Treatment of Hyperlipidemia

Question 1

Clinical Lipid Management

• Average LDL cholesterol levels in mammals vs. in American adults
• Primary goal
• Candidates for drug therapy

Answer 1

• Average LDL cholesterol levels in mammals vs. in American adults
  
  • Mammals: 50-70 mg/dl
  • American adults: 130 mg/dl
• Primary goal
  
  • Reduce LDL cholesterol to lower coronary hear disease risk
• Candidates for drug therapy
  
  • Patients who can’t reduce LDl cholesterol via therapeutic lifestyle

Question 2

Lipid Lowering Drugs

Answer 2

• Statins
• Intestinal acting agents
  
  • Ezetimibe
  • Bile acid resins
• Nicotinic acid
• Fish oil
• Fibric acid derivatives

Question 3

Treatment of Hyperlipidemia

• Drug of choice
• Alternative choices

Answer 3

• Drug of choice
  
  • Statin
  • Lower LDL-C most effectively, reduce CHD risk, & safe
  • Able to achieve LDL-C treatment goals in most patients regardless of their risk category
• Alternative choices
  
  • Ezetimibe, bilde acid resin, & niacin
  • Cosndiered b/c 5-10% fo patients can’t tolerate a statin
  • Not as effective in lowering LDL-C, but effective in reducing CHD risk

Question 4

Statins: Mechanism of Action

• Mechanism
• Net effect
• Extra effect

Answer 4

• Mechanism
  
  • Inhibit hepatic HMG-CoA reductase
    
    • HMG-CoA reductase catalyzes the rate-limiting step in hepatic cholesterol synthesis
  • Statins decrease cholesterol sysnthesis by the liver –>
    
    • Up-regulation of LDL receptors by hepatocytes
    • Increased removal of apoE- & apoB-containing lipoproteins from circulation
    • Reduction in synthesis & secretion of lipoproteins from the liver
• Net effect
  
  • Lower plasma concentrations of cholesterol-carrying lipoproteins (esp LDL)
• Extra effect
  
  • Increase the removal & reduce the secretion of remnant particles (VLDL, IDL)
  • Drug of choice in patients who have both elevated LDL & triglycerides (non-HDL)
    
    • Elevated triglycerides indicates increased triglyceride-rich VLDL & IDL remnants

Question 5

Statins: Triglyceride-Lowing Effects

• Statins vs. TGs
• TG reduction is dependent on…
• In patients w/ mixed hyperlipidemia…
• Statins are best restricted to use in patients who…
• In the rest of patients…

Answer 5

• Statins vs. TGs
  
  • Statins have a moderate triglyceride-lowering efficacy when triglycerides exceed 150 mg/dl
• TG reduction is dependent on…
  
  • Baseline triglyceride level (higher baseline –> greater reduction)
  • Dose of statin (higher dose –> greater reduction)
  • Amount of LDL-C reduction (more potent statins (atorvastatin & simvastatin) –> greater LDL-C reduciton –> greater TG reduction)
• In patients w/ mixed hyperlipidemia…
  
  • LDL-C reduction w/ statin isn’t as great as in patients w/ primary hypercholesterolemia
• Statins are best restricted to use in patients who…
  
  • Have only a moderate TG elevation (150-300 mg/dl)
• In the rest of patients…
  
  • W/ TG elevated above 300 mg/dl
  • Treat primary cause of hypertriglyceridemia (ex. diabetes, hypothyroidism)
  • Use triglyceride-lowering drugs: niacin, fibrates, fish oils

Question 6

Statins: Reducing CHD Events

• Statins reduce…
• Statins that reduce CHD risk

Answer 6

• Statins reduce…
  
  • CHD events in both primary & secondary prevention populations
  • Nonfatal myocardial infarction
  • CHD death
  • Ischemic events requiring hospitalization
• Statins that reduce CHD risk
  
  • Lovastatin
  • Simvastatin
  • Pravastatin

Question 7

Statins: CHD Risk Reduction

• Clinical manifestations of atherosclerosis that statins reduce
• Statins have not been associated w/…
• Overall results

