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Hyperlipidemia/Dyslipidemia J.B. Handler, M.D. Physician Assistant Program University of New England 1 Abbreviations LDL- low density lipoprotein HDL- high density lipoprotein IDL- intermediate density lipprotein VLDL- very low density lipoprotein Lp(a)- lipoprotein a CAD- coronary artery disease CHD=CAD= coronary heart disease CVD- cerebrovascular disease LFT- liver function test GI- gastrointestinal ETOH- alcohol D.M.- diabetes mellitus CK- creatine kinase NNT- number needed to treat ARR- absolute risk reduction IVUS- intravascular ultrasound RRR- relative risk reduction PAD- peripheral arterial disease PVD- peripheral vascular disease CVD- cerebrovascular disease ACS- acute coronary syndrome HTN- hypertension TLC- therapeutic lifestyle changes UAP- unstable angina pectoris PE- physical exam ACC- American College of Cardiology 2 Lipids and Atherosclerosis Thickened and hardened lesions of the medium and large muscular and elastic arteries; lipid rich. Lesions occur in the innermost layer of the artery (intima) and are largely confined to this region of the vessel. Deposition of lipid within the artery is dependent on 2 major factors: – LDL: carries lipid to the arteries (LDL must be oxidized) – HDL: removes lipid from the arteries The role triglycerides play is not as well understood, but considered a risk factor. See below. 3 Lipoproteins Lipoproteins carry lipids - Cholesterol, Triglyceride, Phospholipids. Lipoproteins of importance: VLDL, (IDL), LDL, chylomicrons. – Apolipoproteins- Protein constituents of lipoproteins that add structural stability; may help mediate catabolism. Apolipoprotein B (LDL) increases coronary risk. Lipid catabolism - 70% LDL removed in liver by LDL receptors. 4 Cholesterol Biosynthesis Liver and intestines - major sources of endogenously derived cholesterol. Diet - exogenously derived cholesterol. In liver- rate limiting step is converting HMG CoA to mevalonic acid by HMG CoA Reductase (role of “STATINS”). Increase intake in dietary cholesterol - down regulation of LDL receptors subsequent elevation of serum LDL cholesterol. 5 Hypercholesterolemia Diet and drug induced reductions of total and LDL Cholesterol can significantly reduce mortality and morbidity from Coronary Heart Disease. Cholesterol reduction can slow progression of atherosclerosis, and in some cases, halt or reverse (isolated cases) its course. 6 Lipids and Atherogenesis Vascular injury from any source (smoking, HTN, DM) can lead to uptake of lipoproteins. Elevation of LDL (oxidized) can lead to vascular injury resulting in premature atherosclerosis. 7 Lipids and Atherogenesis LDL oxidation necessary for endothelial damage. HDL- Inverse correlation between serum HDL and atherosclerosis; reverse cholesterol transport and prevents oxidation of LDL- cardioprotective. A low HDL level (dyslipidemia) is a strong risk factor for CHD even when LDL and total cholesterol are normal. Next major advance: safe drugs that substantially increase HDL levels, while reducing cardiac events (MI, Death). 8 Hyperlipidemia- Clinical Findings Often asymptomatic. Atherosclerosis and disease- CHD, PVD, etc. Eruptive xanthomas- red papules on buttocks seen with extremely high levels of chylomicrons or VLDL (triglycerides). Tendinous xanthomas- Very high LDL- nodules on tendons (achilles, back of hand, patella). Xanthelasma- yellow placques in skin around the eyes. 9 Xanthelasma Images.google.com Dyslipidemias in Adults Most cases are multifactorial Influenced by diet, lifestyle and genes Often detected in asymptomatic adults during routine blood screening In patients with atherosclerosis involving the coronary arteries, carotids, aorta or periperal vessels, a high percentage will be found to have a dyslipidemia. 