Title: Using Cost-Effectiveness Analysis To Target Cholesterol Reduction
Abstract: Editorials16 May 2000Using Cost-Effectiveness Analysis To Target Cholesterol ReductionFREEAlan M. Garber, MD, PhDAlan M. Garber, MD, PhDVeterans Affairs Palo Alto Health Care System; Stanford University; Palo Alto, CA (Garber)Search for more papers by this authorAuthor, Article, and Disclosure Informationhttps://doi.org/10.7326/0003-4819-132-10-200005160-00012 SectionsAboutVisual AbstractPDF ToolsAdd to favoritesDownload CitationsTrack CitationsPermissions ShareFacebookTwitterLinkedInRedditEmail The introduction of 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors (statins) in the United States coincided with the massive “know your number” cholesterol awareness campaign. For both physicians and patients, these drugs offered a powerful solution to a problem that was being deeply impressed on the public consciousness. Besides dramatically decreasing levels of low-density lipoprotein (LDL) cholesterol, statins were more convenient and better tolerated than older therapies, such as bile acid–binding resins and niacin. Their popularity was immediate, and they soon accounted for billions of dollars in revenues. Atorvastatin, for example, surpassed $1 billion in sales during the year after its introduction, even though it was approved for use in the United States many years after other statins had become established therapy.Although statins represented a breakthrough in lipid management, questions about their role emerged. The importance of LDL cholesterol reduction in high-risk populations had already been widely accepted when the first clinical trials reported that these drugs were effective for secondary prevention of coronary heart disease (1) and for reduction of the risk for coronary events in high-risk primary prevention populations (2). More randomized trials were to come, yet gaps in the clinical evidence supporting widespread use of statins persisted. Notably absent from most clinical trials was adequate representation of elderly patients, in whom coronary disease is highly prevalent. Furthermore, the role of statins in treating patients at low short-term risk for coronary heart disease was controversial. With little disease to prevent, the benefits of risk reduction were necessarily limited and could be negated by even infrequent long-term adverse effects of treatment (3, 4). For the physician and the patient, the question was not whether statins were valuable overall, but whether and how they should be used in populations excluded from the trials.Cost-effectiveness analysis can provide guidance for such decisions. Although much of its popularity stems from its convenience as a tool for balancing costs and benefits of treatments, diagnostic tests, and preventive interventions, cost-effectiveness analysis can do more. It offers a structured, explicit approach for combining data from multiple sources and for answering “what if” questions. Thus, for example, it can be used to extrapolate effectiveness from the results of clinical trials conducted in one population to populations at lower or higher risk for illness and death. The structured modeling of cost-effectiveness analysis makes this approach a useful adjunct to clinical trials even when costs are ignored.Two well-conducted studies in this issue illustrate this application of cost-effectiveness analysis. Both evaluate statin use in clinically important populations that were not studied adequately in randomized trials. Ganz and colleagues (5) assessed the cost-effectiveness of statins for secondary prevention in patients 75 to 84 years of age. By assuming that the relative risk reduction from statin use in these patients is similar to that observed in the somewhat younger population in the Cholesterol and Recurrent Events trial (6), Ganz and colleagues showed that statins are both effective and cost-effective when used for secondary prevention.Prosser and associates (7) asked similar questions about the cost-effectiveness of statins when they are used to treat diverse patients: men and women of various ages, with various cardiac risk profiles, with LDL cholesterol levels of 4.1 mmol/L or more (≥ 160 mg/dL), for both primary and secondary prevention of coronary heart disease. Although randomized, controlled clinical trials included some of these subgroups, none of the trials individually and none of the pooled analyses of all the published trials lend themselves to an analysis of so many finely defined subgroups.Prosser and associates (7) showed that statins are cost-effective when used for secondary prevention but not, in most instances, when used for primary prevention. Therapy with statins did not reach a cost-effectiveness ratio of $50 000 per quality-adjusted life-year in any of the 240 risk subgroups in the primary prevention component, and only one fourth