EFFECT OF MYOCARDIAL INFARCTION ON SPLEEN AND KIDNEY OF ISOPRENALINE-INDUCED MYOCARDIAL INJURY RAT MODEL

Authors

  • Shafreena Shaukat Ali Program of Biomedical Science & Center for Health and Applied Sciences, Faculty of Health Sciences, Universiti Kebangsaan Malaysia, Jalan Raja Muda Abdul Aziz, 50300 Kuala Lumpur, Malaysia
  • Nur Hafiqah Rozalei Program of Biomedical Science, Faculty of Health Sciences, Universiti Kebangsaan Malaysia, Jalan Raja Muda Abdul Aziz, 50300 Kuala Lumpur, Malaysia
  • Siti Fatimah Azaharah Mohamed Program of Biomedical Science, Faculty of Health Sciences, Universiti Kebangsaan Malaysia, Jalan Raja Muda Abdul Aziz, 50300 Kuala Lumpur, Malaysia
  • Yap Wei Boon Program of Biomedical Science & Center for Health and Applied Sciences, Faculty of Health Sciences, Universiti Kebangsaan Malaysia, Jalan Raja Muda Abdul Aziz, 50300 Kuala Lumpur, Malaysia
  • Satirah Zainalabidin Program of Biomedical Science & Center for Health and Applied Sciences, Faculty of Health Sciences, Universiti Kebangsaan Malaysia, Jalan Raja Muda Abdul Aziz, 50300 Kuala Lumpur, Malaysia

DOI:

https://doi.org/10.11113/jt.v81.12987

Keywords:

Inflammation, isoprenaline, kidney, myocardial infarction, spleen

Abstract

Myocardial infarction (MI)-associated inflammation is crucial for post-infarct healing. However, unregulated inflammation may lead to unnecessary systemic inflammation, and affect other organs. This study investigated the effects of MI on spleen and kidneys over early time-points (2 and 7 days) in isoprenaline-induced MI rat model. MI was evident by elevated levels of cardiac injury marker, troponin T, and lactate dehydrogenase (LDH). MI rats showed significant upregulation of myeloperoxidase (MPO) activity at day-2 post infarct while kidney MPO activity remained unaffected. Kidney function test revealed only slightly increased plasma urea at day-2 post MI with no changes in plasma creatine at both time-points. Histological observation on the spleen showed disorganization of spleen structure at day-2 post MI while the kidney structures were preserved at both time-points. In conclusion, although MI-associated damages in the spleen were seen at day-2 post infarct, it had no impact on the kidney structures at both time-points.

References

Amran, A. Z., Jantan, I., Dianita, R., and Buang, F. 2015. Protective Effects of the Standardized Extract of Zingiber Officinale on Myocardium against Isoproterenol-Induced Biochemical and Histopathological Alterations in Rats. Pharmaceutical Biology. 53(12): 1795-1802.

Department of Statistics Malaysia. 2017. Press Release: Statistics on Causes of Death, Malaysia. https://www.dosm.gov.my. Accessed 30th May 2018.

Khorrami, A., Hammami, M., Garjani, M., Maleki-Dizaji, N., and Garjani, A. 2014. Tacrolimus Ameliorates Functional Disturbances and Oxidative Stress in Isoproterenol-Induced Myocardial Infarction. Journal of Pharmaceutical Sciences. 22(1): 68.

Upaganlawar, A., Gandhi, C., and Balaraman, R. 2009. Effect of Green Tea and Vitamin E Combination in Isoproterenol Induced Myocardial Infarction in Rats. Plant Foods for Human Nutrition. 64(1): 75-80.

Lobo Filho, H. G., Ferreira, N. L., Sousa, R. B. D., Carvalho, E. R. D., Lobo, P. L. D. & Lobo Filho, J. G. 2011. Experimental Model of Myocardial Infarction Induced by Isoproterenol in Rats. Brazilian Journal of Cardiovascular Surgery. 26(3): 469-476.