11 Secondary Dyslipidemia Diabetes Mellitus (discussed in Endocrine section) Nephrotic Syndrome (Renal system) Chronic Renal Failure Hypothyroidism - high TG, low HDL 12 Familial Dyslipidemia At least six documented disorders all with accelerated atherosclerosis. Example: Familial hypercholesterolemia LDL receptor defect; heterozygous -total cholesterol at birth> 350 mg/dl; Homozygous - total cholesterol > 700mg/dl PE: Tendon xanthomas, xanthelasma, cutaneous xanthomas Most patients with lipid disorders carry genes that can predispose them to develop dyslipidemia when additional factors (diet, obesity, etc.) are present. Likely multiple 13 genes involved. Rationale for Treatment Primary prevention- Lowering cholesterol/LDL will prevent new onset CHD. Every 1% drop in cholesterol produces a 2-3% decrease in CHD risk. Secondary prevention - Lowering cholesterol/LDL will prevent recurrent coronary events and decrease coronary and total mortality in the presence of existing CHD or equivalent(s). – Angiographic/IVUS trials retarded progression of of coronary lesions; regression in some. 14 Primary Prevention ASCOT (Anglo-Scandinavian Cardiac Outcomes Trial) 10,305 patients with HTN but without heart disease randomized to Placebo vs. Atorvastatin 10 mg/daily – Baseline LDL-133 mg/dL, treated LDL- 103mg/dL Primary endpoints: Nonfatal MI and fatal CHD – Study ended prematurely at 3.3 years Results: 36% in primary endpoint (100 vs 154 events) 15 Secondary Prevention High risk prevention Patients with known CHD have a 5-7x risk of recurrent MI. Patients with known PAD, Carotid or Aortic disease have a 4-6x incidence of developing CHD and it’s consequences. Other high risk subsets: DM, others (see below) Goal: lower LDL to <100 mg/dl or less (below). 16 Heart Protection Study Patients with documented CHD or equivalent (DM, PAD). >20,000 patients; placebo vs 40mg Simvastatin daily. Baseline LDL 131-155 mg/dL. Rx with simvastatin resulted in: – – – – – – all cause mortality by 13% coronary death by 18% non fatal MI + coronary death by 27% coronary revascularization procedures by 24%. stroke by 25% . major vascular events by 24% 17 Risk Stratification (NCEP) Determine number of major risk factors besides elevated lipids. Excludes patients with documented CHD/PAD/CVD or diabetes (coronary risk equivalent). – Age/gender: men>45, women >55 – FH of premature CHD MI or SD in 1st degree relative: male<55, female < 65 – Hypertension whether treated or not – Current cigarette smoker – Low HDL: < 40 mg/dL 2 or more risk factors calculate statistical risk for subsequent MI/death in next 10 years. 18 Risk Stratification (NCEP) For patients with 2 or more risk factors and no evidence yet of CHD: Determine 10 year CHD risk (for “hard CHD outcomes”- MI or coronary death) assessment using Framingham risk assessment tool. Newest guidelines and options: NCEP ATP III, 7/04; amended in 2007. 19 Risk Assessment Tool Estimates 10 yr risk (%) of developing “hard” CHD (MI or coronary death) outcomes in patients without CHD. Gender and age Total or LDL cholesterol HDL cholesterol Smoker Systolic blood pressure; on meds for HTN? Tables based on Framingham Heart Study 20 High Risk Presence of CHD, PAD, CVD or DM (coronary risk equivalent even if no CHD yet documented). Absence of clinical atherosclerosis with 2 or more risk factors (such as smoking or HTN) that give a greater than 20% chance of having an MI or coronary death within 10 years (risk factor tool). Remember IS case: Lenny L. Goal: LDL< 100 mg/dL; initiate meds if > 100mg/dL. Initiate TLC simultaneously. Some High Risk patients will fall into the “Very High Risk subset (see below). 21 Very High Risk Established CHD with: DM, multiple and poorly controlled risk factors (such as smoking), metabolic syndrome, or recent ACS (MI or UAP). Goal: LDL < 70mg/dL is a “therapeutic option”- a reasonable therapeutic strategy, on the basis of available clinical trial evidence. This will require drug therapy, possibly 2 drugs (see below). Initiate TLC if not already done. Evidence: PROVE-IT trial (see below). 22 Metabolic Syndrome (3 of 5 Factors) Central obesity: waist circumference>88cm in women, >102 cm in men. Hyperglycemia: FBS 110 mg/dL. Hypertension: BP 135/85. trig: 150 mg/dL. HDL: 40 for men, 50 for women (any 3 of 5 meets criterion). 3x risk of atherosclerosis. Metabolic syndrome often associated with insulin resistance- to be discussed in Endocrine system. 