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Treatment Targets and Pharmacologic Therapies
Treatment Targets and Pharmacologic Therapies 1 www.lipid.org Outline Chapter 1: Treatment Targets Chapter 2: Overview of Pharmacotherapy • Statins • Niacin • Fibrates • Bile Acid Sequestrants • Cholesterol Absorption Inhibitors • Omega-3 Fatty Acids Chapter 3: Combination Therapy and Specific Dyslipidemias 2 www.lipid.org Lipoprotein Subclasses Chylomicrons VLDL 0.95 1.006 Density (g/mL) IDL Chylomicron Remnants 1.02 LDL TG LDL Cholesterol 1.06 HDL3 1.10 HDL2 Non-HDL Cholesterol HDL-C 1.20 5 TG= Triglycerides 10 20 Apo B 40 Diameter (nm) 60 80 1000 3 www.lipid.org Chapter 1 Treatment Targets 4 www.lipid.org What is a Treatment Target? • A variable where it is established that the presence of this variable, or quantitative amount of this variable, is associated with incremental risk of harm or clinical benefit • Therapy is guided to attain a “goal” value for a treatment target – Examples: LDL-C, non-HDL-C • Most other biomarkers, risk markers, or risk factors, are not considered treatment targets – Examples: Lp(a), hs-CRP 5 www.lipid.org LDL-C and CHD Risk Relative Risk for CHD (Log Scale) 3.7 2.9 2.2 30 mg/dL 30 mg/dL 1.7 30 mg/dL 1.3 30 mg/dL 1.0 40 CHD=Coronary Heart Disease 70 100 130 160 190 LDL Cholesterol (mg/dL) Grundy S et al. Circulation. 2004;110:227-239. 6 www.lipid.org NCEP ATP III Guidelines: Dyslipidemia Targets of Treatment • Primary Target: LDL-C – Goal value based on CV risk • Secondary Target: Non-HDL-C – Only after LDL-C goal met and TG 200 mg/dL – Goal is always the LDL-C goal + 30 • Tertiary Target: HDL-C – Only for metabolic syndrome after other targets met – Goal >40 mg/dL in men, >50 mg/dL in women CV/CVD= Cardiovascular Disease Grundy SM et al. Circulation. 2004;110:227-239. Grundy SM et al. Circulation. 2005;112:2735-2752. Brunzell JD et al. Diabetes Care. 2008;31:811-822. 7 www.lipid.org NCEP ATP III Goals & Cutpoints for TLC and Drug Therapy Risk Category High Risk: CHD or CHD Equivalent LDL-C Goal Non-HDL-C Goal Initiate TLC (mg/dL) (mg/dL) (mg/dL) <100 <130 <70* Moderately High Risk: 2+ Risk Factors 100 <100: for high risk patients <160 130 130 100 – 129: consider to achieve LDL-C goal of <100 <160 130 160 160 190 160 – 189: LDL-C Lowering Drugs Optional <100 <130 Optional Goal: (10-y risk 10-20%) Moderate Risk: 2+ Risk Factors <100 <130 (mg/dL) 100 Optional Goal: (10-y risk > 20%) Consider Drug Treatment (10-y risk < 10%) Lower Risk: 0-1 Risk Factors <160 <190 (10-y risk < 10%) * For Very High Risk patients NCEP ATP III =National Cholesterol Education Program. Adult Treatment Panel III guidelines. TLC= Therapeutic Lifestyle changes Grundy S et al. Circulation. 2004;110:227-239. 8 www.lipid.org NCEP ATP III: LDL-C Goal Values CHD or CHD Risk Equivalent# Yes No 2 major CV risk factors* Yes No Calculate 10-year CHD risk: Framingham Score >20% 10-20% <10% High Risk <100 mg/dL, Moderately-High Risk If Very High Risk High Risk <70 mg/dL is optional <100 mg/dL <130 mg/dL, <100 mg/dL is optional Moderate Risk Low Risk <130 mg/dL <160 mg/dL # non-coronary atherosclerotic vascular disease (e.g., ischemic stroke, peripheral arterial disease) or diabetes *Age (45 years men, 55 years women), hypertension, smoking, family history of premature CHD in primary relatives, HDL-C < 40 mg/dL Grundy S et al. Circulation. 2004;110:227-239. 9 www.lipid.org ATP III: Very High Risk Definition • Presence of “established CVD” plus: – multiple major risk factors (esp. diabetes) – severe and poorly controlled risk factors (esp. continued cigarette smoking), – multiple metabolic syndrome risk factors (esp. triglycerides ≥ 200 mg/dL plus non-HDL-C ≥ 130 mg/dL with HDL-C < 40 mg/dL), and – patients with acute coronary syndromes • Optional goal of <70 mg/dL does not apply to individuals who are not at least high risk Grundy SM et al. Circulation. 2004; 110:227-39. 