Ali, S. S., Mohamed, S. F. A., Rozalei, N. H., Boon, Y. W., and Zainalabidin, S. 2018. Anti-fibrotic Actions of Roselle Extract in Rat Model of Myocardial Infarction. Cardiovascular Toxicology.1-10.

Karthick, M., Stanely. M., and Prince, P. 2006. Preventive Effect of Rutin, A Bioflavonoid, On Lipid Peroxides and Antioxidants in Isoproterenol-Induced Myocardial Infarction in Rats. Journal of Pharmacy and Pharmacolology. 58(5): 701-707.

Dianita, R., Jantan, I., Amran, A. Z., and Jalil, J. 2015. Protective Effects of Labisia Pumila Var. Alata on Biochemical and Histopathological Alterations of Cardiac Muscle Cells in Isoproterenol-Induced Myocardial Infarction Rats. Molecules. 20(3): 4746-4763.

Siddiqui, B. S., Ali, S. T., Tauseef, S., Kamal, S., Rizwani, G. H., and Begum, S. 2016. Isoprenaline: A Tool for Inducing Myocardial Infarction in Experimental Animals. International Journal of Pharmaceutics. 6(2): 138-144.

Liu, J., Wang, H., and Li, J. 2016. Inflammation and Inflammatory Cells in Myocardial Infarction and Reperfusion Injury: A Double-edged Sword. Clinical Medicine Insights: Cardiology. CMC-S33164. 10.

Curley, D., Plaza, B. L., Shah, A. M., and Botnar, R. M. 2018. Molecular Imaging of Cardiac Remodeling After Myocardial Infarction. Basic Research in Cardiology. 113(2): 10.

Fang, L., Moore, X. L., Dart, A. M., and Wang, L. M. 2015. Systemic Inflammatory Response Following Acute Myocardial Infarction. Journal of Geriatric Cardiology: JGC. 12(3): 305.

Suthahar, N., Meijers, W. C., Silljé, H. H., and de Boer, R. A. 2017. From Inflammation to Fibrosis—Molecular and Cellular Mechanisms of Myocardial Tissue Remodelling and Perspectives on Differential Treatment Opportunities. Current Heart Failure Reports. 14(4): 235-250.

Swirski, F. K., Weissleder, R., and Pittet, M. J. 2009. Heterogeneous In Vivo Behavior of Monocyte Subsets in Atherosclerosis. Arteriosclerosis, Thrombosis, and Vascular Biology. 29(10): 1424-1432.

Halade, G. V., Norris, P. C., Kain, V., Serhan, C. N., and Ingle, K. A. 2018. Splenic Leukocytes Define the Resolution of Inflammation in Heart Failure. Science Signalling. 11(520): 1818.

Ruparelia, N., Digby., J. E., Jefferson, A., Medway, D. J., Neubauer, S., Lygate, C. A., and Choudhury, R. P. 2013. Myocardial Infarction Causes Inflammation and Leukocyte Recruitment at Remote Sites in the Myocardium and In the Renal Glomerulus. Inflammation Research. 62(5): 515-525.

Lekawanvijit, S., Kompa, A. R., Zhang, Y., Wang, B. H., Kelly, D. J., and Krum, H. 2012. Myocardial Infarction Impairs Renal Function, Induces Renal Interstitial Fibrosis, and Increases Renal KIM-1 Expression: Implications for Cardiorenal Syndrome. American Journal of Physiology Heart and Circulatory Physiology. 302(9): H1884-1893.

Si, L. Y. N., Ali, S. A. M., Latip, J., Fauzi, N. M., Budin, S. B., and Zainalabidin, S. 2017. Roselle is Cardioprotective in Diet-induced Obesity Rat Model with Myocardial Infarction. Life Science Journal. 191: 157-65.