23 Is Greater Lowering Better? PROVE IT-TIMI 22: Atorvastatin 80 mgs/d vs Pravastatin 40 mgs/d in patients with ACS (AMI or UAP). Prospective, randomized, double blind study of 4162 patients; 2 yr follow-up. End-points: All cause mortality, MI, UAP, coronary revascularization, stroke. Pravastatin group: mean LDL- 95mg/dL, 26.3% had primary end-point. Atorvastatin group: mean LDL- 62mg/dL, 22.4% had primary end point. – ARR with Atorvastatin= 3.9%, NNT= 25 – RRR 16% 24 Moderately High Risk Absence of clinical atherosclerosis 2 or more risk factors for CHD and a 10-20% risk of MI/Coronary Death within 10 years (risk factor tool). Goal: LDL<130mg/dL – Therapeutic option: LDL<100mg/dL Initiate TLC if not already started. Initiate drug therapy for LDL>130 mg/dL. 25 Moderate Risk Absence of clinical atherosclerosis 2 or more risk factors for CHD and a < 10% risk for MI/coronary death within 10 years (risk factor tool). Goal: LDL<130mg/dL Initiate TLC Initiate drug therapy if LDL160 mg/dL 26 Lower Risk 0-1 risk factors Do not need to calculate risk score as will be <10%. Goal: LDL< 160 mg/dL TLC Initiate drug therapy if: LDL190mg/dL Option: Initiate drug therapy if LDL 160mg/dL 27 Other Goals Total Cholesterol < 200mg/dL HDL 40 (45) mg/dL in men; 50 (55) mg/dL in pre-menopausal women. Bloodwork: Fasting Lipoprotein Analysis Total chol, Triglycerides, HDL, LDL LDL = TC - HDL - (Trig /5). Can now measure “direct LDL”- does not require fasting; values usually lower (10%) than calculated LDL levels. 28 Treatment Considerations Age, weight and sex of patient Presence or absence of CAD risk factors Socioeconomic factors Patient compliance Availability of support personnel: dietary, educational, administrative 29 Hypertryglyceridemia Risk for developing CAD/CHD from elevated triglycerides alone is controversial; likely contributes when LDL-C is or HDL-C is . Pure hypertriglyceridemia associated with VLDL elevations is often accompanied by mild elevations of total and LDL-C (small dense LDL). Inverse relationship between VLDL (triglycerides) and HDL. Tryglycerides (>500 mg/dL) s risk of pancreatitis Consensus: treat hypertriglyceridemia but lowering LDL-C much more important. 30 Hypertriglyceridemia Often associated with obesity, type 2 diabetes & metabolic syndrome; mildly with some drugs: estrogen, corticosteroids, ß-Blockers (Nonselective) and thiazides. Increased by alcohol. Very sensitive to diet, weight reduction and exercise. Triglycerides > 200mg/dL may warrant additional Rx. Important to consider Rx if HDL is very low. Rx with fibric acid agents or niacin. 31 HDL Cardioprotective; facilitates removal of cholesterol in tissues; also has direct protective effects. Reduced in presence of obesity, smoking, inactivity. Modest increase with weight reduction, regular exercise, smoking cessation, estrogen therapy in post menopausal women (avoid where possiblerisks), alcohol in low quantities. Increased with some meds: fibric acid derivatives and niacin. Off label indication in patients with CHD and very low HDL levels 32 Therapeutic Lifestyle Changes (TLC) Smoking cessation Decrease intake of saturated fats (details below) Decrease total calories if overweight Increase physical activity Decrease sodium intake Treat other risk factors if applicable 33 Treatment of Dyslipidemia: Diet The “typical” American diet is a major contributor to lipoproten disorders. Dietary Cholesterol - Raises LDL - Egg yolks, animal fat, red meat, etc. Dietary Fat- Saturated fat, saturated fatty acids and animal fat. Ideal Diet: < 30% fat, <7% saturated fat, <200 mgs/day cholesterol. Fat replaced with carbohydrates. Obesity - Minimum 10% weight reduction. Result: 10% lowering of LDL, but varies. 34 Drug Therapy - Hyperlipidemia HMG CoA reductase inhibitors (statins) Bile Acid sequestrants (resins) Nicotinic Acid (niacin) Fibric Acid derivatives (fibrates) Cholesterol absorption inhibitor- Ezetimibe 35 HMG CoA Reductase Inhibitors Atorvastatin (Lipitor) 10-80 mg/D Simvastatin (Zocor/generic) 10-80 mg/D Rousuvastatin (Crestor) 5-40 mg/D Lovastatin (Mevacor/generic) 10-80 mg/D Pravastatin (Pravachol/generic) 10-80 mg/D Fluvastatin (Lescol) 20-40 mg/D Inhibit rate limiting step in cholesterol synthesis in liver; up regulate synthesis of LDL receptors further reduction LDL cholesterol; LDL and TC lowered by 30-55%. Some statins triglycerides and HDL but mildly. 36 Statins - Side Effects Increase in serum transaminase levels- must be monitored closely initial year. GI disturbance infrequent Myopathy – Dose related skeletal muscle complaints are most commonly reported adverse effects. – Myalgia is most common (1-5%) and benign. – Myositis with rhabdomyolysis is rare but can be life threatening; CK confirmation is essential to decision making; >10 ULN with myositis or rhabdo 37 “Statin” Induced Myopathy Mechanism unknown but dose related. Evaluate patients with muscle Sx ASAP hold drug and obtain CK. It may be as simple as lowering the dose. Signs and symptoms: myalgia, muscle weakness, CK, rarely progressing to rhabdomyolysis, myoglobinemia, renal failure and death. – Cerivistatin (Baycol) was taken off market because of 31 reported deaths from rhabdomyolysis. Risk of myopathy increased with a variety of drugs that inhibit statin metabolism: niacin, fibrates, bile acid sequestrants, ketoconazole, erythromycin, clarithromycin, cyclosporin and others. 