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YOU ASKED FOR IT!
Each individual issue of LipidManagement™ is now certified for CME credit—see page 3 for details on how to apply for instant CME credit through lipidhealth.org.
YOUR NEW PATIENT HANDOUT!
See page 5 for Considering Cholesterol, our patient-education tool. Photocopy and distribute this plain-language review of facts and figures to keep your patients better informed about their health.

This issue's article: The Heart Health Quiz






Antonio M. Gotto, Jr, MD, DPhil
Joan and Sanford I. Weill Medical
   College of Cornell University

Elizabeth Barrett-Connor, MD
University of California, San Diego,
   School of Medicine

Peter Ganz, MD
Harvard Medical School
Brigham and Women's Hospital

Scott M. Grundy, MD, PhD
University of Texas Southwestern
   Medical Center at Dallas

Steven M. Haffner, MD
University of Texas Health Science Center

 Donald B. Hunninghake, MD
University of Minnesota Medical School

 Ronald M. Krauss, MD
Lawrence Berkeley National Laboratory
University of California, Berkeley

 John C. LaRosa, MD
SUNY Downstate Medical Center

 Peter Libby, MD
Harvard Medical School
Brigham and Women's Hospital

 Harry L. Metcalf, MD
SUNY/Buffalo School of Medicine and
   Biomedical Sciences

Copyright © 2003 Thomson Professional Postgraduate Services® (PPS), 150 Meadowlands Parkway, Secaucus, NJ 07094-2304 USA. All rights reserved.

This material may not be reproduced without the express written permission of PPS. LipidManagement™ is an educational initiative of the National Lipid Education Council©. NLEC, National Lipid Education Council and LipidManagement are trademarks used herein under license.



Supported by an unrestricted educational grant from Pfizer Inc


 

Related information on this website:

In the Current Literature section:
Major Outcomes in Moderately Hypercholesterolemic, Hypertensive Patients Randomized to Pravastatin vs Usual Care: The Antihypertensive and Lipid-Lowering Treatment to Prevent Heart Attack Trial (ALLHAT-LLT)

Prevention of Coronary and Stroke Events With Atorvastatin in Hypertensive Patients Who Have Average or Lower-Than-Average Cholesterol Concentrations, in the Anglo-Scandinavian Cardiac Outcomes Trial—Lipid Lowering Arm (ASCOT-LLA): A Multicentre Randomised Controlled Trial

MRC/BHF Heart Protection Study of Cholesterol-lowering With Simvastatin in 5,963 People With Diabetes: A Randomised Placebo-controlled Trial

Multifactorial Intervention and Cardiovascular Disease in Patients with Type 2 Diabetes


In the Newsletter section:
Case Study: Black Male With Hypertension and Average Cholesterol Concentrations-Putting Trial Results Into Practice


In the Dynamic Slide Library section:
ATP III: Management of Diabetic Dyslipidemia

HPS Diabetes Substudy: Absolute Effects on 5-Year Rates of First Major Vascular Event

ALLHAT-LLT: All-Cause Mortality

ASCOT-LLA: Primary End Point in Subgroups

STENO-2: Effect of Therapies on Selected Risk Factors
Dyslipidemia and Type 2 Diabetes
What Do Clinical Trial Results Mean to Practicing Clinicians?

Dyslipidemia is common in persons with type 2 diabetes—which accounts for 90% to 95% of all cases of diabetes1—and contributes significantly to their two- to fourfold increased risk of developing coronary heart disease (CHD).2 Medical practitioners may expect to treat an increasing number of patients with diabetes and dyslipidemia: In addition to the approximately 17 million people with diagnosed diabetes, an additional 16 million have prediabetes that may progress to frank diabetes. Practitioners are in a position to reduce the incidence of CHD and other vascular disorders in their patients by appropriate treatment of diabetes and diabetic dyslipidemia, which is modifiable.2
     Diabetic dyslipidemia is characterized by elevated TG, decreased HDL-C, and a predominance of atherogenic small, dense LDL particles.2 Levels of LDL-C usually do not differ significantly from those in individuals who do not have diabetes. This article summarizes the diabetes-specific results of four recently published studies that addressed antidyslipidemia drug therapy and suggests how these results may be applicable in the management of dyslipidemic patients with diabetes. The overall conclusion that may be drawn from the collective studies is that HGM-CoA reductase inhibitor (statin) therapy should be considered for all patients with diabetes who are at increased risk for CHD and major vascular events.

HPS Substudy: First Major Vascular Event by LDL-C and Prior Diabetes Status
HPS Collaborative Group. Lancet. 2003;361:2005-2016.

