Dyslipidemia: Managing a Key Cardiovascular Risk Factor

1. Dyslipidemia: Managing a Key Cardiovascular Risk Factor AIMGP Clinic Seminar Updated by R. Cavalcanti Sep 2006

2. Outline • Current Practice Guidelines • Cases • Global Risk Assessment • Whom to Screen for Dyslipidemia? • Risk Categories & Lipid Targets • Factors Influencing Risk Assessment • Selected Recent Trials • Management • Cases Revisited

3. Current Practice Guidelines • Canadian Guidelines • “Recommendations for the management of dyslipidemia and the prevention of cardiovascular disease: summary of the 2003 update” CMAJ 169(9):921-4, 28 Oct 2003 • Full text of 2003 update is only online, at: www.cmaj.ca/cgi/content/full/169/9/921/DC1 • “Recommendations for the management and treatment of dyslipidemia” CMAJ 162(10):1441-7, 16 May 2000

4. Current Practice Guidelines • American Guidelines • “Implications of Recent Clinical Trials for the National Cholesterol Education Program Adult Treatment Panel III Guidelines” Circulation 110:227-39, 13 July 2004 • “Executive Summary of the Third Report of the National Cholesterol Education Program (NCEP) Expert Panel on Detection, Evaluation, and Treatment of High Blood Cholesterol in Adults (Adult Treatment Panel III)” JAMA 285(19):2486-97, 16 May 2001

5. Case 1 • 56 M • Acute MI 4 months ago • No current cardiovascular symptoms • Tested for DM post-MI • Negative • Non-smoker, no HTN • Lipids measured while in hospital post-MI: • TC 4.2, LDL 2.5, HDL 1.3, TG normal (TC/HDL 3.2) • What is his estimated risk of a cardiovascular event in the next 10 years? • How should you manage his lipids?

6. Case 2 • 45 F • ‘Healthy’, BP 125/80 • Non-smoker, EtOH: 3 standard drinks/week • No cardiovascular symptoms • Lipids measured at annual visit: • TC 6.5, LDL 4.1, HDL 1.4, TG normal (TC/HDL 4.6) • What is her estimated risk of a cardiovascular event in the next 10 years? • How should you manage her lipids?

7. Case 3 • 55 F • DM Type 2 x 10 years (HbA1c 9.7%), HTN • post menopausal, BMI 33 • Non-smoker, EtOH: 4 standard drinks/day • No cardiovascular symptoms • Lipids measured at annual visit: • TC 5.9, HDL 0.78, TG 9.8 (TC/HDL 7.6) • What is her estimated risk of a cardiovascular event in the next 10 years? • How should you manage her lipids?

8. Current Challenges in Cardiovascular Risk Reduction • Aging Population • >20% Canadians will be >65 years old by 2011 • 1,900,000 Canadians >80 years old by 2026 • Obesity • 31% of Canadians are obese • Especially if abdominal adiposity, associated with increased prevalence of metabolic syndrome features (DM, HTN, ↑TGs, ↓HDL, insulin resistance) • Associated with ↑inflammatory markers (CRP, IL-6) • Diabetes • 60,000 new cases per year in Canada • 3,000,000 Canadians with DM by 2010

9. Global Risk Assessment • Since hyperlipidemia is important as a risk factor, it should be used to assess overall cardiac risk, and that risk should in turn be used to assess treatment goals and modalities • Cardiac endpoints? • non-fatal MI • death due to CAD

10. Global Risk Assessment • Risk assessment model adapted from the Framingham Heart Study • This model is only: • For non-diabetic patients • For patients without clinically evident cardiovascular disease (including prior CAD, ischemic stroke, and/or peripheral arterial disease) or CRF

11. Global Risk Assessment • Which patients are automatically considered high risk (>20% 10-year risk)? All adult patients with: • DM • History of CAD • Ischemic stroke • Peripheral arterial disease • CRF

12. Global Risk Assessment • What are the risk factors in Framingham risk calculator? • Age • Gender • Smoking history • Lipid profile (TC, HDL) • Systolic BP

13. If the calculated 10-year risk is: ≥20% - ‘High Risk’ 11-19% - ‘Moderate Risk’ ≤10% - ‘Low Risk’

14. Whom to Screen for Dyslipidemia? Influenced by cardiac risk factors: • By age alone: • Men over age 40 • Women over age 50 (or post-menopausal) • Other risk factors (at any age): • DM, HTN, Smoking, Abdominal Obesity • Family history of early cardiovascular disease • Physical signs of hyperlipidemia (at any age): • Xanthomata, xanthelasmas, arcus corneae, etc • Evidence of existing atherosclerosis (at any age)

15. Manifestations of Dyslipidemia Xanthelasmas and tendon xanthomata in patients with severe ↑LDL (the patient at the bottom has heterozygous familial hyperchol-esterolemia) Eruptive xanthomata on the forearm of a patient with severe ↑TGs

16. Diagnosis of Asymptomatic Atherosclerosis • To aid in risk stratification • Recommended: • Physical examination • Ankle-Brachial Index • Possibly useful in patients already known to be at ‘moderate risk’: • Carotid ultrasonography • EKG • Exercise stress testing in men >40 years old with established cardiovascular risk factors

