Abstract

Stain is commonly used in subjects with diabetes for both primary and secondary prevention of cardiovascular diseases (CVDs) [1,2]. It is even recommended by the American Diabetes Association to be added to lifestyle therapy regardless of the baseline lipid levels for diabetic patients aged ≥40 years, even if they have no overt CVD [3], and recent guidelines from the American College of Cardiology and the American Heart Association states that statin therapy should be initiated and maintained for the primary prevention for CVD in adults 40 to 75 years of age with diabetes mellitus, regardless of their CVD risk if their low density lipoprotein cholesterol (LDL-C) level is ≥70 mg/dL [4]. The possibility of primary prevention of CVD with statin therapy for diabetic subjects with a high CVD risk has been well elucidated [1,5,6]. Collaborative Atorvastatin Diabetes Study (CARDS) [1] was a large randomized controlled trial aimed to show the efficacy of statin for the primary prevention of CVD in subjects with type 2 diabetes who had at least one or more of CVD risk factors, but the study terminated 2 years earlier than expected. This was because the statin group showed a superior risk reduction than expected: CVD event reduction of 37% (95% confidence interval [CI], -52 to -17) in statin group [1]. However, there are still insufficient evidence to show the effect of statin for the primary prevention of CVD in diabetic patients with a low risk. There have been claims that statins should be used with caution for the primary prevention in subjects with low CVD risk [7,8]. Furthermore, statin therapy has been reported to be associated with myopathy, elevated liver enzyme concentration, and incident diabetes mellitus [9,10]. However, recent meta-analysis of Cholesterol Treatment Trialists' (CTT) collaborators showed an overall relative risk reduction of major vascular events of 21% (relative risk, 0.79; 95% CI, 0.77 to 0.81) per 1 mmol/L reduction of LDL-C with statin; these benefits were similar in people with a lower CVD risk [11]. Subjects with less than 5% of CVD risk also showed a significant risk reduction of about 40% per 1 mmol/L reduction of LDL-C with statin [11]. In addition, Justification for Use of statins in Prevention: an Intervention Trial Evaluating Rosuvastatin (JUPITER) [12] showed that statin decreased the rate of CVD in healthy men and women with LDL-C level ≤130 mg/dL. Although CTT and JUPITER was not performed exclusively in diabetic patients, their results might be implicated with diabetic subjects with a low CVD risk. Moreover, diabetes is an important risk factor for CVD and is considered as an equivalent to coronary artery disease [13]. Reductions in CVD outcomes were greatest in people with high baseline CVD risk [10]. Nonetheless, subgroup analysis from the meta-analysis of CTT reported that statin could reduce CVD events in subjects with diabetes regardless of their baseline CVD risk or baseline LDL-C [6]. Lee et al. [14] reported that statin discontinuation could be considered based on the pretreatment lipid profiles, especially for subjects with baseline LDL-C less than 123 mg/dL. However, considering that statin therapy is not for reducing LDL-C itself but for reducing CVD risk, their results should be interpreted carefully to make the decision whether statin should be continued or not. As the authors mentioned, the effect of stopping statin on future CVD risk in diabetic patients with a low CVD risk remains to be elucidated. There have been obvious concerns on the cost-effectiveness of primary prevention of CVD with statin in diabetic subjects with a low CVD risk. CARDS applied the United Kingdom Prospective Diabetes Study risk engine for their study population to predict the probability of a CVD event for each CARDS patient and showed that the incremental cost-effectiveness ratio was £5,983 per event-free year for subjects with a low CVD risk and £2,077 per event-free year for subjects with a high CVD risk [15]. In addition, other issues such as feasibility and desirability should be considered to treat the majority of diabetic patients aged ≥40 years and the role of alternative public health strategies to lower blood cholesterol. In conclusion, the use of statins for the primary prevention in diabetic subjects with a low CVD risk remains suspensive in its cost-effectiveness. Considering the high risk of CVD in diabetic patients compared to non-diabetic individuals, further studies to elucidate whether statin therapy should be started and maintained for diabetic subjects with a low CVD risk should be performed.

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