10 www.lipid.org AHA/ACC Guidelines: Secondary Prevention for Patients with Coronary and Other AVD • LDL-C goal values: – 100 mg/dL – Further reduction to 70 mg/dL is reasonable – 70 mg/dL if baseline LDL-C is 70-100 mg/dL • If LDL-C <70 mg/dL is not possible because of a high baseline LDL-C: – Achieve LDL-C reduction of 50% with statins or combination regimens. AHA= American Heart Association. ACC= American College of Cardiology AVD= Atherosclerotic Vascular Disease Smith SC, Jr, et al. J Am Coll Cardiol. 2006;47:2130–2139. 11 www.lipid.org ATP III: 2004 Update Doses that Attain 30-40% LDL-C Reductions Dose (mg/d) 10 40 LDL-C reduction (%) 39 31 40 34 Simvastatin (Zocor®) Fluvastatin (Lescol®) 20-40 40-80 35-41 25-35 Rosuvastatin (Crestor®) 5-10 39-45 Drug Atorvastatin (Lipitor®) Lovastatin (Mevacor®) Pravastatin (Pravachol®) – Pitavastatin (Livalo®) 1 mg daily provides ~ 32% LDL-C reduction Grundy S et al. Circulation. 2004;110:227-239. Livalo [package insert] Kowa Pharmaceuticals; 2010. 12 www.lipid.org Case Scenario 1 • Tom is a 48-year-old man with a history of hypertension and dyslipidemia has been treated with diet and exercise therapy for high cholesterol for the past two years • His present fasting lipid panel is: TC = 240 mg/dL, HDL-C = 30 mg/dL, TG = 250 mg/dL, LDL-C = 170 mg/dL • He does not have AVD or diabetes, but he does have “prediabetes” and his Framingham Risk score of 7% TC= Total Cholesterol 13 www.lipid.org Case Scenario 1, cont. • According to the NCEP ATP III, which of the following is the most appropriate primary target of therapy for Tom at this time? 1. 2. 3. 4. LDL-C < 70 mg/dL LDL-C < 100 mg/dL LDL-C < 130 mg/dL LDL-C < 160 mg/dL 14 www.lipid.org Case Scenario 1, cont. • Which of the following best explains why targeting non-HDL-C lowering to a goal value is not yet needed in this patient? 1. 2. 3. 4. His non-HDL-C is already low enough His triglycerides are not ≥ 500 mg/dL His HDL-C should be raised first His LDL-C is not yet at goal 15 www.lipid.org Polling Question… • Which of the following patients is considered by the ATP III as very high risk and has an optional LDL goal of < 70 mg/dL? 1. A 50-year-old man, family history of premature CHD (father), smoker, Framingham score is 25% 2. A 30-year-old woman, type 1 diabetes 3. A 60-year-old man, chronic stable angina, smoker, uncontrolled hypertension 4. A 70-year-old man, uncontrolled hypertension, Framingham score is 30% 16 www.lipid.org Chapter 2 Overview of Pharmacotherapy 17 www.lipid.org Lipid-Lowering Pharmacotherapy Statins (atorvastatin, fluvastatin, lovastatin, pitavastatin, pravastatin, rosuvastatin, simvastatin) Bile Acid Sequestrants (colesevelam, cholestyramine, colestipol) Nicotinic Acid Fibric Acid Derivatives (gemfibrozil, fenofibrate) Cholesterol Absorption Inhibitor (ezetimibe) Omega-3 fatty acids (prescription strength only) LDL-C HDL-C TG 18-63% 5-15% 7-30% 15-30% 3-5% 0 or 5-25% 15-35% 20-50% 5-20 or 10-20% 20-50% 18% 1% 7% ? 9% 45% Expert Panel on Detection, Evaluation, and Treatment of High Blood Cholesterol in Adults. JAMA. 2001;285:2486. Zetia [package insert] Merck/Schering-Plough Pharmaceuticals; 2005. Crestor [package insert] AstraZeneca; 2005. Lovaza [package insert] GlaxoSmithKline; 2010. 18 www.lipid.org Acetyl CoA Statins HMG-CoA Competitive Inhibition HMG CoA Reductase Inhibitors (Statins) Mevalonate Cholesterol production VLDL=Very Low Density Lipoprotein IDL=intermediate-density lipoprotein HMG-CoA reductase inhibitors Expression of LDL receptors LDL, VLDL, and IDL particles Cholesterol production LDL-C Lowering 19 www.lipid.org Statins: Role in Therapy • The most effective agents to lower LDL-C, first-line therapy for most patients • Clinically proven to reduce mortality and recurrent cardiovascular events • Stabilizing plaques, reduces progression, partial regression • Most well tolerated 20 www.lipid.org Statin Efficacy % Change LDL-C HDL-C TG Lovastatin (Mevacor®)* 21-42 2-10 6-27 Simvastatin (Zocor®)* Pravastatin (Pravachol®)* Fluvastatin (Lescol®) Atorvastatin (Lipitor®) Rosuvastatin (Crestor®) Pitavastatin (Livalo®) 26-48 22-34 22-36 26-60 45-63 32-43 8-16 2-12 3-11 5-13 8-14 5-7 12-34 15-24 12-25 17-33 10-35 15-19 * Available generically 21 www.lipid.org Statin Pharmacokinetics Half-life BioCYP450 availability (h) Metabolism Lovastatin Simvastatin Pravastatin Fluvastatin Atorvastatin Rosuvastatin Pitavastatin Solubility <5% 2-4 3A4 Lipophillic <5% 1-3 3A4 Lipophillic 17% 2-3 none Hydrophilic 24% 0.5-3 2C9 Lipophillic 12% 13-30 3A4 Lipophillic 20% 19 2C9 Hydrophilic 43-51% 12 2C9, 2C8 Slightly Hydrophilic 22 www.lipid.org Landmark Statin-based Outcome Trials Trial LDL-C (mg/dL) Statin Treatment (mg/day) Baseline Statin 4S Simvastatin 20-40 mg 188 LIPID Pravastatin 40 mg CARE Primary Endpoint/ CV Event Rate (%) Placebo Statin 122 28.0 19.4 150 112 15.0 12.3 Pravastatin 40 mg 139 98 13.2 10.2 HPS Simvastatin 40 mg 132 93 24.4 19.9 PROSPER Pravastatin 40 mg 147 97 16.2 14.1 WOSCOPS Pravastatin 40 mg 192 159 7.5 5.3 AFCAPS Lovastatin 20-40 mg 150 115 5.5 3.5 ASCOT-LLA Atorvastatin 10 mg 133 90 3.0 1.9 CARDS Atorvastatin 10 mg 118 77 9.0 5.8 JUPITER Rosuvastatin 20 mg 108 55 2.8 1.6 Jacobson TA et al. Arch Intern Med. 1998;158:1977-1989. Heart Protection Study Collaborative Group. Lancet. 2002;360:7-22. Shepherd J et al. Lancet. 2002;360:16231630. Sever PS et al. Lancet. 2003;361:1149-1158. Colhoun HM et al. Lancet. 2004;364:685-696. Ridker PM et al. N Engl J Med. 2008;359:2195-2207. 23 www.lipid.org National Lipid Association (NLA) Statin Safety Assessment Task Force • Definitions of muscle findings: – Myalgia • Muscle ache or weakness without creatine kinase (CK) elevation – Myopathy • Myalgia, plus • Elevation in serum CK >10 x ULN – Rhabdomyolysis • CK >10,000 IU/L, or • CK >10 x ULN plus an elevation in serum creatinine or medical intervention with IV hydration McKenney JM et al. Am J Cardiol .2006;97(suppl 8A):89C–94C. 24 www.lipid.org NLA – Muscle and Statin Safety Statin Safety Assessment Task Force 1. Rule out other etiologies of muscle symptoms or an increased CK level. 2. Consider a baseline CK in patients who are at high risk of experiencing a muscle toxicity. 3. Do not measure CK in asymptomatic patients. 4. Appropriately counsel patients about the increased risk of muscle complaints. 5. Measure CK in symptomatic patients to help gauge the severity and guide therapy. McKenney JM et al. Am J Cardiol. 2006;97(suppl 8A):89C–94C. 25 www.lipid.org NLA – Muscle and Statin Safety Statin Safety Assessment Task Force 6. Intolerable muscle symptoms, stop statin therapy regardless of CK; once resolved restart the same/different statin at same/lower dose. 7. Tolerable muscle complaints or asymptomatic with a CK <10 the ULN, continue statin therapy at the same or reduced doses. 8. Rhabdomyolysis (CK >10,000 IU/L or 10x ULN) stop statin therapy and treat accordingly; once recovered, re-evaluate the risk vs. benefit of statin therapy. McKenney JM et al. Am J Cardiol. 2006;97(suppl 8A):89C–94C. 26 www.lipid.org CK Elevations and LDL-C Reduction Cerivastatin (0.2, 0.3, 0.4, 0.8 mg) Pravastatin (40, 80 mg) Simvastatin (40, 80 mg) 3.0 CK >10 × ULN (%) Atorvastatin (10, 20, 40, 80 mg) 2.5 Rosuvastatin (5, 10, 20, 40, 80 mg) 0.8 2.0 80 0.4 1.5 80 80 1.0 80 0.5 10 0.2 0.3 40 40 40 20 40 5 10 0.0 20 25 30 35 40 45 50 20 55 60 65 70 LDL-C Reduction (%) Jacobson TA. Am J Cardiol. 2006;97[suppl]:44C–51C. 27 www.lipid.org ACC/AHA/NHLBI Clinical Advisory Risk Factors for Statin-Myopathy • • • • • • • • Advanced age (especially >80 yr; women > men) Severe chronic kidney disease Impaired liver function Perioperative periods Alcohol abuse Large quantities of grapefruit juice (certain statins) Interacting medications Hypothyroidism Pasternak RC et al. J Am Col Cardiol. 2002;40:567-572. 