The Medical Research Council/British Heart Foundation Heart Protection Study (HPS) compared simvastatin with placebo in high-risk patients.3 The study enrolled patients from July 1994 to May 1997 and followed them for 5 years. Patients 40 to 80 years old had TC levels of >135 mg/dL and at least one of the following risk factors: diabetes, CHD, occlusive disease of noncoronary arteries, or treated hypertension (males older than 65 years). In all, 5,963 patients with diabetes and 14,573 persons without diabetes were randomly allocated to receive simvastatin 40 mg daily or placebo. In the substudy of subjects with diabetes, treatment effect was based on the incidence of a first major coronary event (a nonfatal myocardial infarction [MI] or coronary death), a first major vascular event (a major coronary event, stroke, or revascularization procedure), and subsequent vascular events.
    Results: The following results of simvastatin therapy in patients with diabetes are all statistically significant compared with placebo. The rate of first major coronary events was reduced by 27%: first nonfatal MI, by 37%, and coronary mortality, by 20%. There was also a 22% reduction in the rate of first major vascular events: first nonfatal or fatal stroke, by 24%, and first revascularization procedure, by 17%. Lowering of LDL-C by an average of 40 mg/dL reduced the risk for major vascular events by about a quarter. The reduction in rate of major vascular events was 33% among diabetic participants who did not have occlusive arterial disease at study entry and 27% among diabetic participants whose pretreatment LDL-C was <116 mg/dL.
    Among those patients who had a first major vascular event following randomization, simvastatin reduced the rate of subsequent events. Thus, simvastatin prevented both first and subsequent major vascular events.3 Similar effects of simvastatin allocation on first major vascular event were seen in subjects with type 1 diabetes and in those with type 2 diabetes, although there were only 615 subjects in the type 1 category.
    Significance for practice: Study authors wrote that statin therapy should be considered routinely for all patients with diabetes who are at high risk for major vascular events, irrespective of their initial cholesterol concentration—even if they do not already have manifest CHD or hypercholesterolemia. In patients with diabetes, treatment with simvastatin 40 mg daily reduced the rate of first major vascular events by about a quarter (and may have reduced it by about one-third had they been more compliant with therapy).

ASCOT-LLA: Primary End Point in Subgroups
Note: Area of squares is proportional to the amount of statistical information. Sever PS et al. Lancet. 2003;361:1149-1158.

The Anglo-Scandinavian Cardiac Outcomes Trial Lipid-Lowering Arm (ASCOT-LLA) randomly assigned patients who had hypertension and a nonfasting TC level of <250 mg/dL to receive atorvastatin 10 mg daily or placebo, in addition to the antihypertensive regimen they were receiving as participants in the basic ASCOT trial.4 Patients were recruited between February 1998 and May 2000, with plans for an average 5-year follow-up. The primary outcome was nonfatal MI or CHD death. ASCOT-LLA had 10,305 participants, aged 40 to 79 years. In addition to hypertension, they had at least three other CHD risk factors. There were 1,258 patients with diabetes assigned to receive atorvastatin and 1,274 patients with diabetes assigned to receive placebo.
    Results: ASCOT-LLA was stopped after a median follow-up period of only 3.3 years, because 154 primary events had occurred in the placebo group compared with only 100 primary events in the atorvastatin group (hazard ratio [HR] 0.64; 95% CI 0.50–0.83; P=0.0005). The benefit of atorvastatin therapy was evident in the first year of the study. In the entire group of patients, atorvastatin therapy resulted in a significant reduction in the incidence of total cardiovascular and total CHD events and strokes compared with placebo. In the subgroup of patients with diabetes, atorvastatin also resulted in a relative reduction in CHD events; this reduction was not significantly different from the reduction in the entire group of ASCOT-LLA patients, and in itself was not of statistical significance.
    The relative reduction in the primary end point among patients with diabetes was less than that among patients without diabetes: The HR was 0.84 for patients with diabetes and 0.56 for patients without diabetes. There may have been an insufficient number of patients in the diabetes subgroup to provide statistical significance: There were only 84 CHD events in the diabetes subgroup. The shortened follow-up period of the trial may have contributed to the relatively low number of CHD events.
    Discussion: ASCOT elicited many opinions after results were published. In several letters to the editor, some questions were raised about the methodological issues used, the lack of benefit with atorvastatin vs placebo among women (HR=1.10; P=0.769), and the early termination of the trial.5
    The authors replied to these queries with a lengthy letter to the editor.5 They contended that the concerns raised about the benefit in women can be explained by limited power; supportive evidence was based on analyses of the larger number of major CV events and procedures in women, showing that those on atorvastatin had 20% fewer such events than those on placebo (P=0.17). In response to questions about early termination, the authors wrote that the decision was made by the data safety monitoring board on the grounds that the predetermined stopping rules for the primary end point had been exceeded, with significant differences between the atorvastatin and placebo groups (P=0.0005); the decision was also supported by a significant reduction in stroke in the atorvastatin group (P=0.02).5
    In patients with diabetes, the reduction in the incidence of primary end-point events was not statistically significant. This may be explained by the absolute number of events (only 84), inadequate power, or treatment crossover (14% of placebo patients with diabetes began using a statin compared with 8% placebo patients without diabetes).4 However, patients who had diabetes did experience a significant 23% reduction in total cardiovascular events with atorvastatin vs placebo.
    Significance for practice: Atorvastatin may be expected to reduce the incidence of major cardiovascular events in moderately high-risk patients who have diabetes and treated hypertension.