17. Risk Categories & Lipid Targets More about LDL targets to come later – for high-risk patients, these are minimum targets – they should be lower if at all possible

18. Lipid Targets: Triglycerides • There is no longer a discrete triglyceride goal in each category, but the optimal level is set at TG <1.7 • If TG >10 it needs targeted treatment (diet & lifestyle changes, fibrate or niacin, fish oil) to prevent pancreatitis independent of cardiovascular risk

19. Factors Influencing Risk Assessment • Metabolic Syndrome • Abdominal Obesity • Apolipoprotein B (apoB) • Lipoprotein(a) • Homocysteine • C-Reactive Protein (CRP) • Genetic Risk • Hormone Replacement Therapy (HRT)

20. Factors Influencing Risk Assessment • Presence of the Metabolic Syndrome • A clustering of cardiovascular risk factors, including abdominal obesity, insulin resistance, and hypertension, as well as lipid abnormalities (↑TGs and ↓HDL) • Presence of Abdominal Obesity • with waist circumference as a useful estimate

21. Factors Influencing Risk Assessment • Apolipoprotein B (apoB) • There is 1 molecule of apoB in each atherogenic lipid particle (VLDL, IDL, LDL, lp(a))’ • ↑apoB (for the same lipid levels) = smaller, denser, more atherogenic LDL particles • Better estimate than LDL of cardiovascular risk • ApoB levels correlate better than LDL levels to clinical outcomes in statin trials • For ‘high risk’ patients, target apoB <0.9g/L • Sample does not need to be fasting

22. Factors Influencing Risk Assessment • Lipoprotein(a) (lp(a)) • Appears to be an independent risk factor for premature atherosclerosis and CAD • Its atherogenicity seems to depend on the presence of other factors, and its utility as a risk factor seems to disappear if the LDL is markedly lowered • Monogenic and not responsive to diet • Lp(a) >30mg/dL in patients with TC/HDL ratio >5.5 or other major risk factors may indicate need for earlier and more intensive LDL-lowering therapy

23. Factors Influencing Risk Assessment • Homocysteine • ↑homocysteine levels predict adverse outcomes in patients with CAD • Fixed-dose folate & B12 trials looking at cardiovascular endpoints are ongoing • No ‘treat-to-target’ trial (to homocysteine <9μmol/L) • No evidence yet to screen for homocysteine

24. Factors Influencing Risk Assessment • C-Reactive Protein (CRP) • ↑CRP may add prognostic information to Framingham Study data • ↑CRP associated with abdominal obesity and the metabolic syndrome • May be clinically useful in identifying people who are at higher risk than their Global Risk Assessment would indicate (especially for people with a calculated 10-year risk of 11-19%, so calculated to be at ‘moderate risk’)

25. Factors Influencing Risk Assessment • C-Reactive Protein (CRP) • Do not measure during an acute illness or in patients with chronic inflammatory disease • Measure 2x, two weeks apart, and use the lower value • Low risk <1 mg/ml & high risk 3-10mg/ml • If >10mg/ml, look for infection/inflammation

26. Factors Influencing Risk Assessment • Genetic Risk • A confirmed, unambiguous family history of early onset CAD increases the risk for first-degree relatives (parents, siblings, children) • RRI 1.7-2.0 • Early onset is defined as <55 years old for men and <65 years old for women (this is the age of the index relative who had the cardiac event)

27. Factors Influencing Risk Assessment • Hormone Replacement Therapy (HRT): • Should not be initiated for primary or secondary prevention of CAD • Unless otherwise necessary (e.g. for osteoporosis treatment or for severe menopausal symptoms) try to stop or taper HRT in women >55 years old who have been on it for >5 years • Consider stopping HRT in the setting of an acute cardiovascular event • Consider stopping HRT before an ACB, PCI, or other surgical procedure

28. Selected Major Trials • MRC/BHF Heart Protection Study: • HPS: Lancet 360(9326):7-22, 6 July 2002 • 20,556 men & women aged 40-80 with TC >3.5 • All at ‘high risk’ of CAD • Known CAD/MI/PVD/CVS • DM, HTN, or both • RCT: Simvastatin 40mg vs. placebo • Decreased death rate by 13% • Decreased combined cardiovascular end points by 24% • Benefits in all subgroups, including baseline LDL <2.6 • Very compelling, well done trial • Ultimate LDL target still unclear, other studies now looking at LDL targets of <1.8

29. Selected Major Trials • Anglo-Scandinavian Cardiac Outcomes Trial • ASCOT: Lancet 361(9364):1149-58, 5 April 2003 • 9000 patients aged 40-79 with baseline TC <6.5 • All hypertensive • Had at least 3 risk factors for CAD • No pre-existing coronary disease • RCT: Atorvastatin 10mg vs. placebo • MI by 36% • stroke rate by 27% • all cardiovascular events and procedures by 21% • total coronary events by 29% • Study was stopped after 3 years because of significant benefit in the treatment group