of the risk subgroups reached the threshold of $100 000 per quality-adjusted life-year. Only in the presence of multiple risk factors would statins be considered cost-effective even at this threshold. Furthermore, at 35 years of age in men and 45 years of age in women, treatment of an elevated cholesterol level with anything other than diet is unlikely to be cost-effective unless other risk factors are present (7). Even with other risk factors, neither statin nor niacin treatment approaches conventional levels of cost-effectiveness in patients younger than these age thresholds. Prosser and associates' results are direct consequences of the epidemiology of coronary heart disease. In a low-risk population, a preventive intervention can be cost-effective only if it is very inexpensive.Findings such as these come as no surprise to physicians familiar with the epidemiology of coronary heart disease, but are they valid? Both studies extrapolate from randomized trials by assuming that the relative reduction in risk for coronary disease observed in the trial populations applies to other populations. They do not consider long-term adverse effects of treatment or, for that matter, benefits delayed beyond the observation period of the trials. The actual benefits of statins might therefore differ from the benefits assumed in these studies. A randomized trial in each of these populations, if it followed enough patients for enough years, would provide the most convincing evidence of effectiveness and the most compelling estimates of cost-effectiveness. But in the absence of such a trial, the approach taken by Ganz and Prosser and their colleagues has important virtues. It directly estimates effectiveness in the study populations on the basis of reasonable assumptions, and the sensitivity analyses demonstrate whether the findings are likely to differ if the specific assumptions are not precisely correct. Studies such as these cannot establish whether statins are effective—they base this assumption on the results of clinical trials. But their methods are far superior to less formal methods in estimating the magnitude of potential benefits.The results of the studies by Ganz and Prosser and their colleagues support the concept, implemented in the National Cholesterol Education Program's recommendations and other guidelines, that treatment with cholesterol-lowering drugs should be targeted to patients who have an elevated risk for coronary disease on the basis of both the lipid profile and other risk factors (8). They also support the rationale underlying the screening guidelines of the American College of Physicians (ACP), which recommend screening for adults who would undergo specific management (beyond the dietary recommendations made to all adults) on the basis of the results of lipid tests (9). The ACP guidelines call for cholesterol testing in all adults with known coronary heart disease, without any age limitation. The guidelines also state that for primary prevention, screening is appropriate starting at 35 years of age in men and 45 years of age in women, and at earlier ages if other risk factors are present. Prosser and associates' results suggest that the ACP guidelines would lead to testing of almost all men and women in whom drug therapy would be cost-effective (7).These studies reinforce the message that lipid management for secondary prevention should be a high priority, regardless of whether the patient is female or male, young or old. In the absence of multiple cardiac risk factors, statin therapy is far less cost-effective when used for primary prevention, particularly if high-risk patients receive other preventive therapies, such as aspirin (10). As we make progress in identifying effective new strategies for the prevention of coronary disease, these conclusions may need modification. For example, imaging techniques, including carotid ultrasonography, ultrafast cardiac computed tomography, and magnetic resonance imaging, are being assessed for their ability to detect atherosclerosis. If they are successful, they will help direct preventive efforts toward the patients who are most likely to benefit. Trials are evaluatingthe effectiveness of alternative preventive interventions, such as folate supplementation, that may reduce risk independently of cholesterol-lowering drugs. If these interventions prove to be cost-effective, the role of statins will change. Another important consideration is the changing costs of statins. As both studies show, the cost-effectiveness of therapy depends directly on the prices of the medications. If, as expected, patent expiration leads to a decrease in statin prices, the cost-effectiveness of these drugs in all patient populations will improve. For all of these reasons, strategies for the prevention of coronary disease will continue to evolve. For the time being, though, prudent—and cost-effective—practice means continuing to pursue a targeted approach to lipid management.References1. . Randomised trial of cholesterol lowering in 4444 patients with coronary heart disease: the Scandinavian Simvastatin Survival Study (4S). Lancet. 