Steno-2: Effect of Therapies on Selected Risk Factors
Gaede P et al. N Engl J Med. 2003;348:383-393.

The Steno-2 Study from the Steno Diabetes Center in Copenhagen, Denmark, was an 8-year trial that ended in December 2001.6 It was a randomized, open-label, parallel study of modifiable risk factors for cardiovascular disease (CVD) in patients with type 2 diabetes and microalbuminuria, comparing conventional treatment in 80 patients vs targeted intensified multifactorial intervention in 80 patients. The primary end point was a composite of death from cardiovascular causes, nonfatal MI, nonfatal stroke, revascularization, amputation resulting from ischemia, or vascular surgery for peripheral atherosclerotic disease. The mean age of patients was 55.1 years; the mean follow-up period was 7.8 years.
    Conventional treatment followed Danish national guidelines. Intensive treatment targeted hyperglycemia, hypertension,
dyslipidemia, microalbuminuria, and secondary prevention of CVD through stepwise implementation of behavior modification (diet, exercise, smoking cessation) and pharmacologic therapy. This therapy consisted of an ACE inhibitor equivalent to captopril 50 mg bid or an angiotensin II–receptor antagonist equivalent to losartan 50 mg bid, a multivitamin-mineral supplement, aspirin 150 mg/day, oral hypoglycemic medication and insulin if indicated, antihypertensive medication, a statin for elevated fasting cholesterol or combined dyslipidemia, and a fibrate for isolated hypertriglyceridemia.
    Results: The intensified multifactorial intervention significantly reduced both the primary end point of CVD and the secondary end points of microvascular events (nephropathy, retinopathy, neuropathy). Compared with the conventional-therapy group, the intensive-therapy group had statistically significant declines in glycosylated hemoglobin values (0.2% conventional vs -0.5% intensive; P<0.001), systolic BP (-3 mm Hg vs -14 mm Hg; P<0.001), diastolic BP (-8 mm Hg vs -12 mm Hg; P=0.006), fasting serum TC (-3 mg/dL vs -50 mg/dL; P<0.001), fasting serum TG (9 mg/dL vs -41 mg/dL; P=0.015), and urinary albumin excretion rates (30 mg/24 hr vs -20 mg/24 hr; P=0.007). Patients in the intensive-therapy group also had a significantly lower risk for CVD (HR 0.47; 95% CI 0.24–0.73), nephropathy (HR 0.39; 95% CI 0.17–0.87), retinopathy (HR 0.42; 95% CI 0.21–0.86), and autonomic neuropathy (HR 0.37; 95% CI 0.18–0.79).
    Significance for practice: “A target-driven, long-term, intensified intervention aimed at multiple risk factors in patients with type 2 diabetes and microalbuminuria reduces the risk of cardiovascular and microvascular events by about 50%.”6

ALLHAT-LLT: All-Cause Mortality
ALLHAT Collaborative Research Group. JAMA. 2002;288:2998-3007.