Answer 7

• Clinical manifestations of atherosclerosis that statins reduce
  
  • Fatal & nonfatal myocardial infarction
  • Sudden CHD death
  • Unstable angina
  • Revascularization procedures
    
    • Percutaneous transluminal coronary angioplasty (PTCA)
    • Coronary artery bypass grafting (CABG)
  • Stroke
  • Symptoms of peripheral arterial disease
  • Total mortality
• Statins have not been associated w/…
  
  • An increase in noncardiovascular events
• Overall results
  
  • Statins improve quality of life by reducing nonfatal events
  • Statins length life by reducing total mortality

Question 8

Statins: Time Course of CHD Risk Reduction

Answer 8

• Weeks to months
  
  • Restored endothelial function
• Months
  
  • Reduced inflammation & markers (ex. high-sensitiviey C-reactive protein)
• Months to years
  
  • Reduced ischemic events
• Years
  
  • Reduced rates of fatal & nonfatal myocardial infarction
• Years
  
  • Stabilized vulnerable plaque
  • Lipid-rich core of plaque is replaced w/ connective tissue & matrix

Question 9

Statins: Adverse Events

• Overal safety
• Common side effects
• Liver enyzmes
• Myopathy

Answer 9

• Overall safety
  
  • Statins are very safe
  • 95% of patients can tolerate them, 5% can’t
• Common side effects
  
  • Headache
  • Fatigue
  • GI intolerance
  • Myalgia
  • Flu-like symptoms
• Increased liver enzymes
  
  • In 0.5-2.5% of cases in dose-dependent manners
  • Serious liver problems are very rare
  • Manage by reducing statin dose or discontinuing until levels return to normal
• Myopathy: muscle symptoms (weakness, aches, soreness) + elevated CK
  
  • In 0.2-0.4% of patients
  • Rare causes of rhabdomyolysis, myoglobinuria, acute renal necrosis, & death
  • Reduce by…
    
    • Cautiously using statins in patients w/ impaired renal function
    • Using the lowest effective dose
    • Cautiously combining statins w/ fibrates
    • Avoiding drug interactions
    • Carefully monitoring symptoms
  • Presence of muscle toxicity requires statin discontinuation

Question 10

Mechanism of Intestinal-Acting Agents

• Bile acid sequestrants
• Plant stanols & sterols
• Ezetimibe

Answer 10

• Bile acid sequestrants
  
  • Inhibit bile acid reabosrption in the ilium –> hepatic bile acid deficiency
  • Compensatory increase in bile acid synthesis from hepatic cholesterol
    
    • Replenished through increased hepatic uptake of LDL/chylomicron from plasma & increased hepatic cholesterol synthesis
  • Reduce LDL-C through increased clearance of LDL particles by the liver
• Plant stanols & sterols
  
  • Displace cholesterol from micelles
  • Prevent micelle uptake at the bruch border membrane
  • Reduce the amount of cholesterol transported to the liver
  • Reduced delivery of dietary/biliary cholesterol to the liver –> increased clearance of LDL & LDL-C particles from plasma
• Ezetimibe
  
  • Inhibits the uptake of micellar cholesterol into intestinal epithelial cells
    
    • Selectively inhibits the putative sterol transporter on teh bruch border surface of intestinal epithelial cells
  • Reduces the amount of cholesterol from diet & bile that’s transported to the liver
  • Compensatory increase in LDL clearance by the liver
  • Reduced plasma LDL-C levels

Question 11

Ezetimibe

• Drug class
• Mechanism of action & selectivity
• Pharmacology / localization
• Clinical experience & role in management

Answer 11

• Drug class
  
  • Selective cholesterol absorption inhibitor
• Mechanism of action & selectivity
  
  • Blocks cholesterol absorption by selectively inhibiting the putative sterol transporter at the intestinal brush border membrane of intestinal epithelial cells
  • No effect on absorption of lipid-soluble vitamins b/c it’s selective for cholesterol absorption
• Pharmacology / localization
  