1994;344:1383-9. MedlineGoogle Scholar2. Shepherd J, Cobbe SM, Ford I, Isles CG, Lorimar AR, MacFarlane PW, et al . Prevention of coronary heart disease with pravastatin in men with hypercholesterolemia. West of Scotland Coronary Prevention Study Group. N Engl J Med. 1995;333:1301-7. CrossrefMedlineGoogle Scholar3. Hulley SB, Newman TB, Grady D, Garber AM, Baron RB, Browner WS. Should we be measuring blood cholesterol levels in young adults? JAMA. 1993;269:1416-9. CrossrefMedlineGoogle Scholar4. Garber A, Browner W, Hulley S. Cholesterol screening in asymptomatic adults, revisited. Part 2. Ann Intern Med. 1996;124:518-31. LinkGoogle Scholar5. Ganz DA, Kuntz KM, Jacobson GA, Avorn J. Cost-effectiveness of 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitor therapy in older patients with myocardial infarction. Ann Intern Med. 2000;132:780-7. LinkGoogle Scholar6. Sacks FM, Pfeffer MA, Moye LA, Rouleau JL, Rutherford JD, Cole TG, et al . The effect of pravastatin on coronary events after myocardial infarction in patients with average cholesterol levels. Cholesterol and Recurrent Events Trial Investigators. N Engl J Med. 1996;335:1001-9. CrossrefMedlineGoogle Scholar7. Prosser LA, Stinnett AA, Goldman PA, Williams LW, Hunink MG, Goldman L, et al . Cost-effectiveness of cholesterol-lowering therapies according to selected patient characteristics. Ann Intern Med. 2000;132:769-79. LinkGoogle Scholar8. National Cholesterol Education Program. Second Report of the Expert Panel on Detection, Evaluation, and Treatment of High Blood Cholesterol in Adults (Adult Treatment Panel II). Bethesda, MD; National Cholesterol Education Program, National Institutes of Health, National Heart, Lung, and Blood Institute; 1993. NIH Publication No. 93-3095. Google Scholar9. Guidelines for using serum cholesterol, high-density lipoprotein cholesterol, and triglyceride levels as screening tests for preventing coronary heart disease in adults. American College of Physicians. Part 1. Ann Intern Med. 1996; 124:515-7. Google Scholar10. Avins AL, Browner WS. Lowering risk without lowering cholesterol: implications for national cholesterol policy. Ann Intern Med. 1996;125:502-6. LinkGoogle Scholar Comments0 CommentsSign In to Submit A Comment Author, Article, and Disclosure InformationAuthors: Alan M. Garber, MD, PhDAffiliations: Veterans Affairs Palo Alto Health Care System; Stanford University; Palo Alto, CA (Garber)Grant Support: In part by the Homer Laughlin Endowment.Corresponding Author: Alan M. Garber, MD, PhD, Center for Primary Care and Outcomes Research, 179 Encina Commons, Stanford, CA 94305-6019. PreviousarticleNextarticle Advertisement FiguresReferencesRelatedDetailsSee AlsoCost-Effectiveness of Cholesterol-Lowering Therapies according to Selected Patient Characteristics Lisa A. Prosser , Aaron A. Stinnett , Paula A. Goldman , Lawrence W. Williams , Maria G.M. Hunink , Lee Goldman , and Milton C. Weinstein Cost-Effectiveness of 3-Hydroxy-3-Methylglutaryl Coenzyme A Reductase Inhibitor Therapy in Older Patients with Myocardial Infarction David A. Ganz , Karen M. Kuntz , Gretchen A. Jacobson , and Jerry Avorn Using Cost-Effectiveness To Target Cholesterol Reduction Jack Beaird Metrics Cited byA Look at Statin Cost-Effectiveness in View of the 2013 ACC/AHA Cholesterol Management GuidelinesCost-Effectiveness Analysis in Markets with High Fixed CostsGPs' decisions on drug treatment for patients with high cholesterol values: A think-aloud studyPotential cost-effectiveness of C-reactive protein screening followed by targeted statin therapy for the primary prevention of cardiovascular disease among patients without overt hyperlipidemiaEthical Considerations in Image-Based Screening for Coronary Artery DiseaseDeterminación de la proteína C reactiva para indicar el tratamiento con estatinas en la prevención primaria de los acontecimientos coronarios agudosC-Reactive Protein, Statins, and the Primary Prevention of Atherosclerotic Cardiovascular DiseaseUsing Cost-Effectiveness To Target Cholesterol ReductionJack Beaird, MDMeasurement of C-Reactive Protein for the Targeting of Statin Therapy in the Primary Prevention of Acute Coronary EventsÉtica de la prescripción. Conflictos del médico con el paciente, la entidad gestora y la industria farmacéuticaUtility of statins as secondary prevention in the elderly 16 May 2000Volume 132, Issue 10Page: 833-835KeywordsCholesterolClinical trialsCoronary heart diseaseDrugsLipidsLow density lipoproteinMedical risk factorsPopulation statisticsRandomized trialsStatins ePublished: 15 August 2000 Issue Published: 16 May 2000 PDF downloadLoading ...