38 Statins: Pleiotropic Effects Statins have beneficial effects independent of lipid lowering: – – – – Placque stabilization Anti-inflammatory effects Reduce C-reactive protein levels Protection of vessels subject to invasive coronary interventions 39 Ezetimibe Relatively new- released in 2003; inhibits intestinal absorption of dietary and biliary cholesterol As monotherapy (randomized double blind study of 893 patients), 10 mg daily lowered LDL by up to 17%, triglycerides by 6% and increased HDL by 1.3 (minimal) %. Very well tolerated but avoid in patients with hepatic insufficiency. 40 Ezetimibe When added to a statin there was additional LDL cholesterol lowering of up to 25% likely a synergistic effect. Ezetimibe plus low/moderate dose statin is more effective in lowering LDL cholesterol than doubling the dose of the statin. But…see controversies below. Ezetimibe very low incidence of myopathy 41 Ezetimibe- Recent Concerns 1/14/08- Enhance Trial (Merck/Schering Plough), simvastatin vs simvastatin + ezetimibe. Patients with familial hyperlipidemia: marked in LDLC. Simvastatin LDL-C by 41% (2 yrs), simvastatin + ezetimibe LDL-C by 58%. No difference in outcomes (MI or stroke), but study not powered for outcomes. But: Carotid intima media wall thickness (IMT*) increased faster in group treated with combined therapy compared with simvastatin alone. ?Significance. More trials needed. Opinion (ACC): Continue to use if LDL goal not reached with statin (hi dose) alone. *IMT- surrogate end point for clinical coronary events 42 Bile Acid Sequestrants (Resins) Bind bile in the intestine and stimulate conversion of cholesterol to bile acids in the liver; up regulate LDL receptors- result is decrease in LDL cholesterol. Cholestyramine and Cholestipol- up to 12 scoops of powder in water daily. Colesevelam (Welchol) tablet form. Expensive. Side effects - Constipation, GI Distress (flatulence, constipation, dyspepsia); less common with colesevelam These drugs can also cause myopathy. 43 Nicotinic Acid Mechanism of action unclear (hepatic). Lowers Triglycerides and to a lesser degree LDL cholesterol. Modest (20-30% increase) elevation HDL. Side effects: GI distress; flushing/itching, small elevations of LFT’s. – Pre-treat with ASA for itching/flushing – Caution: use in uncontrolled diabetes blood sugar. – Start with very low doses and work upwards Increases the likelihood of myopathy when added to statins or bile acid sequestrants. 44 Fibric Acid Derivatives Gemfibrozil 600 mgs. 2x/day Primary effect - lower triglycerides Fenofibrate: Once daily, may be more effective than gemfibrozil in lowering LDL and triglycerides. Rx of low HDL (off label indication). HDL by 15-20% Consider fibrates in patients with CHD and very low (<30 mg/dL) HDL levels. Variable reduction in LDL. Side effects: GI, myopathy, gallstones. 45 Guidelines for Drug Therapy Elevations of total and LDL cholesterol: Statin (TC and LDL decreased up to 50%) Goal based on degree of risk; statin dose increased to maximum as necessary (see below). If goal not achieved, the addition of other agents (cholestyramine, niacin, ezetimibe, etc) will need to be determined on a case by case basis as supported by clinical trials, weighing the pros/cons, cost, side-effects, compliance and more. – Most experts recommend adding additional drugs to max dose statins to lower LDL to goals if necessary. 46 Guidelines for Drug Therapy Triglycerides + mild hypercholesterolemia: Gemfribrozil, Fenofibrate or Niacin. Must control Diabetes, reduce smoking, reduce ETOH and lose weight if indicated. Add statin if LDL remains above goal. Combination drugs (Advicor- extended release niacin plus lovastatin in fixed combination; Vytorin- simvastatin + ezetimibe) may play a role for some patients. Very low HDL with CHD: consider fibric acid agent or niacin. 47 References Grundy, SM, et. Al., Implications of Recent Trials for National Cholesterol Education Program Adult Treatment Panel III Guidelines. Circulation, 2004; 110: 227-239 Canon, CP, et. al., PROVE IT TIMI trial; NEJM, 2004; 350:1495-1504 48