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An Assessment of Statin Safety
James M. McKenney, PharmD
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Introduction
Participating Faculty

An Assessment of Statin Safety

James M. McKenney, PharmD

Recently, statin safety and potential drug interactions have received close attention in the consumer and medical press. In particular, rosuvastatin, the most recent statin introduced into the US market, has been the object of much speculation. Many of these reports have lost sight of the proven efficacy of statins in coronary disease prevention at a time when coronary heart disease is the number one killer of adults, and have failed to frame the potential drug toxicity in the context of this benefit. Summarized here are the conclusions of the National Lipid Association's Statin Safety Assessment Task Force, which reviewed extensive new drug application (NDA) and postmarketing data for all the currently marketed statins regarding their effect on the liver, muscle, renal, and neurologic systems.

The task force found that, overall, hepatic, renal, or neurologic function does not appear to be compromised by statin use. They do not recommend routine monitoring of these systems but do recommend ongoing surveillance of symptomatic patients. With respect to muscle toxicity, the task force's Muscle Expert Panel concluded that the incidence of myopathy and rhabdomyolysis is low and appears to be dose-related, rather than associated with the degree of low-density lipoprotein cholesterol lowering and also appears to be related to the individual statin used. For example, from the rosuvastatin NDA database and additional postmarketing data, the overall incidence of myopathy was found to be lower than that observed with other statins.

Administrative claims data of hospitalization rates for adverse events in statin patients confirm the task force conclusion that, overall, statins are safe and well tolerated when used as monotherapy.

(Am J Manag Care. 2006;12:S310-S317)


Concern over the safety of statins has flourished since the removal of cerivastatin from the market in 2001. Cerivastatin was associated with more than 100 deaths from rhabdomyolysis, with most cases of muscle toxicity occurring in patients cotreated with the fibric acid derivative gemfibrozil.1

Since then, statin safety and potential drug interactions have received close scrutiny in the consumer and medical press. The most recent statin introduced into the US market–rosuvastatin–has been the object of much speculation regarding its potential role in kidney failure as a result of an association with proteinuria. Other concerns raised have been potential effects of statins on the liver and on cognition.

The news media emphasis on potential severe side effects has influenced many patients to refuse to initiate therapy or withdraw from long-term treatment. The attention has caused many physicians to lose confidence in the benefit-safety profile of these agents as well. Frequent references to potential adverse events have pervaded the doctor-patient relationship. Unfortunately, many of these reports have lost sight of the proven efficacy of statins in coronary disease prevention at a time when coronary heart disease is the number one killer of adults, and have failed to frame the potential drug toxicity in the context of this benefit.2

To address the concerns over statin safety, the National Lipid Association's Statin Safety Assessment Task Force issued its conclusions and recommendations recently in a supplement to the American Journal of Cardiology.3 The task force commissioned expert reviews, carried out analyses of the major sources of adverse reaction information (the US Food and Drug Administration [FDA] Adverse Event Reporting System [AERS], administrative claims databases from managed care organizations, new drug applications [NDAs], cohort studies, and clinical trials), and appointed 4 independent teams of medical subspecialists to assess the effect of statins on the liver,4 muscle,5 renal,6 and neurologic7 systems. Following is a summary of the report.

Liver Toxicity

All statins are associated with asymptomatic elevations in alanine aminotransferase (ALT) or aspartate aminotransferase (AST) levels >3 times the upper limit of normal (ULN) at a rate of <1% at starting and intermediate dosages.4 This rate increases up to 2% to 3% in those receiving 80 mg/day of any statin.4 From an analysis of 180 000 patients who participated in 21 major statin trials lasting an average of 3 years, the incidence of a liver function test (LFT) elevation >3 times the ULN on 1 occasion was found to be 300 cases per 100 000 person-years, whereas that for 2 consecutive elevations was 110 cases per 100 000 person-years (the incidence of similar elevations among placebo patients was 200 and 40 cases per 100 000 person-years, respectively).8 These elevations are most often transient and resolve spontaneously even with continued statin use and without dose reduction. Although there is a dose relationship to LFT elevations, data from clinical trials indicate that increases are unrelated to the degree of low-density lipoprotein cholesterol (LDL-C) lowering with a statin.9

In a "real-life" evaluation of 23 000 patients treated with statins in a health maintenance organization,9,10 17 of 62 cases of markedly elevated ALT levels were thought to be statin-related, 13 of which were associated with potential drug interactions. Of the other 4 cases, 3 patients had heart disease, diabetes, or both. The remaining case was a 71-year-old woman on the highest marketed dose (80 mg) of atorvastatin. These data confirm that marked sustained elevations in liver enzymes are rare and may be affected by potential drug interactions and comorbidities or use of the highest dose of a statin.