28 www.lipid.org Managing Statin-Associated Myalgia Well Accepted: • Rule out secondary causes • Switching to a different statin • Alternate day dosing of higher potency statins • Use lowest statin dose that is tolerated; adding a second agent if needed Debatable: • Red yeast rice (Monascus purpureus) 2400 mg/day • Vitamin D supplementation if deficient • Coenzyme Q10 (CoQ10) supplementation Ahmed W, et al. Translational Research 2009;153:11–16. Reindl EK, et al, Ann Pharmacother 2010;44:1459–1470. Halbert SC, et al. Am J Cardiol 2010;105:198 –204) Marcoff L, Thompson PD. J Am Coll Cardiol. 2007;49:2231–2237. 29 www.lipid.org FDA Drug Safety Communication: Important safety label changes to cholesterol-lowering statin drugs Safety Announcement [2-28-2012] • Monitoring Liver Enzymes – Labels revised to remove the need for routine periodic monitoring of liver enzymes in patients taking statins • Adverse Event Information – Potential for generally non-serious and reversible cognitive side effects (memory loss, confusion, etc.) – Reports of increased blood sugar and glycosylated hemoglobin (HbA1c) levels has been added – FDA continues to believe that the cardiovascular benefits of statins outweigh these small increased risks http://www.fda.gov/Drugs/DrugSafety/ucm293101.htm 30 www.lipid.org Statin and Risk of Incident Diabetes • 2010 meta-analysis of 13 trials (n=91,140) – 4,278 developed diabetes (2,226 with statins vs. 2,052 with control) over a mean 4 yrs • 9% increased risk • NNH was 255 patients (OR 1.09 [1.02–1.17]) • 2011 meta-analysis of 5 trials (n=32,752) – 2,749 developed diabetes (1,449 with intensivedose statin vs. 1,300 with moderate-dose statin) over a mean 1.9 yrs • 12% increased risk (OR 1.12 [1.04-1.22]) • NNH was 498; but, NNT for CV events was 155 Lancet 2010; 375: 735–42. JAMA. 2011;305(24):2556-2564. 31 www.lipid.org Benefits and Diabetes Risk in JUPITER • 17,603 patients, randomized to placebo or rosuvastatin 20 mg for up to 5 years – Stratified based on presence of major risk factors for developing diabetes* # of Diabetes Risk Factors* 0 (n=6,095) ≥1 (n=11,508) Placebo vs. Rosuvastatin # Primary CV Endpoints # New Diabetes Cases 91 vs. 44 (p<0.0001) 12 vs. 12 (p=0.99) 86 primary events avoided with no new cases of diabetes 157 vs. 96 (p<0.0001) 204 vs. 258 (p=0.01) 134 primary events avoided for every 54 new cases of diabetes *BMI ≥30 kg/m², metabolic syndrome, impaired fasting glucose, glycated haemoglobin A1c ≥6% Ridker PM, Pradhan A, MacFadyen JG, et al. Lancet. Aug 11 2012;380(9841):565-571. 32 www.lipid.org Statin Drug-Drug Interactions • Simvastatin & lovastatin - significant CYP3A4 metabolism – Contraindicated with strong CYP3A4 inhibitors: Azole antifungals (ketoconazole, itraconazole, fluconazole), erythromycin, clarithromycin, HIV protease inhibitors, and large quantities of grapefruit or pomegranate juice – Dose adjust with weaker CYP3A4 inhibitors • Amiodarone , verapamil or diltiazem have maximum dose limits that are lower than the typical maximum dose (with simvastatin there is a maximum dose restriction with amlodipine also) • Cyclosporine: – Simvastatin is contraindicated – Lovastatin should be avoided 33 www.lipid.org Rhabdomyolysis in Combination Therapy With Statins* No. Cases Reported per Million Prescriptions 10 8.6 9 8 7 6 5 15-Fold Increase 4 3 2 1 0.58 0 Fenofibrate Gemfibrozil *Excludes cases involving cerivastatin Jones PH et al. Am J Cardiol. 2005;95:120-122. 34 www.lipid.org Statin/Fibrate Interaction • Facts about gemfibrozil: – Known to risk of rhabdomyolysis with statins – Inhibits hepatic glucuronidation of certain statins – When used with certain statins: • Maximum rosuvastatin dose is 10 mg daily • Simvastatin is contraindicated • Lovastatin should be avoided • Fenofibrate does not inhibit glucuronidation Thompson PD et al. JAMA. 2003;289:1681-1690. 35 www.lipid.org Niacin (a.k.a. Nicotinic Acid) Inhibition of lipolytic release of fatty acids from adipose tissue resulting in reduced free fatty acid transport to liver Apo B VLDL TG synthesis VLDL secretion VLDL Serum VLDL results in educed lipolysis to LDL Serum LDL LDL HDL Hepatocyte (reduced clearance, not increased synthesis) Systemic Circulation Overall decreased hepatic production of VLDL and Apo B McKenney JM. Arch Intern Med. 2004;164:697-705. 