Response of Plasma Volume and Albumin to a Session of Intense Endurance Activity in Three Body Compositions of Young Non-Athlete Men | ||
| Journal of Exercise and Health Science | ||
| مقاله 6، دوره 1، شماره 4، آذر 2021، صفحه 77-88 اصل مقاله (351.95 K) | ||
| نوع مقاله: Original Article | ||
| شناسه دیجیتال (DOI): 10.22089/jehs.2022.11380.1034 | ||
| نویسندگان | ||
| Reza Delavar* 1؛ Majid Vahidian Rezazadeh2؛ Abdolnaser Zaheri Mohades2 | ||
| 1Department of Sport Sciences, Faculty of Education and Psychology, University of Sistan and Baluchestan, Zahedan, Iran. | ||
| 2Department of Sport Sciences, Faculty of Education and Psychology, University of Sistan and Baluchestan, Zahedan, Iran. | ||
| چکیده | ||
| Aims: Plasma displacement from vascular space to cellular and interstitial space following an exercise involvement will influence the evaluation of its components in sport physiology studies. Therefore, this study has been aimed to testify the effects of a session of intense endurance activity on plasma volume and Albumin protein with three distinct body compositions. Methods: The study has been based on a semi-experimental method in three separate groups of thin (n=12), normal (n= 10), and fat (n=12) participants. Selected studied population was young non-athlete men (20 to 25 years). The participants ran a 60 meter distance (two 5 meter paths, two 10 meter paths and two 15 meter paths) for 30 seconds in 6 non-stop rounds. This process continued after 30 second resting until exhaustion for up to 43 rounds. Blood samples were collected once before starting the test and then after finishing the test process. The samples were collected in EDTA tubes to avoid coagulation and immediately after transferring to laboratory, the plasma was centrifuged. To analyze the data, Kolmogorov-Smirnov test, Levene's statistical test, and covariance analysis using SPSS 20 software in the significance level of p≤0/05 were applied. Findings: The results revealed that a session of intense endurance activity makes significant reduction of plasma volume and Albumin protein in all tested groups which was more evident in fat body composition. Conclusion: Regarding the results, when plasma components are evaluated after an exercise involvement, plasma volume changes should be considered especially in the studies focusing on exercise physiology. | ||
| کلیدواژهها | ||
| Plasma volume؛ Albumin؛ Endurance exercise؛ Body composition | ||
| مراجع | ||
|
Berthoin, S., Pelayo, P., Baquet, G., Marais, G., Allender, H., & Robin, H. (2002). Plasma lactate recovery from maximal exercise with correction for variations in plasma volume. Journal of sports medicine and physical fitness, 42(1), 26-30.
Bloomer, R. J., & Farney, T. M. (2013). Acute plasma volume change with high-intensity sprint exercise. The Journal of Strength & Conditioning Research, 27(10), 2874-2878.
Collins, M. A., Hill, D. W., Cureton, K. J., & DeMello, J. J. (1986). Plasma volume change during heavy-resistance weight lifting. European journal of applied physiology and occupational physiology, 55(1), 44-48.
Davis, J. A., Rozenek, R., DeCicco, D. M., Carizzi, M. T., & Pham, P. H. (2007). Effect of plasma volume loss during graded exercise testing on blood lactate concentration. The Journal of Physiological Sciences, 57(2), 95-99.
Dziedzic, T., Slowik, A., & Szczudlik, A. (2004). Serum albumin level as a predictor of ischemic stroke outcome. Stroke, 35(6), e156-e158.
Ernst, E., Danburger, L., & Saradeth, T. (1991). Changes in plasma volume after prolonged endurance exercise. Medicine and Science in Sports and Exercise, 23(7), 884.
Eskandari, A., & Fashi, M. (2016). The response of temporary hypertrophy increase in biceps to four weight training hypertrophy systems in active women.
Gleeson, M., Bishop, N. C., Stensel, D. J., Lindley, M. R., Mastana, S. S., & Nimmo, M. A. (2011). The anti-inflammatory effects of exercise: mechanisms and implications for the prevention and treatment of disease. Nature reviews immunology, 11(9), 607-615.
Hammond, G. L., Hill, L. A., & Round, P. W. (2019). Roles of Plasma Binding Proteins in Modulation of Hormone Action and Metabolism.
Haskell, A., Nadel, E. R., Stachenfeld, N. S., Nagashima, K., & Mack, G. W. (1997). Transcapillary escape rate of albumin in humans during exercise-induced hypervolemia. Journal of Applied Physiology, 83(2), 407-413.
Høstmark, A. T., & Lystad, E. (2001). Lipid peroxidation and growth inhibition of human microvascular endothelial cells. In Vitro Cellular & Developmental Biology-Animal, 37(9), 618-623.
Imai, H., Era, S., Hayashi, T., Negawa, T., Matsuyama, Y., Okihara, K., . . . Yamada, H. (2005). Effect of propolis supplementation on the redox state of human serum albumin during high-intensity kendo training. Advances in exercise and sports physiology, 11(3), 109.
Irving, R., Noakes, T., Burger, S., Myburgh, K., Querido, D., & van Zyl Smit, R. (1990). Plasma volume and renal function during and after ultramarathon running. Medicine and Science in Sports and Exercise, 22(5), 581-587.
