Browse > Article
http://dx.doi.org/10.14474/ptrs.2015.4.1.17

Effects of aerobic exercise on antioxidants in rat models with cardiomyopathy  

Kim, Eun-Jung (Department of Physical Therapy, Dongshin University)
Hwang, Sujin (Department of Physical Therapy, Baekseok University)
Publication Information
Physical Therapy Rehabilitation Science / v.4, no.1, 2015 , pp. 17-21 More about this Journal
Abstract
Objective: In this study, we aimed to test the hypothesis that aerobic exercise might exert its cardio-protective effect by preventing oxidative stress and improving cardiac function in rat models with doxorubicin-induced cardiomyopathy. Design: Randomized controlled trial. Methods: We randomly divided experimental rats into four groups: the normal group was used as a non-cardiomyopathy normal control (n=10); the control group included non-aerobic exercise after doxorubicin-induced cardiomyopathy (n=10); the experimental group I included aerobic exercise (3 m/min) after doxorubicin-induced cardiomyopathy (n=10); and experimental group II included aerobic exercise (8 m/min) after doxorubicin-induced cardiomyopathy. Rats in the treadmill training groups underwent treadmill training, which began at 2 weeks after the first intraperitoneal injection. At the end of the exercise period, we determined the heart weight change for each rat. Changes in the levels of oxidative stress enzymes (superoxide dismutase [SOD], thiobarbituric acid-reactive substances [TBARS], and catalase) in the cardiac tissue of rats from all four groups were examined at the end of the experiment. Results: Significant cardiac myocyte injury and increase in myocardial TBARS concomitant with a reduction in myocardial SOD and catalase were observed following cardiomyopathy (p<0.05). Significant cardiac tissue and increase in myocardial TBARS along with reduction in myocardial SOD and catalase were observed following cardiomyopathy (p<0.05). Oxidative parameters were significantly improved in the aerobic exercise groups compared with the control group. Conclusions: These findings indicate that aerobic exercise effectively prevents oxidative stress in rat models with cardiomyopathy.
Keywords
Cardiomyopathies; Exercise; Oxidative stress;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Jefferies JL, Towbin JA. Dilated cardiomyopathy. Lancet 2010;375:752-62.   DOI
2 McNally EM, Golbus JR, Puckelwartz MJ. Genetic mutations and mechanisms in dilated cardiomyopathy. J Clin Invest 2013;123:19-26.   DOI
3 Maron BJ. Hypertrophic cardiomyopathy: a systematic review. JAMA 2002;287:1308-20.
4 Wojciechowska C, Romuk E, Tomasik A, Skrzep-Poloczek B, Nowalany-Kozielska E, Birkner E, et al. Oxidative stress markers and C-reactive protein are related to severity of heart failure in patients with dilated cardiomyopathy. Mediators Inflamm 2014;2014:147040.
5 Zhang L, Ma J, Liu H. Protective effect of ischemic postconditioning against ischemia reperfusion-induced myocardium oxidative injury in IR rats. Molecules 2012;17:3805-17.   DOI
6 Ilkun O, Boudina S. Cardiac dysfunction and oxidative stress in the metabolic syndrome: an update on antioxidant therapies. Curr Pharm Des 2013;19:4806-17.   DOI
7 Kaul N, Siveski-Iliskovic N, Hill M, Khaper N, Seneviratne C, Singal PK. Probucol treatment reverses antioxidant and functional deficit in diabetic cardiomyopathy. Mol Cell Biochem 1996;160-161:283-8.   DOI
8 Rodrigues B, McNeill JH. The diabetic heart: metabolic causes for the development of a cardiomyopathy. Cardiovasc Res 1992;26:913-22.   DOI
9 Gasiorowski A, Dutkiewicz J. Comprehensive rehabilitation in chronic heart failure. Ann Agric Environ Med 2013;20:606-12.
10 Gielen S, Schuler G, Adams V. Cardiovascular effects of exercise training: molecular mechanisms. Circulation 2010;122:1221-38.   DOI
11 Working Group on Cardiac Rehabilitation and Exercice Physiology and Working Group on Heart Failure of the European Society of Cardiology. Recommendations for exercise training in chronic heart failure patients. Eur Heart J 2001;22:125-35.   DOI
12 Wilson MG, Ellison GM, Cable NT. Basic science behind the cardiovascular benefits of exercise. Heart 2015;101:758-65.   DOI
13 Powers SK, Sollanek KJ, Wiggs MP, Demirel HA, Smuder AJ. Exercise-induced improvements in myocardial antioxidant capacity: the antioxidant players and cardioprotection. Free Radic Res 2014;48:43-51.   DOI
14 Rivera-Brown AM, Frontera WR. Principles of exercise physiology: responses to acute exercise and long-term adaptations to training. PM R 2012;4:797-804.   DOI