36 www.lipid.org Niacin: Role in Therapy • Treatment of hypertriglyceridemia, isolated low HDL-C, mixed dyslipidemia • CV event reduction: – HATS trial (n=160): • Simvastatin + SR* niacin reduced CV events versus placebo over 3 years – Coronary Drug Project (n=1119): • IR* niacin (up to 3 g/day) reduced MI versus placebo in men with CHD after 6 years; mortality benefit in 15-year extension trial – ARBITER-2 (n=167): • ER* Niacin (1 g/day) added to statin therapy improved carotid IMT versus placebo in patients with CHD Brown BG et al. N Engl J Med 2001;345:1583-92. Coronary Drug Project Research Group. JAMA 1975;231:360-381 Canner PL et al. J Am Coll Cardiol. 1986;8:1245-155. Taylor AJ et al. Circulation. 2004;110:3512-3517. *Key: SR = sustained release IR = immediate release ER = extended release 37 www.lipid.org Niacin Side Effects: An Incomplete List flushing dyspepsia itching nausea & vomiting fatigue hepatic toxicity hypotension hyperglycemia skin rash hyperuricemia acanthosis nigricans macular edema dry skin atrial fibrillation 38 www.lipid.org Niacin Adverse Effects with Different Products • Three Different Products 1. Immediate Release (IR) 2. Slow Release (SR) 3. Extended Release (ER) [generic] [Slo-Niacin®] [Niaspan®] • Adverse Effects per product: – Facial flushing: IR >> ER & SR • All ER (prescription only) products, are enteric coated to minimize flushing (i.e., Niaspan®, Advicor®, SIMCOR®) – ↑ hepatic transaminases: SR > ER & IR – ↑ glucose & ↑ uric acid: same with all products Guyton JR et al. Am J Cardiol. 2007;99(Suppl 6A):22C–31C. 39 www.lipid.org Blood Concentration of Niacin Pharmacokinetic Profiles 0 4 http://www.niaspan.com/ http://www.slo-niacin.com/pi.html 8 12 16 20 Time after dosing 24 40 www.lipid.org Flushing with Niacin • Secondary to release of prostaglandin D2 • Frequency and intensity diminishes over weeks or months, but can be ameliorated by: – – – – Starting with a low dose and titrating it up Aspirin 325 mg or ibuprofen 200 mg 30-60 min prior Dosing ER niacin at bedtime with a small snack Failure of flushing rates to diminish, or reappearance of flushing, may be due to inconsistent dosing; A niacin-free interval of ≥3 days will often necessitate re-titration to avoid substantial flushing – Avoid alcohol, spicy foods, hot beverages, and hot baths or showers immediately before or after Guyton JR et al. Am J Cardiol. 2007;99(Suppl 6A):22C–31C. 41 www.lipid.org Niacin Hepatotoxicity O Niacin OH N Conjugated Pathway Nonconjugated Pathway (flushing) (hepatotoxicity) Nicotinuric Acid Nicotinamide 6HN NNO 2PY Piepho RW. Am J Cardiol. 2000;86(Suppl 12A):35L-40L. MNA Nicotinamide Adenine Dinucleotide 4PY 42 www.lipid.org Arterial Disease Multiple Intervention Trial (ADMIT) • Prospective, randomized double-blind trial evaluating safety and efficacy of niacin in patients with diabetes • IR niacin 3000 mg/day (or a max tolerated dose) or placebo for 2.5 years Elam MB et al. JAMA. 2000;284:1263-1270. Patients with Diabetes (n=125) Glucose (mg/dL) A1C (%) Uric Acid (mg/dL) IR Niacin (n=64) Placebo (n=61) P value 8.1 8.7 0.04 No change 0.3 0.05 0.9 No change <0.001 43 www.lipid.org Bile Acid Sequestrants Bile Acid Sequestrants Hepatic Bile Acid Pool Hepatic Bile Acid Synthesis from Cholesterol Intrahepatic Cholesterol HMG-CoA Reductase Expression Pool VLDL Production / Secretion LDL Production LDL Receptors LDL Clearance Plasma LDL-C 44 www.lipid.org Bile Acid Sequestrants: Role in Therapy • Combination with statin therapy for additional LDLC lowering; alternative in statin-resistant patients • CV Event Reduction: – LRC-Primary Prevention Trial (n=3086): • Cholestyramine reduced fatal CHD/non-fatal MI by 19% vs. placebo (p<0.05) – FATS Trial (n=146): • Intense LDL-C lowering in CHD patients using colestipol with lovastatin or niacin lowered CV events vs. conventional therapy LRC-CPPT. JAMA. 1984;251:351-374. Brown G et al. N Engl J Med. 1990;323:1289-1298. 