The Lipid-Lowering Trial component of the Antihypertensive and Lipid-Lowering Treatment to Prevent Heart Attack Trial (ALLHAT-LLT) compared the effect of pravastatin vs usual care on all-cause mortality and CHD events (MI or fatal CHD).7 The nonblinded trial was conducted from February 1994 through March 2002, with follow-up up to 8 years (mean follow-up of 4.8 years). Trial participants had hypertension and at least one other CHD risk factor, were at least 55 years of age and moderately hypercholesterolemic (fasting LDL-C 120–189 mg/dL if they were not known to have CHD, or 100–129 mg/dL if they were known to have CHD), and had a fasting TG level <350 mg/dL. Of the 10,355 persons in the trial, 35% had type 2 diabetes and 14% had CHD. Patients were randomized to receive pravastatin 40 mg/day (n=5,170) or usual care (n=5,185). There were 1,855 patients with type 2 diabetes in the pravastatin group and 1,783 in the usual-care group.
    For patients in the pravastatin group, physicians were permitted to reduce the dose of pravastatin or discontinue the drug if adverse events occurred, and to prescribe cholesterol-lowering drugs other than pravastatin. For the usual-care group, physicians used their own discretion in prescribing LDL-C–lowering treatment, but vigorous therapy was discouraged unless warranted by a change in clinical circumstances.
    Results: The presence of diabetes made no significant difference in the outcome of therapy between patients assigned to pravastatin or usual care. Overall, there was a greater lowering of TC and LDL-C levels in the pravastatin group compared with the usual-care group: At year 4 of the trial, TC levels were reduced by 17% in the pravastatin group and by 8% in the usual-care group, while LDL-C levels were reduced by 28% and 11%, respectively. There was no significant difference between the pravastatin and usual-care groups in all-cause mortality or cardiac event rates: At year 6, the all-cause mortality rate was 14.9% for the pravastatin group and 15.3% for the usual-care group, and the CHD event rate was 9.3% and 10.4%, respectively.
    Discussion: Pravastatin did not significantly reduce either all-cause mortality or CHD events when compared with usual care of dyslipidemia. This was likely due to the design and execution of the trial, which resulted in a diminished difference between the two treatment groups (owing to high crossover rate in the usual-care group and a low adherence rate in the pravastatin group) and not to the lack of efficacy of pravastatin in patients who have hypertension. ALLHAT-LLT was intended to make the two therapies—pravastatin and usual care—different enough from each other, and the groups large enough, to demonstrate significant differences in outcomes. As it turned out, the difference in therapy decreased over the course of the trial.8 Some patients who were allocated to receive pravastatin discontinued the drug (77% adherence by year 6) or had the dose lowered, effectively making their therapy usual care, and almost a third of the patients in the usual-care group had a statin or other lipid-lowering drug added, effectively making them part of the pravastatin group.7 This “crossover” of therapy was made easier because patients and physicians knew which patients were receiving pravastatin.8
    At year 4, the differences between the pravastatin and usual-care groups in percent lowering of TC (9.6% difference) and LDL-C (16.7% difference) were less than those effected by statins vs placebo in other clinical trials.7 Moreover, in ALLHAT-LLT, the reported decrease in LDL-C was calculated in a random subset of patients, not in the total sample. It is also important to note that ALLHAT-LLT enrolled too few patients—fewer than planned—to be able to demonstrate statistically significantly reduced mortality and CHD event rates based on a diminished difference between the atorvastatin and usual-care groups.8
    Significance for practice: Despite evidence from other large trials that statins do benefit those with lipid disorders, ALLHAT-LLT did not demonstrate a reduction in all-cause mortality or CHD events with pravastatin compared with usual care. This probably arose from faults in trial design and execution, including the fact that private physicians were permitted to make certain alterations in therapy as needed to improve results. The outcome of ALLHAT-LLT should not discourage the use of statins in patients with diabetes. Rather, the trial highlights the importance of adherence to therapy for the reduction of risk in clinical practice.
    ALLHAT-LLT, like ASCOT-LLA, had about 10,000 lipid subjects, and both studies were embedded within larger hypertension trials. The important thing to note in these trial arms is the degree of LDL-C lowering that was seen.


References*
1. MADA. http://www.diabetes.org/main/homepage.jsp. Accessed July 29, 2003.
2. ADA. Diabetes Care. 2003;26(suppl 1):S83-S86.
3. Collins R et al. Lancet. 2003;361:2005-2016.
4. Sever PS et al. Lancet. 2003;361:1149-1158.
5. Letters to the Editor. Lancet. 2003;361:1985-1988.
6. Gaede P et al. N Engl J Med. 2003;348:383-393.
7. ALLHAT Collaborative Research Group. JAMA. 2002;288:2998-3007.
8. Pasternak RC. JAMA. 2003;288:3042-3044.

*For complete citations, please click here.

This article has been reviewed by NLEC Steering Committee member Steven M. Haffner, MD, Professor of Medicine, University of Texas Health Science Center, San Antonio, Texas.

This article was reviewed for medical accuracy by Antonio M. Gotto, Jr, MD, DPhil, chairman of the National Lipid Education Council®. Dr Gotto has indicated a financial interest or affiliation as noted: consultant for AstraZeneca, Bayer Corporation, Bristol-Myers Squibb Company, Merck & Co., Inc., Pfizer Inc, and Reliant Pharmaceuticals.