Jabbour, G., Curnier, D., Lemoine-Morel, S., Jabbour, R., Mathieu, M.-È., & Zouhal, H. (2014(a)). Plasma volume variation with exercise: a crucial consideration for obese adolescent boys. Applied Physiology, Nutrition, and Metabolism, 39(1), 95-100.
Jabbour, G., & Iancu, H. (2014(b)). Plasma volume decreases in obese adolescents: An important performance limiting factor during supramaximal exercise.
Kargotich, S., Goodman, C., Keast, D., & Morton, A. R. (1998). The influence of exercise-induced plasma volume changes on the interpretation of biochemical parameters used for monitoring exercise, training and sport. Sports Medicine, 26(2), 101-117.
Kay, B., O’brien, B. J., & Gill, N. D. (2005). Plasma volume expansion 24-hours post-exercise: effect of doubling the volume of replacement fluid. Journal of sports science & medicine, 4(2), 179.
Kraemer, R., Kilgore, J., & Kraemer, G. (1993). Plasma volume changes in response to resistive exercise. The Journal of sports medicine and physical fitness, 33(3), 246-251.
Krüger, K., Pilat, C., Schild, M., Lindner, N., Frech, T., Muders, K., & Mooren, F. (2015). Progenitor cell mobilization after exercise is related to systemic levels of G‐CSF and muscle damage. Scandinavian journal of medicine & science in sports, 25(3), e283-e291.
Lystad, E., Høstmark, A. T., Kiserud, C., & Haugen, A. (1994). Influence of fatty acids and bovine serum albumin on the growth of human hepatoma and immortalized human kidney epithelial cells. In Vitro Cellular & Developmental Biology-Animal, 30(9), 568-573.
Maughan, R., & Shirreffs, S. (2012). Hydration and performance during Ramadan. Journal of sports sciences, 30(sup1), S33-S41.
Mc Naughton, L. (1989). Plasma volume responses associated with a sprint triathlon in novice triathletes. International journal of sports medicine, 10(03), 161-164.
Moman, R. N., Gupta, N., & Varacallo, M. (2017). Physiology, Albumin.
Nagashima, K., Cline, G. W., Mack, G. W., Shulman, G. I., & Nadel, E. R. (2000). Intense exercise stimulates albumin synthesis in the upright posture. Journal of Applied Physiology, 88(1), 41-46.
Nagashima, K., Mack, G. W., Haskell, A., Nishiyasu, T., & Nadel, E. R. (1999). Mechanism for the posture-specific plasma volume increase after a single intense exercise protocol. Journal of Applied Physiology, 86(3), 867-873.
Okazaki, K., Hayase, H., Ichinose, T., Mitono, H., Doi, T., & Nose, H. (2009). Protein and carbohydrate supplementation after exercise increases plasma volume and albumin content in older and young men. Journal of Applied Physiology, 107(3), 770-779.
Peyreigne, C., Bouix, D., Fedou, C., & Mercier, J. (2001). Effect of hydration on exercise-induced growth hormone response. European journal of endocrinology, 145(4), 445-450.
Poortmans, J. R., & Ouchinsky, M. (2006). Glomerular filtration rate and albumin excretion after maximal exercise in aging sedentary and active men. The Journals of Gerontology Series A: Biological Sciences and Medical Sciences, 61(11), 1181-1185.
Rahmaty, S., Dehghan, P., Khoramipour, K., & Saboory, M. (2015). The Effect of Listening to Brain Waves’ Relaxing and Exciting Music during Intense Endurance Training on Blood Cortisol Levels of Adult Men. American Journal of Sports Science and Medicine, 3(4), 77-81.
Schild, M., Eichner, G., Beiter, T., Zügel, M., Krumholz-Wagner, I., Hudemann, J., . . . Steinacker, J. M. (2016). Effects of acute endurance exercise on plasma protein profiles of endurance-trained and untrained individuals over time. Mediators of inflammation, 2016.
Scott, J. P., Sale, C., Greeves, J. P., Casey, A., Dutton, J., & Fraser, W. D. (2011). The role of exercise intensity in the bone metabolic response to an acute bout of weight-bearing exercise. Journal of Applied Physiology, 110(2), 423-432.
Simpson, R. J., Lowder, T. W., Spielmann, G., Bigley, A. B., LaVoy, E. C., & Kunz, H. (2012). Exercise and the aging immune system. Ageing research reviews, 11(3), 404-420.
Tayebi, S. M., & Ghanbari, A. (2017). The Effect of One Session of Eccentric Resistance Exercise on Plasma Viscosity, Lipid Profile andPlasma Lipoprotein in Inactive Male Students. Sport physiology & management investigations, 9(2), 157-168.
Wada, Y., Takeda, Y., & Kuwahata, M. (2018). Potential role of amino acid/protein nutrition and exercise in serum albumin redox state. Nutrients, 10(1), 17.
Walsh, N. P., Gleeson, M., Shephard, R. J., Gleeson, M., Woods, J. A., Bishop, N., . . . Hoffman-Goete, L. (2011). Position statement part one: immune function and exercise. Exercise Immunology review, 17, 6-63.
Whyte, L. J., Gill, J. M., & Cathcart, A. J. (2010). Effect of 2 weeks of sprint interval training on health-related outcomes in sedentary overweight/obese men. Metabolism, 59(10), 1421-1428. | ||
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