The Response of Oxidative Stress Indicators to Grape Seed Extract Supplementation and Resistance Training in Bodybuilders
Subject Areas : Sports Science and Healthy
Fariba Joshaghani
1
,
Hamzeh Rahmani
2
,
Amin Yosefvand
3
1 - Master's degree, Sports Physiology, Faculty of Physical Education and Sports Sciences, Karaj Branch, Islamic Azad University, Karaj, Iran
2 - Master's degree, Sports Physiology, Faculty of Physical Education and Sports Sciences, Tehran Teacher Training University, Tehran, Iran
3 - Master's degree, Sports Physiology, Faculty of Physical Education and Sports Sciences, Karaj Branch, Payam Noor University, Karaj, Iran
Keywords: Extract, Grape Seed, Oxidative Stress, Bodybuilders.,
Abstract :
Black grape seed extract (GSE) is a supplement known for its potent antioxidant effects and flavonoid properties that can help prevent or reduce cell damage. This study aimed to examine the impact of grape seed extract supplementation and resistance training on oxidative stress indicators in bodybuilders. The research followed a semi-experimental design, with participants divided into supplement and control groups for blood sampling before and after supplement intake in a double-blind fashion. The study included 24 male bodybuilders aged 15-19 years. Blood samples were collected during fasting sessions to measure antioxidant capacity (TAC), malondialdehyde (MDA), creatine kinase (CK), and lactate dehydrogenase (LDH) levels. Data distribution normality was assessed using Shapiro-Wilk tests. The results revealed that resistance training in bodybuilders led to a significant increase in cell damage markers (CK and LDH) and MDA levels, along with a notable decrease in TAC (P<0.05). However, grape seed extract consumption was found to boost TAC levels. The study suggests that bodybuilding activities can elevate cell damage and oxidative stress indicators, while daily intake of grape seed extract (100 mg) can enhance total antioxidant capacity in male bodybuilders.
جعفری، افشار (1390). تاثیر مکمّلسازی کوتاهمدت عصاره سیر بر لاکتات و کراتین کیناز تام سرمی مردان سالم پس از یک وهله فعالیت هوازی. المپیک، 3(55)، ص 93-81.
حکاک دخت، الهام؛ اسلامی، فاطمه؛ رجبی، حمید؛ هدایتی، مهدی (1390). اثر تمرین هوازی و مکمّلهای E و C بر آنزیمهای GPX و SOD در موشهای باردار. المپیک، 3(55)، ص 56-47.
دبیدی روشن، ولیالله؛ چوبینه، سیروس؛ فرامرزی، مهدی (1385). اثر مکمّل تورین بر پراکسیداسیون لیپیدی موشهای ویستار بعد از یک وهله فعالیت استقامتی درماندهساز. المپیک، شماره 36، ص 107-99.
رییس ساداتی، ژیلا (1393). تعیین اثر مصرف عصاره هسته انگور بر کوفتگی تاخیری ناشی از فعالیت اکسنتریک در دانشجویان دختر غیرفعال. پایاننامه کارشناسی ارشد. رشته تربیت بدنی و علوم ورزشی، دانشگاه محقق اردبیلی.
زلفی، حمیدرضا؛ ساری صراف، وحید؛ بابائی، حسن؛ امیر ساسان، رامین (1394). تاثیر مکمّلسازی عصاره دانه انگور سیاه و یک جلسه فعالیت هوازی بر پاسخ شاخصهای آسیب سلول عضلانی. در: تهران: نهمین همایش بینالمللی تربیت بدنی و علوم ورزشی.
ساری صراف، وحید؛ بابائی، حسن؛ حق روان، جواد؛ زلفی، حمیدرضا (1393). تاثیر مکمّلسازی کوتاهمدت عصاره دانه انگور سیاه بر مالون دی الدهید و کراتین کیناز سرمی پس از یک جلسه فعالیت هوازی در مردان. المپیک نوین، 1(2)، ص 116-105.
یثربی، محمدعلی؛ سلامی، فاطمه؛ رجبی، حمید؛ سردار، محمد (1389). اثر 8 هفته تمرین سرعتی با و بدون مکمّل ویتامینهای E و C بر مالون دی الدهید و سوپراکسیداز دیسموتاز پلاسمای ورزشکاران. المپیک، 3(51)، ص 147-137.