45 www.lipid.org Bile Acid Sequestrants • Tablet and powder formulations: – Powders must be mixed with water before use • GI complaints are the most common side effects (constipation, abdominal discomfort, intestinal gas, indigestion, heartburn) – Constipation less with colesevelam (Welchol®) • Can bind other drugs and decrease absorption: – With colestipol and cholestyramine interacting drugs should be given 1 h before or 4 h after – Interaction risk is less problematic with colesevelam 46 www.lipid.org Fibric Acid Derivatives Fibric Acid Derivatives (Fibrates) Liver VLDL ApoB Activate PPAR HDL LDL TG ApoB 47 www.lipid.org Fibrates: Role in Therapy • For hypertriglyceridemia or mixed dyslipidemia • CV Event Reduction: – Helsinki Heart Study: • Reduced in certain primary prevention patients – VA-HIT (n=2531): • Reduced 22% in patients with CHD (p=0.006) – Meta-Analysis (18 trials, n=45,058) • 10% reduction in major CV events • no reduction in all cause mortality (p=0.048) • No CV Event Reduction in type 2 diabetes – FIELD Trial (n=9785) and ACCORD (n=5518) Frick MH et al. N Engl J Med. 1987;317:1237-1245. Rubins HB et al. N Engl J Med. 1999;341;410-418. Keech A et al. Lancet. 2005;366:1849–1861. Accord Study Group. N Engl J Med. 2010;362,1563-1574. 48 www.lipid.org Fibrates: Adverse Effects • Contraindications: – Hepatic or severe renal impairment – Pre-existing gallbladder disease • Minor increases in liver transaminases • Can cause myopathy alone, but more likely when gemfibrozil is combined with a statin • May potentiate the action of warfarin • May reversibly increase serum creatinine, but does not change glomerular filtration rate (GFR) Hardman JG et al. Goodman & Gilman‘s The Pharmacological Basis of Therapeutics. 10th ed. Columbus, Ohio: The McGraw-Hill Companies, Inc; 2001. 49 www.lipid.org Fibrates: Renal Dosing (NLA and NKF) Fibrate Dose based on GFR (mL/min/1.73 m2) >90 60-90 15-59 Fenofibrate (Tricor) 145 mg daily 96 mg daily Fenofibrate (Triglide) 160 mg daily 100 mg daily 50 mg daily Fenofibrate (Lofibra tablets) 160 mg daily 108 mg daily 54 mg daily <15 48 mg daily AVOID Micronized fenofibrate (Lofibra capsules) 200 mg daily 134 mg daily 67 mg daily Micronized fenofibrate (Antara) 130 mg daily 86 mg daily 43 mg daily Gemfibrozil 600 mg BID 600 mg BID 600 mg daily • Fenofibric acid (TRILIPIX®), similar to fenofibrate dosing 50 www.lipid.org Cholesterol Absorption Inhibitor 51 www.lipid.org Cholesterol Absorption Inhibitor • Ezetimibe (Zetia®) is the only available agent • Safe and well tolerated • Primary role is in addition to statin-based therapy or in statin-resistant patients • No definitive outcomes data that support lower CV risk Kastelein JJP et al. New Eng J Med. 2008;358:1431-1433. 52 www.lipid.org Ezetimibe: Efficacy LDL-C Triglyceride HDL-C 5 3.5 Mean % Change from Baseline * 0 -0.4 -0.2 -1.3 -5 -4.9 -10 -15 -20 -15.7 * P<0.05 vs placebo * Placebo Placebo Ezetimibe mg(n=123) (n=123) Ezetimibe 1010mg Lipka LJ et al. J Am Coll Cardiol. 2000;35(2 Suppl l):257A. 53 www.lipid.org Omega-3 Fatty Acids (FA) • Eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) have CV benefits • Alpha-linoleic acid, while an omega-3 FA, does not have CV benefits • Role in therapy: – Prescription omega-3 FA products approved for severe hypertriglyceridemia (≥ 500 mg/dL): • Lovaza® both EPA and DHA • Vascepa® EPA only Bays HE. Am J Cardiol. 2007;99(Suppl 6A):35C–43C. 54 www.lipid.org Omega-3 Fatty Acids and “Fish Oils” Safety Concerns • Omega-3 fatty acids: – No antithrombotic effects; not proven to increase bleeding risk – Rigorous manufacturing purification processes reduce risk of hypervitaminosis and exposure to environmental toxins (e.g., mercury, dioxin) • “Fish Oils” – USP verification not required for all products – Not equal to prescription omega-3 fatty acids Bays HE. Am J Cardiol. 