Wróblewski, F., and Ladue., J. S. 1955. Lactic Dehydrogenase Activity in Blood. Proceedings of the SEBM. 90(1): 210-3.

Kim, J. J., Shajib, M. S., Manocha, M. M., and Khan, W. I. 2012. Investigating Intestinal Inflammation in DSS-induced Model of IBD. Journal of Visualized Experiments. 60: e3678.

Ramalingam, A., Budin, S. B., Lim, Y. C., Si, Y. N. L., and Zainalabidin, S. 2016. Dietary UKMR-1 Roselle Supplementation Prevents Nicotine-Induced Cardiac Injury by Inhibiting Myocardial Oxidative Stress. Sains Malaysiana 45(7): 1131-1137.

Gayathri, V., Ananthi, S., Chandronitha, C., Ramakrishnan, G., Sundaram, R. L., and Vasanthi, H. R. 2011. Cardioprotective Effect of Nerium Oleander Flower against Isoproterenol-Induced Myocardial Oxidative Stress in Experimental Rats. Journal of Cardiovascular Pharmmacology. 16(1): 96-104.

Park, K. C., Gaze, D. C., Collinson, P. O., and Marber, M. S. 2017. Cardiac Troponins: From Myocardial Infarction to Chronic Disease. Cardiovascular Research. 113(14): 1708-1718.

Gupta, S. Laboratory Approach to the Management of Clinical Emergencies: A Diagnostic Series. 2009. Journal of Laboratory Physicians. 1(1): 27

Ulla, A., Mohamed, M. K., Sikder, B., Rahman, A. T., Sumi, F. A., Hossain, M., Reza, H. M., Rahman, G. S., and Alam, M. A. 2017. Coenzyme Q10 Prevents Oxidative Stress and Fibrosis in Isoprenaline Induced Cardiac Remodeling in Aged Rats. BMC Pharmacology and Toxicology. 18(1): 29.

Licka, M., Zimmermann, R., Zehelein, J., Dengler, T., Katus, H., and Kübler, W. 2002. Troponin T Concentrations 72 Hours After Myocardial Infarction as A Serological Estimate of Infarct Size. Heart. 87(6): 520-4.

Frangogiannis, N. G., Smith, C. W. and Entman, M. L. 2002. The Inflammatory Response in Myocardial Infarction. Cardiovascular Research. 53(1): 31-47.

Pulli, B., Ali, M., Forghani, R., Schob, S., Hsieh, K. L., Wojtkiewicz, G., Linnoila, J. J., and Chen, J. W. 2013. Measuring Myeloperoxidase Activity in Biological Samples. PloS One. 8(7).

Schloss, M. J., Horckmans, M., Nitz, K., Duchene, J., Drechsler, M., Bidzhekov, K., and Steffens, S. 2016. The Timeâ€Ofâ€Day of Myocardial Infarction Onset Affects Healing Through Oscillations in Cardiac Neutrophil Recruitment. EMBO Molecular Medicine. e201506083.

Khan, I., Dar, M. H., Khan, A., Iltaf, K., Khan, S., and Falah, S. F. 2017. Frequency of Acute Kidney Injury and Its Short-Term Effects after Acute Myocardial Infarction. Hypertension. 114: 55-10.

Downloads

Published

2019-01-22

Issue

Vol. 81 No. 2: March 2019

Section

Science and Engineering

License

Copyright of articles that appear in Jurnal Teknologi belongs exclusively to Penerbit Universiti Teknologi Malaysia (Penerbit UTM Press). This copyright covers the rights to reproduce the article, including reprints, electronic reproductions, or any other reproductions of similar nature.

How to Cite

EFFECT OF MYOCARDIAL INFARCTION ON SPLEEN AND KIDNEY OF ISOPRENALINE-INDUCED MYOCARDIAL INJURY RAT MODEL. (2019). Jurnal Teknologi, 81(2). https://doi.org/10.11113/jt.v81.12987