Alessio, H.M. & Goldfarb, A.H. (1988). Lipid peroxidation and scavenger enzymes during exercise: adaptive response to training. Journal of Applied Physiology, 64(4), p.1333-1336.
Ayala, A., Mario, M. & Argüelles, S. (2014). Lipid peroxidation: production, metabolism, and signaling mechanisms of malondialdehyde and 4-hydroxy-2-nonenal. Oxidative Medicine and Cellular Longevity, No.6, p. 360438.
Babaei, P., Rahmani-nia, F., Nakhostin, B. & Bohlooli, S.H. (2009). The effect of VC on immunoendocrine and oxidative stress responses to exercise. Journal of Clinical and Diagnostic Research, No. 3, p.1627-1632.
Banerjee, A.K., Mandal, A., Chanda, D. & Chakraborti, S. (2003). Oxidant, antioxidant and physical exercise. Molecular and Cellular Biochemistry, No.253, p. 307-312.
Bloomer, R.J., Goldfarb, A.H. & McKenzie, M.J. (2006). Oxidative stress response to aerobic exercise: comparison of antioxidant supplements. Medicine and Science in Sports and Exercise, No. 38, p.1098-1105.
Bryer, S.C. & Goldfarb, A.H. (2006). Effect of high dose vitamin C supplementation on muscle soreness, damage, function, and oxidative stress to eccentric exercise. International Journal of Sport Nutrition and Exercise Metabolism, No. 16, p. 270-280.
Byrne, C. & Eston, R. (2005). The effect of exercise-induced muscle damage on isometric and dynamic knee extensor strength and vertical jump performance. Journal of sports sciences, No. 20, p. 417-425.
Clarkson, P.M. & Sayers, S.P. (1999). Etiology of exercise-induced muscle damage. Canadian journal of applied physiology,24(3), p. 234.
Close, G., Ashton, T., Cable, T., Doran, D. & MacLaren, D. (2004). Eccentric exercise, isokinetic muscle torque and delayed onset muscle soreness: the role of reactive oxygen species. European Journal of Applied Physiology, No. 91, p. 615-621.
Cui, X.P., Li, B.Y., Gao, H.Q., Wei, N., Wang, W.L. & Lu, M. (2008). Effects of grape seed proanthocyanidin extracts on peripheral nerves in streptozocininduced diabetic rats. Journal of Nutritional Science and Vitaminology (Tokyo), 54(4), p. 321-328.
Demirbag, R., Yilmaz, R., Guzel, S., Celik, H., Kocyigit, A. & Ozcan, E. (2006). Effects of treadmill exercise test on oxidative/antioxidative parameters and DNA damage. Anadolu Kardiyology Dergisi, No. 6, p. 135-140.
Diaz, K.M., Feairheller, D.L., Sturgeon, K.M., Williamson, S.T. & Brown, M.D. (2011). Oxidative stress response to short duration bout of submaximal aerobic exercise in healthy young adults. International Journal of Exercise Science, No. 4, p. 247-256.
Doustar, Y. & Mohajeri, D. (2010). Antioxidant effect of extract of the grape seed in streptozotocin induced diabetic rats. Zahedan journal of reserch in medical scinces, No.12, p. 9-14.
Erbas, M. & Sekerci, H. (2011). Importance of free radicals and occurring during food Processing. Journal GIDA- Journal of Food, 36(6), p. 349-356.
Freeman, B.A. & Crapo, J.D. (1982). Biology of disease: free radicals and tissue injury. Labotatory Investigation, 42(5), p. 412-426.
Gianmaria, F., Ferrazzano, I.A., Aniello, I., Armando, Z.G.P. & Antonino, P. (2011). Plant Polyphenols and Their Anti-Cariogenic Properties: A Review. Molecules. Journal of Physiology, No.16, p.1486-1507.
Haff, G.G. & et al. (2003). Carbohydrate supplementation and resistance training. Journal of Strength andConditioning Research,17(1), p.187-196.
Halliwell, B. (2012). Free radicals and antioxidants: updating a personal view. NutritionReviews, 70(5), p. 257-265.
Harrison, A.J. & Gaffney, S.D. (2004). Effects of muscle damage on stretch-shortening cycle function and muscle stiffness control. The Journal of Strength & Conditioning Research, 18(4), p. 771.