30. Selected Major Trials • The INTERHEART study • Effect of potentially modifiable risk factors associated with myocardial infarction in 52 countries: Lancet 364(9437):4999-5014, 4 Sept 2004 • Case Control: 15,152 cases & 14,820 controls in 52 countries on every inhabited continent • Findings consistent between old/young, male/female, different countries with different standards of living • 9 risk factors accounted for >90% (in men) and >94% (in women) of the population attributable risk (PAR) of acute MI

31. Selected Major Trials • The INTERHEART study: • The 9 risk factors: • Smoking (OR 2.87 current vs. never, p<0.0001) • ↑ApoB/ApoA1 ratio (OR 3.25 1st vs. 5th quintile, p<0.0001) • History of HTN (OR 1.91, p<0.0001) • DM (OR 2.37, p<0.0001) • Abdominal Obesity (OR 1.12 1st vs. 3nd tertile & OR 1.62 2nd vs. 3rd tertile, p<0.0001) • psychosocial factors (OR 2.67, p<0.0001) • eating fruits & vegetables daily (OR 0.70, p<0.0001) • ≥3 units/week of alcohol (OR 0.91, p=0.03) • moderate/strenuous physical activity (OR 0.86 , p<0.0001)

32. Treatment

33. Treatment

34. Treatment • In ‘high risk’ patients: • Start drug treatment immediately, concurrently with diet and lifestyle modification • Priority is to get LDL <2.5 and TC/HDL <4 • Given HPS data: • Treat with Simvastatin 40mg or equivalent statin • LDL target of 2.5 at most • If can’t reach LDL <2.5: • Bile acid sequestrants (cholestyramine, colestipol) • Cholesterol absorption inhibitors (ezetimibe) better tolerated • Either can decrease LDL by another 10-20% compared with statin alone

35. Treatment • If TC/HDL ratio is still high: • Lifestyle modification • Increasing Statin Dose (with LDL at target) • Combination Drug Therapy

36. Treatment • Lifestyle modification: • For ↑TGs: weight loss, restriction of refined carbohydrates, no alcohol, increased exercise • For ↓HDL: weight loss, increased monounsaturated fats, moderate alcohol (if TGs normal), increased aerobic exercise

37. Treatment • Increasing Statin Dose (with LDL at target): • For ↓HDL and/or mild ↑TGs (TGs <5), may achieve target TC/HDL ratio by increasing the statin dose even if the target LDL has been reached

38. Treatment • Combination Drug Therapy: • Moderate ↑TGs -> add salmon oil (1-3g tid) to statin • ↓HDL -> combine statin with niacin. Caution: 1) niacin can cause increased insulin resistance, 2) niacin-statin combination increases risk of hepatotoxicity • If intolerant to niacin -> consider statin-fibrate combination (simvastatin or pravastatin with fenofibrate, NOT gemfibrozil) • lowest possible doses of each • very close follow-up watching for hepatotoxicity and myositis • if no CRF

39. Treatment • If ↑TGs: • Ideal target <1.7 • 1st line: lifestyle modification • Treatments aimed at lowering the TC/HDL ratio usually also help lower TGs • If TGs >6 despite lifestyle changes, need drug treatment even if the TC/HDL ratio is acceptable • Treatment is needed to avoid pancreatitis • Options: • Fibrate • Niacin • Salmon oil

40. Follow-Up Which blood work should be ordered in follow-up? How frequently?

41. Follow-Up • Lipids: • 6 weeks after start / change of dose (levels reach steady state within 6 weeks of start/change of medication) • Long-term follow-up every 6-12 months • AST / ALT / CK: • Get baseline • Repeat whenever you test lipids: • 6 weeks after a dose increase • Every 6-12 months • Check more frequently: • If on maximum doses • If on combination therapy (especially a statin plus a fibrate) • Check if symptomatic

42. Case 1 Revisited • 56 M • Acute MI 4 months ago • No current cardiovascular symptoms • Tested for DM post-MI • Negative • Non-smoker, no HTN • Lipids measured while in hospital post-MI: • TC 4.2, LDL 2.5, HDL 1.3, TG normal (TC/HDL 3.2) • What is his estimated risk of a cardiovascular event in the next 10 years? • Assumed to be ≥20% • How should you manage his lipids?

43. Case 2 Revisited • 45 F • ‘Healthy’, BP 125/80 • Non-smoker, 3 units EtOH/week • No cardiovascular symptoms • Lipids measured at annual visit: • TC 6.5, LDL 4.1, HDL 1.4, TG normal (TC/HDL 4.6) • What is her estimated risk of a cardiovascular event in the next 10 years? • Calculated to be 1% • How should you manage her lipids?

44. Case 3 Revisited • 55 F • DM Type 2 x 10 years (HbA1c 9.7%), HTN • post menopausal, BMI 33 • Non-smoker, 4 units EtOH/day • No cardiovascular symptoms • Lipids measured at annual visit: • TC 5.9, HDL 0.78, TG 9.8 (TC/HDL 7.6) • What is her estimated risk of a cardiovascular event in the next 10 years? • Assumed to be ≥20% • How should you manage her lipids?