15 Ogura M. Adriamycin (doxorubicin). Gan To Kagaku Ryoho 2001;28:1331-8.
16 Dunn J. Doxorubicin-induced cardiomyopathy. J Pediatr Oncol Nurs 1994;11:152-60.   DOI
17 Heger Z, Cernei N, Kudr J, Gumulec J, Blazkova I, Zitka O, et al. A novel insight into the cardiotoxicity of antineoplastic drug doxorubicin. Int J Mol Sci 2013;14:21629-46.   DOI
18 Singal PK, Iliskovic N. Doxorubicin-induced cardiomyopathy. N Engl J Med 1998;339:900-5.   DOI
19 Fouad AA, Albuali WH, Al-Mulhim AS, Jresat I. Cardioprotective effect of cannabidiol in rats exposed to doxorubicin toxicity. Environ Toxicol Pharmacol 2013;36:347-57.   DOI
20 Albeck DS, Sano K, Prewitt GE, Dalton L. Mild forced treadmill exercise enhances spatial learning in the aged rat. Behav Brain Res 2006;168:345-8.   DOI
21 Ohkawa H, Ohishi N, Yagi K. Assay for lipid peroxides in animal tissues by thiobarbituric acid reaction. Anal Biochem 1979;95:351-8.   DOI
22 Kakkar P, Das B, Viswanathan PN. A modified spectrophotometric assay of superoxide dismutase. Indian J Biochem Biophys 1984;21:130-2.
23 Aebi H. Catalase. In: Bergmeyer HU, ed. Methods of enzymatic analysis. 2nd ed. Weinheim: Chemic Academic Press Inc., Verlag; 1974. p. 673-85.
24 Rubler S, Dlugash J, Yuceoglu YZ, Kumral T, Branwood AW, Grishman A. New type of cardiomyopathy associated with diabetic glomerulosclerosis. Am J Cardiol 1972;30:595-602.   DOI
25 Chicco AJ, McCune SA, Emter CA, Sparagna GC, Rees ML, Bolden DA, et al. Low-intensity exercise training delays heart failure and improves survival in female hypertensive heart failure rats. Hypertension 2008;51:1096-102.   DOI
26 Billingham ME, Bristow MR, Glatstein E, Mason JW, Masek MA, Daniels JR. Adriamycin cardiotoxicity: endomyocardial biopsy evidence of enhancement by irradiation. Am J Surg Pathol 1977;1:17-23.   DOI
27 Alimoradi H, Barzegar-Fallah A, Hassanzadeh G, Mohammadi-Rick S, Asadi F, Delfan B, et al. The cardioprotective effects of an antiemetic drug, tropisetron, on cardiomyopathy related to doxorubicin. Cardiovasc Toxicol 2012;12:318-25.   DOI
28 Minotti G, Menna P, Salvatorelli E, Cairo G, Gianni L. Anthracyclines: molecular advances and pharmacologic developments in antitumor activity and cardiotoxicity. Pharmacol Rev 2004;56:185-229.   DOI
29 Matysiak R, Blaszczyk J, Obrebska A, Mejer A, Kozirog M, Kowalski J. Oxidative-reductive balance in patients after acute coronary syndrome that undergo cardiac rehabilitation. Pol Merkur Lekarski 2014;37:148-52.
30 Steare SE, Yellon DM. The potential for endogenous myocardial antioxidants to protect the myocardium against ischaemia-reperfusion injury: refreshing the parts exogenous antioxidants cannot reach? J Mol Cell Cardiol 1995;27:65-74.   DOI
31 Frustaci A, Russo MA, Morgante E, Scopelliti F, Aquilano K, Ciriolo MR, et al. Oxidative myocardial damage in human cocaine-related cardiomyopathy. Eur J Heart Fail 2015;17:283-90.   DOI
32 Schaefer J, Nierhaus KH, Lohff B, Peters T, Schaefer T, Vos R. Mechanisms of autoprotection and the role of stress-proteins in natural defenses, autoprotection, and salutogenesis. Med Hypotheses 1998;51:153-63.   DOI
33 Ki YK, Kim GY, Kim EJ. Effects of cardiac biological activities on low-intensity physical training in doxorubicin-induced cardiotoxicity rat models. J Phys Ther Rehab Sci 2014;3:107-11.
34 Swynghedauw B. Molecular mechanisms of myocardial remodeling. Physiol Rev 1999;79:215-62.   DOI