Konig, D., Wagner, K.H., Elmadfa, I. & Berg, A. (2001). Exercise and oxidative stress: significance of antioxidants with reference to inflammatory, muscular, and systemic stress. Exercise Immunology Review, No. 7, p. 108-133.
Mancino, R., Di Pierro, D., Varesi, C., Cerulli, A., Feraco, A. & Cedrone, C. (2011). Lipid peroxidation and total antioxidant capacity in vitreous, aqueous humor, and blood samples from patients with diabetic retinopathy. Molecular Vision, No.17, p.1298-1304.
Miles, M. & Conant, S.B., Lemke, S.M. & Hogan, S. (2004). IL-6, CRP, and CK Responses to a 20mile Race at Altitude in Women Verses Men. Medicine & Science in Sports & Exercise 36(5). DOI:10.1097/00005768-200405001-00712
Pourghassem-Gargari, B., Abedini, S., Babaei, H., Aliasgarzadeh, A. & Pourabdollah, P. (2011). Effect of supplementation with grape seed (Vitis vinifera) extract on antioxidant status and lipid peroxidation in patient with type diabetes. Journal of Medicinal Plants Research, No. 5, p. 2029-2034.
Proske, U. & Morgan, D. (2001). Muscle damage from eccentric exercise: mechanism, mechanical signs, adaptation and clinical applications. The Journal of physiology, 537(2), p. 333-345.
Sano, A. & Uchida, R. (2007). Beneficial Effects of Grape Seed Extract on Malondialdehyde Modified LDL. Journal of Nutritional Science and Vitaminology, No. 53, p. 174-182.
Serafini, M. & Del Rio, D. (2004). Understanding the association between dietary antioxidants, redox status and disease: is the total antioxidant capacity the right tool? Redox Report, 9(3), p. 145-152.
Shi, J., Yu, J., Pohorly, J.E. & Kakuda, Y. (2003). Polyphenolics in grape seeds-biochemistry and functionality. Journal of Medicinal Food, No. 6, p. 291-299
Silva, L.A., Silveira, P.C., Ronsani, M.M., Souza, P.S., Scheffer, D., Vieira, L.C., Benetti, M., De Souza, C.T. & Pinho, R.A. (2011). Taurine supplementation decreases oxidative stress in skeletal muscle after eccentric exercise. Cell Biochem Funct. 29(1), p. 43-9.
Taghizadeh, M., Malekian, E., Memarzadeh, R., Mohammadi, A. & Asemi, E. (2016). Grape Seed Extract Supplementation and the Effects on the Biomarkers of Oxidative Stress and Metabolic Profiles in Female Volleyball Players: A Randomized, Double-Blind, Placebo- Controlled Clinical Trial. Iranian Red Crescent Medical Journal, 18(9): e31314.
Vertuani, S., Angusti, A. & Manfredini, S. (2004). The antioxidants and pro-antioxidants network: an overview. Current Pharmaceutical, 10(14), p.1677-1694.
Vigna, G.B., Costantini, F., Aldini, G., Carini, M., Catapano, A., Schena, F. & et al. (2003). Effect of a standardized grape seed extract on low-density lipoprotein susceptibility to oxidation in heavy smokers. Metabolism and experimental, No. 52, p. 1250-1257.
Vincent, H.K. & Taylor, A.G. (2006). Biomarkers and potential mechanisms of obesityinduced oxidant stress in humans. International Journal of Obesity,30(3), p. 400-418.
Vinson, J.A., Proch, J. & Bose, P. (2001). MegaNatural (R) Gold Grape seed Extract: In Vitro Antioxidant and In Vivo Human Supplementation Studies. Journal of Medical Food, No. 4, p. 17-26.
White, J.P. & et al. (2008). Effect of carbohydrate-protein supplement timing on acute exercise-induced muscle damage. Journal of the International Society of Sports Nutrition, 5(1), p.1-7.
Wu, L.L., Chiou, C.C., Chang, P.Y. & Wu, J.T. (2004). Urinary 8-OHdG: A marker of oxidative stress to DNA and a risk factor for cancer, atherosclerosis and diabetics. Clinical Chimical Acta, 339(1-2), p. 1-9.