Most important, the expert panel of hepatologists who examined this adverse effect was unable to find a link between changes in LFTs and outright episodes of liver failure. They concluded that isolated elevations of aminotransferase are not linked with acute or chronic liver injury.4

Few cases of liver failure have been reported in statin users. According to the FDA AERS database through 1999, 1 case of liver failure was reported per 1 million statin prescriptions; this is the same prevalence as the 1 case of liver failure per million reported in nonstatin-taking populations.8 Furthermore, only 1 patient of 51 741 who received a liver transplant between 1990 and 2002 was taking a currently marketed statin.4

According to the Liver Expert Panel, "?liver failure may occur very rarely with statin therapy?the risk of liver failure is present with any statin, but the risk is quite remote."4 The Statin Safety Assessment Task Force concludes from the data mentioned that routine monitoring of LFTs in asymptomatic statin users does not appear warranted (Table 1).3 The task force recommended obtaining liver transaminase levels in the general evaluation of patients who are being considered for a statin, and continuing periodic measurement of transaminase levels only for medical-legal reasons, taking into consideration that the FDA-approved package labeling calls for monitoring of LFTs.4



A more sensible approach to detecting hepatotoxicity in statin recipients, in the view of the task force, is to carry out ongoing surveillance of significant symptoms of hepatic dysfunction, including jaundice, malaise, fatigue, and lethargy, and when symptoms are found, to obtain a fractionated bilirubin level, rather than periodic monitoring of aminotransferase levels.4

The Liver Expert Panel further stated that neither chronic liver disease nor compensated cirrhosis should be considered contraindications to statin therapy, but believes that decompensated cirrhosis or acute liver failure should remain a contraindication.4

Kidney Toxicity

Proteinuria and hematuria have rarely been described with all of the statins.9 The proteinuria is probably not a toxic effect but a physiologic effect that is central to the mechanism of lowering cholesterol.

Despite the mild proteinuria that has been reported most prominently with rosuvastatin but also with all statins, short-and long-term renal function is not compromised with the use of statins. In fact, the evidence indicates that statin therapy may be associated with an improvement in renal function. In a meta-analysis of 13 clinical trials in which the effect of lipid-modifying drugs on renal function was examined, these therapies preserved glomerular filtration rate and reduced the level of proteinuria in patients with existing renal disease.9,11

Cases of renal failure occur with the same frequency in patients taking and not taking statins. In placebo-controlled, randomized trials with pravastatin, more cases of renal failure and other renal diseases occurred in patients randomized to placebo.12 Therefore, statin therapy does not appear to cause acute renal failure or insufficiency in the absence of rhabdomyolysis.6 The Statin Safety Assessment Task Force concludes that during the management of patients with statin therapy, it is not necessary to routinely carry out serum creatinine and proteinuria monitoring for the purpose of identifying an adverse effect, although an assessment of renal function is advisable before initiating statin therapy (Table 2).3



Nevertheless, rosuvastatin has come under increased public scrutiny for its potential relationship to kidney failure and proteinuria, probably as a result of its development after cerivastatin was withdrawn. The task force found that these concerns are unwarranted. In a retrospective comparison of rosuvastatin with atorvastatin, simvastatin, pravastatin, and placebo, using the rosuvastatin 12 500-patient NDA database, there was no significant difference in the incidence of combined proteinuria and hematuria (0%-0.3%) between the statins or between doses of the statins, and urine dipstick protein results comparing baseline with values at the final visit were not different between any of the statins and placebo.9,13 Further, no decline in renal function was observed in patients with or without diabetes who were treated with rosuvastatin for up to 3.8 years.

In a 2005 Public Health Advisory,14 the FDA stated that there is no evidence that renal injury/failure could be linked causally to rosuvastatin or any other statin. The conclusion with respect to rosuvastatin was reached on a premarketing experience that included more than 12 000 patients and "a substantial number of study participants with mild-to-moderate renal impairment."9

Neurologic Toxicity

Case reports and a few small cohort studies suggest that statins may have neurologic adverse effects on the central nervous system (CNS).9,15-17 Findings from larger clinical trials do not support a cause for concern, and in fact, some even point to a possible favorable effect of statins on CNS disorders such as Alzheimer's disease and dementia.18,19

In 2 large clinical trials of statins–the Heart Protection Study (HPS)8,20,21 and the Prospective Study of the Elderly at Risk (PROSPER)8,22–in which more than 26 000 patients were randomized to either placebo or simvastatin (HPS) or pravastatin (PROSPER), there was no decline in cognitive function among the patients allocated to a statin compared with those assigned placebo.

In studies of statin use and incident dementia and/or Alzheimer's disease, statins have had either a neutral or beneficial effect on these end points.23 Other studies suggest potential improvement in various cognitive scales in patients with Alzheimer's disease who were taking statins.18,19,23

Statins have had a pronounced favorable effect on the risk of thrombotic stroke in clinical trials. In a meta-analysis of 58 clinical trials, the relative reduction in nonhemorrhagic stroke risk with statin use was as great as 17% compared with placebo.24

Statins' role in peripheral nervous system adverse events has also been examined. Literature reviews indicate that any such risk of peripheral neuropathy with statin use and idiopathic peripheral neuropathy is very small.7 In an examination of an electronic pharmacy claims database that included 17 219 persons who had received at least 1 prescription for lipid-lowering drugs, no significant association between idiopathic peripheral neuropathy and statin use could be identified.25

Routine neurologic monitoring of patients administered statin therapy for changes indicative of peripheral neuropathy or impaired cognition is not recommended.7 However, if the patient experiences either of these problems while receiving statin therapy, it is appropriate to first look for other etiologies, and if none are found, to withdraw the statin for 1 to 6 months. If improvement is not seen, statin therapy should be restarted based on a risk-benefit analysis (Table 3).3

 
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