2007;99(suppl 6A):35C–43C. 55 www.lipid.org www.puritan.com www.naturesbounty.com 56 www.lipid.org Minimizing “Fish Oils” Side Effects • Miscellaneous fish oil content can cause fishy smelling belching/dyspepsia • Enteric coating: – Minimizes the fishy smelling belching/dyspepsia – However, OTC fish oils that are enteric coated are usually not USP verified • Freezing uncoated OTC fish oils (not recommended for prescription omega-3) 57 www.lipid.org Omega-3 FA and CV Benefits Lavie CJ et al. J Am Coll Cardiol. 2009;54:585–594. 58 www.lipid.org Chapter 3 Pharmacotherapy for Specific Dyslipidemias 59 www.lipid.org Clinical Scenarios Dyslipidemia Monotherapy Options Combination Therapies Primary Target: Elevated LDL-C • Statin • Niacin • Bile Acid Sequestrant • Ezetimibe • • • • Statin + Bile Acid Sequestrant Statin + Ezetimibe Statin + Niacin Others Secondary Target: Elevated non-HDL-C • Statin (high-dose) • Niacin • • • • Statin + Fibrate Statin + Niacin Statin + Omega-3 Fatty Acids Others Other: Very high TG • Fibrate • Fibrate + Omega-3 Fatty Acids • Omega-3 Fatty Acid • Fibrate + Niacin • Niacin • Niacin + Omega-3 Fatty Acids 60 www.lipid.org Reasons for Use of Combination Therapy • To achieve the goal values: – Primary target (LDL-C goal) when monotherapy is not adequate – Secondary target (non-HDL-C goal) after LDL-C goal has been achieved and triglycerides are 200-499 mg/dL • In patients who experience dose related side effects • In patients with severe dyslipidemia 61 www.lipid.org STELLAR Trial: The “6% Rule” • 6-week, parallel groups, open-label study (n=2431) % LDL-C Change from Baseline . Pravastatin Simvastatin Atorvastatin Rosuvastatin 0 -10 -20 -30 -40 10mg 20mg 40mg 80mg -50 -60 Jones PH et al. Am J Cardiol. 2003;93:152-160. 62 www.lipid.org Colesevelam added to Simvastatin 0 Mean LDL-C Change (%) Placebo (n=33) -4 -10 Simvastatin 10 mg/d (n=37) -20 -30 Simvastatin 20 mg/d (n=35) -26* Colesevelam 2.3 g/d + Simvastatin 20 mg/d (n=37) -34* -40 -42*# -42*# Colesevelam 3.8 g/d + Simvastatin 10 mg/d (n=34) -50 * P < 0.05 vs placebo Knapp HH et al. Am J Med. 2001;110:352-360. # P < 0.05 vs individual agents alone 63 www.lipid.org Ezetimibe/Simvastatin vs Rosuvastatin EZ/S EZ/S EZ/S 10/20mg 10/40mg 10/80mg R 10mg R 20mg R 40mg Mean LDL-C Change (%) 0 -10 -20 -30 -40 -46 -50 -52 -60 -52 -55 -57 -61 -70 Catapano AL et al. Curr Med Res Opin. 2006;22:2041-2053 64 www.lipid.org Secondary Target: Non-HDL-C • Non-HDL-C = (Total Cholesterol) – (HDL-C) • Target of therapy only after LDL-C is lowered and if triglycerides are 200 to 499 mg/dL • Options to reduce non-HDL-C can target: – More intense LDL-C lowering – Lowering triglycerides – Raising HDL-C – A combination of LDL-C lowering, triglyceride lowering, and/or HDL-C raising Grundy S et al. Circulation. 2004;110:227-239 Smith SC, Jr. et al. J Am Coll Cardiol. 2006;47:2130 –2139. 65 www.lipid.org Niacin/Statin Combinations • Safety of combination is well established • Fixed combinations: – Niaspan/Lovastatin (Advicor®) – Niaspan/Simvastatin (Simcor®) • Additive changes in lipoproteins • Dosing titrations are based on the niacin component 66 www.lipid.org Hypertriglyceridemia • Very high TG’s ( 500 mg/dL) – Drug therapy to TG’s and risk of further TG elevations that may cause pancreatitis (especially when >1000 mg/dL) • Fibrates, omega-3 fatty acids, niacin – Very low fat diet (<15% of total daily calories) – After TG’s are < 500 mg/dL can then evaluate if at primary target (LDL-C goal) • Worsened by obesity, physical inactivity, or excessive ethanol use 67 www.lipid.org Strategies for Low HDL-C Non-Drug Therapies • Smoking cessation • Regular physical activity • Dietary changes (increased unsaturated fat intake) • Controlling hypertriglyceridemia • Controlling hyperglycemia NCEP ATP III. JAMA. 2001;285:2486-2497. Pharmacotherapy • Niacin • Fibrates • Statins (minimal) 68 www.lipid.org