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Study of possible benefit interaction between pravastatin and cyclophosphamide in adult albino male rats. د/ خالد علي الحميضه قسم الأدوية والسموم كلية الصيدلة - جامعة القلمون الخاصة. Outline. Introduction: Drug interaction Cyclophosphamide pravastatin Aim of work
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Study of possible benefit interaction between pravastatin and cyclophosphamide in adult albino male rats. د/ خالد علي الحميضه قسم الأدوية والسموم كلية الصيدلة - جامعة القلمون الخاصة
Outline • Introduction: Drug interaction Cyclophosphamide pravastatin • Aim of work • Materials and Methods • Results • Conclusion
Drug interaction • Drug interaction is the modification of the action of one drugby another. • A drug–drug interaction occurs when one drug interacts with or interferes with the action of another drug.
Drug interaction • For example, taking an antacid with oral tetracycline causes a decrease in the effectiveness of the tetracycline.
Cyclophosphamide Cyclophosphamide (CP) is an alkylating agent that is used to treat: chronic and acute leukemia immunosuppressant after organ transplantation solid tumors autoimmune diseases, such as rheumatoid arthritis.
cause lethal cardiotoxicityin patients during cancer treatment Cyclophosphamide
Cyclophosphamide • symptoms and signs of myopericarditis • Lead to congestive heart failure, cardiomyopathy, • and myocardial depression
Cyclophosphamide Lipid peroxidation antioxidants Myocardial necrosis and myocarditis Extravasation of plasma fluid, erythrocytes, and toxic metabolites fibrin platelet microthrombiin areas of capillary damage Direct endothelial damage Fibrin deposition in cardiac myocytes, edemaand hemorrhage Thickened LV wall, diastolic dysfunction, and restrictive cardiomyopathy myocardial effusions Hemorrhagemyocarditis
Pravastatin Pravastatin (Prv) prevented the reperfusion-induced ventricular tachy- cardia and ventricular fibrillation in rats thus evidencing its beneficial role in decreasing cardiovascular mortality. Prv has antioxidant effect and prevent reactive oxygen species production.
pravastatin ↓nuclear factor κB ↓TNF-α ↑eNOS ↓ROS ↑NO ↓apoptosis ↓IL-6 Decrease oxidative stress Enhance antioxidant enzymes cardioprotection
Investigate possible benefit interaction between pravastatin and cyclophosphamide that induced cardiorenal toxicity in albino rats. Aim of work
Parameters Heart and kidney GSH SOD MDA Tissues samples Histopathological examination
Effect of Prv on body, heart & renal weight, in addition to heart:body weight ratio, and renal:bodyweight ratio in CP-treated rats
Effect of pravastatinonheart ratein cyclophosphamide treated rats. @ * Heart Rate (beat/min) * Significant from normal control @ Significant from CP
Electrocardiogram (ECG) measurement in rats Electrocardiogram (ECG) measurement in rats Electrocardiogram (ECG) measurement in rats Normal pattern of P wave, QRS duration and T wave Normal pattern of P wave QRS duration and T wave Normal pattern of P wave QRS duration and T wave Normal pattern of P wave QRS duration and T wave Prv–treated rats Prv–treated rats Prv–treated rats Control
Electrocardiogram (ECG) measurement in rats P wave inversion and splitting QRS and depressed ST segment P wave inversion, splitting QRS and depressed ST segment CP –treated rats CP–treated rats
Electrocardiogram (ECG) measurement in rats NormalECG pattern in P wave and QRS duration CP plus Prv–treated rats
Effect of pravastatinoncreatine kinase (CK) in cyclophosphamide-treated rats. * Serum CK (U/L) @ @ * Significant from normal control @ Significant from CP
Effect of pravastatinonserum creatine kinase isoenzyme (CK-MB) in cyclophosphamide-treated rats. * CK-MB (U/L) @ @ * Significant from normal control @ Significant from CP
Effect of pravastatin on serum lactate dehydrogenase (LDH) in cyclophosphamide-treated rats. * @ Serum LDH (U/L) @ * Significant from normal control @ Significant from CP
Effect of taurine, pravastatin and their combination On serum triglyceridein cyclophosphamide-treated rats. * @ Serum triglyceride (mg/dL) * @ * Significant from normal control @ Significant from CP
Effect of taurine, pravastatin and their combination On reduced glutathione (GSH) content in heart tissues in cyclophosphamide-treated rats. @ @ * GSH (mg/g. tissue) * Significant from normal control @ Significant from CP
Effect of pravastatin on malondialdehyde (MDA) in heart tissues in cyclophosphamide-treated rats. * @ MDA (nmol/g. tissue) @ * Significant from normal control @ Significant from CP
Effect of pravastatin on superoxide dismutase in heart tissues in cyclophosphamide-treated rats. @ @ * SOD (U/g. tissue) * Significant from normal control @ Significant from CP
Effect of pravastatinonreduced glutathione (GSH) content in renal tissues in cyclophosphamide-treated rats. @ @ * GSH (mg/g. tissue) * Significant from normal control @ Significant from CP
Effect of pravastatinonmalondialdehyde (MDA) in renaltissues in cyclophosphamide-treated rats. * @ @ MDA (nmol/g. tissue) * Significant from normal control @ Significant from CP
Effect of pravastatinon superoxide dismutase in renal tissues in cyclophosphamide-treated rats. @ @ * SOD (U/g. tissue) * Significant from normal control @ Significant from CP
Effect of taurine, pravastatinon serum creatininein cyclophosphamide-treated rats. * Serum CR (mg/dL) @ @ * Significant from normal control @ Significant from CP
Effect of pravastatinon in serum blood urea nitrogen in cyclophosphamide- treated rats. * @ @ Serum BUN (mg/dL) * Significant from normal control @ Significant from CP
Lipid peroxidation Antioxidants → oxidative damage Direct endothelial damage Hemorrhagic changes in the renal cortex and glomerular inflammation Cardiotoxicity Renal toxicity
pravastatin Lipid peroxidation Antioxidants → ↓oxidative damage Direct endothelial damage Hemorrhagic changes in the renal cortex and glomerular inflammation Cardiotoxicity Renal toxicity
pravastatin Lipid peroxidation Antioxidants → ↓oxidative damage Direct endothelial damage Hemorrhagic changes in the renal cortex and glomerular inflammation Cardioprotection Renal protection
