against myocardial ischemia–reperfusion injury. Free Radical Bio Med. 2008;44(2): 193-201.
29. Kayatekin B, Gönenç S, Açikgöz O, Uysal N, Dayi A. Effects of sprint exercise on oxidative stress in skeletal muscle and liver. Eur J Appl Physiol. 2002;87(2):141-4.
30. Radak Z, Chung HY, Goto S. Systemic adaptation to oxidative challenge induced by regular exercise. Free Radical Bio Med. 2008;44(2):153-9.
31. Criswell D, Powers S, Dodd S, Lawler J, Edwards W, Renshler K, et al. High intensity training-induced changes in skeletal muscle antioxidant enzyme activity. Med and sci in sports and exercise. 1993;25(10):1135-40.
32. Pimenta M, Bringhenti I, Souza-Mello V, dos Santos Mendes IK, Aguila MB, Mandarim-de-Lacerda CA. High-intensity interval training beneficial effects on body mass, blood pressure, and oxidative stress in diet-induced obesity in ovariectomized mice. Life Sci. 2015;139:75-82.
33. Cunningham P, Geary M, Harper R, Pendleton A, Stover S. High intensity sprint training reduces lipid peroxidation in fast-twitch skeletal muscle. JEPonline. 2005;8(6):18-25.
34. Clanton TL. Hypoxia-induced reactive oxygen species formation in skeletal muscle. J Appl Phycol. 2007;102(6):2379-88.
35. Tesoriere L, D'Arpa D, Butera D, Pintaudi AM, Allegra M, Livrea MA. Exposure to malondialdehyde induces an early redox unbalance preceding membrane toxicity in human erythrocytes. Free Radical Res. 2002;36(1):89-97.
36. Ogonovszky H, Sasvári M, Dosek A, Berkes I, Kaneko T, Tahara S, et al. The effects of moderate, strenuous, and overtraining on oxidative stress markers and DNA repair in rat liver. Can J Appl Physiol. 2005;30(2):186-95.
37. Afzalpour M, Gaeini A, Khazai M, editors. Effects of aerobic exercise on the serum LDL and Total Capacity in Non-Active healthy men. 11th Annual Congress of the ECSS, 5-8 July 2006, Switzerland; 2006.
38. Esmaeil AM, editor. Interaction between Aerobic exercise and oxidative stress in sedentary men. 12th Annual Congress of the ECSS, Jyväskylä, FINland; 2007. 11-14 July.