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    Atherosclerotic peripheral artery disease (PAD) is a growing, yet underappreciated global health issue.[1] PAD affects >200 million individuals worldwide,[2] and atherosclerotic disease of the lower extremities confers a high risk of cardiovascular events and death.[3] Patients with PAD have a 2.5-fold increased risk of myocardial infarction and a 3.1-fold increased risk of stroke in comparison with healthy individuals.[3] In addition, individuals with PAD are at heightened risk for lower extremity ulceration, acute limb ischemia, surgical and percutaneous revascularization, and amputation. Given the prevalence and morbidity of PAD, there is a clear need for therapies that improve PAD-specific outcomes, such as amputation, and reduce the risk of other major cardiovascular events that are common among patients with atherosclerosis, as well.

    Current professional society guidelines recommend statin therapy for all individuals with PAD.[4,5] Unfortunately, much of the data regarding lipid-lowering therapy for PAD have been extrapolated from studies of coronary artery disease, and few studies have specifically examined limb outcomes. The Heart Protection Study randomly assigned 20 536 subjects, 6748 of whom carried a diagnosis of PAD, to either simvastatin 40 mg daily or placebo with a mean follow-up of 5 years.[6] In the overall study population, simvastatin was associated with a 16% relative risk reduction in peripheral vascular events, which was driven primarily by a 20% reduction in noncoronary revascularization. It is noteworthy that this end point included not only lower extremity arterial procedures, but also carotid interventions, and there were no differences in the rates of amputation between the 2 groups. Similarly, among 5861 patients with symptomatic PAD in the REACH registry (Reduction of Atherothrombosis for Continued Health), statin therapy was associated with a 14% relative risk reduction in a composite end point that included worsening claudication, critical limb ischemia, peripheral revascularization, and amputation at 4 years.[7] However, the existing studies have not been able to address whether statin intensity is related to limb outcomes, or whether statin therapy is associated with a mortality benefit in patients with PAD.

    In this issue of Circulation, Arya et al[8] are able to address some of these key outstanding questions regarding the efficacy of statin therapy in this high-risk population. The investigators used International Classification of Diseases, Ninth Revision codes for PAD in addition to ankle-brachial indices, visits with vascular providers, or procedure codes for PAD to identify patients newly diagnosed with PAD in national Veterans Affairs data spanning the years of 2003 to 2014. They then categorized patients into 3 groups: those who were prescribed high-intensity statins, moderate- or low-intensity statins, or no statins within 1 year of their PAD diagnosis. The intensity of the prescribed statin was defined according to the current AmericanCollege of Cardiology/American Heart Association guideline,[9] and the authors used the highest intensity prescribed within 1 year of the PAD diagnosis date to categorize patients. The primary outcomes of interest were major amputation and death, and analyses compared both high-intensity and low-to-moderate–intensity statin users with a comparator group who were not prescribed statins but who were prescribed an antiplatelet agent at the time of PAD diagnosis.

    The authors identified 155 647 patients with incident PAD with an average follow-up time of 5.9 years. The median age was 67.0 years, 86.7% were current/former smokers, 36.1% had diabetes mellitus, 31.2% had coronary artery disease, and 61.0% had carotid disease. It is remarkable that, despite their high risk, 45 503 patients (28%) were not prescribed statin therapy at the time of PAD diagnosis, although utilization rates were higher among those with preexisting coronary artery disease or carotid artery stenosis at the time of PAD diagnosis. Unfortunately, these low utilization rates remained consistent over the course of the study (from 2006 to 2014). As might be anticipated, the group of patients included in the cohort were at high risk of the key clinical end points: 10 824 (7%) had an amputation and 63 287 (41%) died. The median time to amputation was 0.98 years, and the median time to death was 3.6 years, raising the possibility that earlier initiation of statin therapy may have delayed these outcomes, or slowed the progression of PAD. In multivariable adjusted Cox regression models comparing statin users with the active comparator group, low-to-moderate–intensity statins were associated with a 17% reduction in mortality and a 19% reduction in amputation, whereas high-intensity statin therapy was associated with a 26% reduction in mortality and a 33% reduction in the risk of amputation.

    Given the concern for residual confounding in this observational study, the investigators also performed a propensity score–matched analysis. In comparison with statin nonusers, high-intensity and low-to-moderate–intensity statin use were both associated with reductions in mortality (30% and 20%, respectively) and amputation (40% and 20%, respectively). In an important, novel finding, patients prescribed high-intensity statin therapy had a 15% lower risk of mortality and a 22% lower risk of amputation in comparison with patients prescribed low-to-moderate–intensity statins. These effects were consistent across a broad array of subgroups, although there were very few women enrolled in this cohort.

    The investigators" finding of a strong and intensity-dependent association between statin therapy and both amputation and mortality among individuals with incident PAD is of considerab.



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