1.
Adverse effects of statins - myths and reality.
Šimić, I, Reiner, Ž
Current pharmaceutical design. 2015;(9):1220-6
Abstract
Statins reduce cardiovascular mortality and morbidity as well as cardiovascular events in patients with a very high risk of cardiovascular disease (CVD) and also in subjects with high or moderate risk by reducing the levels of low-density lipoprotein cholesterol (LDL-C). Although they are considered to be drugs with a very good safety profile, because of their wide use there are many concerns that their adverse effects might compromise their proven beneficial effects. Therefore this article reviews all the data and provides an evidence- based insight what are the proven adverse effects of statins and what are the "myths" about them. The most important side effects include myopathy and rhabdomyolysis. Another side effect is increased activity of liver tests which occurs occasionally and is reversible. However, recent studies even suggest that statin therapy can improve hepatic steatosis. It is beyond any doubt that statins do slightly increase the incidence of type 2 diabetes mellitus in people with two or more components of metabolic syndrome but the cardiovascular benefits of such a treatment by far exceed this risk. Statin therapy has also been associated with some adverse renal effects, eg. acute renal failure, but recent data suggest even a possible protective effect of these drugs on renal dysfunction. Concerns that statins might increase cancer have not been proven. On the contrary, several studies have indicated a possible benefit of these drugs in patients with different types of cancer. Early concerns about cognitive dysfunction and memory loss associated with statins use could not be proven and most recent data even suggest a possible beneficial effect of statins in the prevention of dementia. Systematic reviews and clinical guidelines suggest that the cardiovascular benefits of statins by far out-weight non-cardiovascular harms in patients with cardiovascular risk.
2.
Rhabdomyolysis as a clinical manifestation of association with ciprofibrate, sirolimus, cyclosporine, and pegylated interferon-α in liver-transplanted patients: a case report and literature review.
dos Santos, AG, Guardia, AC, Pereira, TS, Ataíde, EC, Mei, Md, Udo, ME, Boin, IF, Stucchi, RS
Transplantation proceedings. 2014;(6):1887-8
Abstract
BACKGROUND Rhabdomyolysis is a syndrome characterized by impaired metabolic integrity of myocytes, causing the release of intracellular constituents into the circulation, and can be a serious side effect of drug intake. CASE REPORT This report describes a unique case of rabdomyolysis secondary in which ciprofibrate, sirolimus, cyclosporine, and pegylated interferon-α in a liver transplant patient was used. A 47-year-old male liver transplant recipient in 2009, who had hepatitis C and incidental hepatocellular carcinoma, underwent immunosuppressive therapy (cyclosporine and sirolimus). The patient is currently in treatment for viral recurrence with pegylated interferon-α and ribavirin; he had a history of hypertriglyceridemia treated with ciprofibrate. He had development of severe and generalized myalgia and fever after the eighth application of pegylated interferon-α and increasing doses of cyclosporine. Laboratorial tests showed acute renal failure and significant increase in creatine kinase. Rhabdomyolysis secondary to interaction of fibrate-cyclosporine-pegylated interferon-α was postulated. CONCLUSIONS Medical professionals should be aware of possible drug interactions and should monitor patients receiving these drugs.
3.
Statins and myotoxicity.
Farmer, JA
Current atherosclerosis reports. 2003;(2):96-100
Abstract
The significant age-adjusted decline in cardiovascular mortality that has occurred over the past three decades is multifactorial. However, the advent of statin therapy has markedly facilitated the optimization of dyslipidemia in patients at risk for coronary events. Statin therapy has proven to be effective in reducing morbidity and mortality in large-scale primary and secondary prevention trials. As with all therapies, the administration of 3-hydroxy-3-methylglutaryl coenzyme A (HMG Co A) reductase inhibitors is not without clinical risks. Myopathy, albeit uncommon, was one of the earliest clinical problems associated with statin therapy. Recent data from the large-scale statin mega-trials have clarified the quantitative clinical risk-benefit relationship of reductase inhibitors relative to the induction of muscle toxicity. Histopathologic studies have clarified the potential role of statins in the syndrome of myalgias and normal creatine kinase levels. However, the precise mechanism of statin-associated muscle toxicity remains unclear and is potentially related to genetically mediated muscle enzyme defects, drug interactions, intracellular depletion of metabolic intermediates, and intrinsic properties of the statins per se.