New Drugs in Development 69 www.lipid.org Potential Agents • PCSK9 Monoclonal Antibody – Increases LDL-C removal by decreasing inhibitor of LDL clearance receptor • Mipomersen – Antisense agent that inhibits ApoB systhesis • Lomitapide – Mitochondrial trifunctional protein enzyme inhibitor that decreases lipoprotein production • Anacetrapib – Inhibits cholesteryl ester transfer protein (CETP) 70 www.lipid.org Cholesteryl Ester Transfer Protein (CETP) Inhibition CETP promotes transfer of cholesteryl esters (CE) from HDL to Apo B-containing lipoproteins (VLDL, LDL) Liver CE LDL-R CE SR-B1 CETP FC CE Bile LCAT FC Brousseau ME, et al. N Engl J Med. 2004;350:1505-1515. 71 www.lipid.org Determining the Efficacy and Tolerability of CETP Inhibition with Anacetrapib (DEFINE) – LDL-C – HDL-C 81 mg/dL 40 mg/dL Cannon CP, et al. N Engl J Med. 2010;363:2406-2415. Anacetrapib 60 Change at 24 wks (mg/dL) • 1623 patients with CHD or high risk for CHD on statin therapy • Randomized, doubleblind, to placebo or anacetrapib 100 mg daily for 76 wks • Baseline lipid values: Placebo 40 20 0 -20 P<0.001 for both -40 LDL-C (Primary Endpoint) HDL-C (Secondary Endpoint) 72 www.lipid.org Key Take-Away Messages • LDL-C is the primary target and lowering it by at least 3040% is recommended as a minimum standard to reduce cardiovascular risk when using lipid altering agents • Statins are evidence based therapies and should be the foundation of treatment for most patients, with several other agents as alternatives or add-on therapies • Fibrates and niacin are useful in addition to statin therapy for mixed dyslipidemia (e.g., non-HDL-C lowering) as therapy for secondary targets • Monitoring and titration of therapy to achieve recommended targets is needed for all lipid-lowering drug therapies 73 www.lipid.org Key Take-Away Messages: Lipid Treatment Assessment Project 2 (L-TAP2) • 9955 patients on stable lipid-lowering therapy from 9 different countries % at LDL-C Goal 100 86 74 80 67 60 40 30 20 0 Low risk (<160) Moderate risk (<130) Waters DD et al. Circulation. 2009;120:28-34. High risk (<100) Very high risk (<70) 74 www.lipid.org Case Scenario 2 • Betty is a 68-year-old woman with type 2 diabetes is treated with simvastatin 40 mg daily. She has hypertension, but does not smoke and does not have AVD. • Her labs from 4 weeks ago are: – TC = 220 mg/dL, HDL-C = 40 mg/dL, TG = 300 mg/dL and LDL-C = 120 mg/dL; S. Creat = 1.0 mg/dL; LFTs and TSH are normal; A1C = 7.4 mg/dL; CK = 380 U/L (normal, 0-220 U/L) • Her provider wanted to add another drug, but decided to continue simvastatin and have Betty increase her exercise to 3 times weekly 75 www.lipid.org Case Scenario 2 • She says she went on the Internet and found the following warning concerned her: “If you take simvastatin, tell your doctor about any unusual muscle pain or weakness. This could be a sign of serious side effects.” • Betty says she always has some muscle aches and pains because she is 200 lbs., but that she has had more of them lately How do you respond to Betty? 76 www.lipid.org Case Scenario 2, cont. • Regardless of your conversation, Betty wants to stop her simvastatin. Considering her current dyslipidemia control, which of the following is a reasonable alternative to her current simvastatin 40 mg daily? 1. 2. 3. 4. Pravastatin 40 mg daily Rosuvastatin 20 mg daily Ezetimibe 10 mg daily Colesevelam 3.75 g daily 77 www.lipid.org Case Scenario 2, cont. • Two years later, Betty is treated with rosuvastatin 40 mg daily. Her fasting lipid panel is: – TC = 178 mg/dL, HDL-C = 38 mg/dL, TG = 250 mg/dL and LDL-C = 90 mg/dL What is the next step in her dyslipidemia therapy? 78 www.lipid.org Case Scenario 2, cont. • Gemfibrozil 600 mg BID is added to Betty’s regimen. After seven days, she calls you and reports having severe muscle pain and weakness, and that the color of her urine is a funny shade of brown. What should happen with regard to Betty’s therapy? 79 www.lipid.org