  • Intestinal wall localization as a glucuronidated metabolite
  • Enterohepatic circulation
    
    • Absorbed in the intestine –> transported to the liver –> circulated back to the intestinal lumen via bile
  • Minimal systemic exposure
• Clinical experience & role in management
  
  • Monotherapy
  • Combination w/ other lipid-lowering agents (e.g., statins, fibrates)

Question 12

Adding Ezetimibe to Ongoing Statin Therapy

Answer 12

• Addition of ezetimibe to ongoing stable statin therapy in patients who aren’t at their goal produces a dramatic reduction in LDL-C vs. statin + placebo

Question 13

Bile Acid Resins: Mechanism of Action

• Bile acid resins…
• Liver…
• In patients who have an elevated TG level…

Answer 13

• BIle acid resins bind bile acids in the intestine
  
  • Reduces enterohepatic recirculation of bile acids
  • Promotes the upregulation of 7-alpha hydroxylase
  • Promotes the conversion of more cholesterol in the hepatocyte into bile acids
  • Decreases cholesterol content in the hepatocyte
  • Enhances LDL-receptor expression
  • Increases the removal of LDL & VLDL remnant particles from the circulation
  • Lowers LDL-C
• Liver also increases its synthesis of cholesterol
  
  • Partially negates the LDL-C-lowering eficacy of the bild acid resin
• In patients who have an elevated TG level…
  
  • Resins increase hepatic VLDL production & raise serum TG levels

Question 14

Effect of Colesevelam on LDL-C

• Bile acid resins vs. LDL-C
• Older bile acid resins: cholestyramine & colestipol
• Newer bile acid resins: colesevelam

Answer 14

• Bile acid resins vs. LDL-C
  
  • Bile acid resins reduce LDL-C in a dose-dependent manner
  • Lower LDL-C baseline levels –> greater % LDL-C reduction
• Older bile acid resins: cholestyramine & colestipol
  
  • Lower LDL-C by 15-25% w/ moderate daily doses
  • Side effect: no or significantly increased effect on TG levels, esp in patients w/ high pretreatment TG levels
• Newer bile acid resins: colesevelam
  
  • Lowers LDL-C by 15% w/ the standard daily dose
  • No side effect of increasing TG levels

Question 15

Bile Acid Resins: Clinical Features

• Available products
• Beneficial events
• Adverse events
• Drug interactions

Answer 15

• Available products
  
  • Cholesteryamine (Questran)
  • Colestipol (Colestid)
  • Colesevelam (WelChol)
• Beneficial events
  
  • Reduce LDL-C
  • Reduce coronary events (nonfatal MI, CHD death)
• Adverse events
  
  • GI intolerance: constipation, bloating, abdominal pian, flatulence
  • Lack systemic toxicity
• Drug interactions
  
  • Occur with colestipol & cholestyramine, not colesevelam
  • Bind other negatively charged drugs
  • Impede the absorption of drugs &/or fat-soluble vitamins
  • Must give other drugs 1 hour before or 4-6 hours after

Question 16

Nicotinic Acid (Niacin): Mechanism of Action

• Mechanisms
• Net result

Answer 16

• Mechanisms
  
  • Inhibits lipoprotein synthesis
  • Decreases VLDL production by the liver
  • Inhibits peripheral mobilizaiton of free FAs
  • Reduces hepatic synthesis of TGs
  • Reduces VLDL secretion
  • Reduces apoB
  • Increases production of apoA-I –> increase HDL
• Net result
  
  • Reduciton in VLDL particle secretion by teh liver
  • Less substrate availability to make LDL particles

Question 17

Nicotinic Acid (Niacin): Effect on Lipoproteins

• Niacin vs. LDL-C
• To reduce the risk of hepatotoxicity…
• Niacin vs. TGs & HDL-C
• Niacin vs. apoA

Answer 17

• Niacin vs. LDL-C
  
  • Niacin reduces LDL-C in a linear, dose-dependent manner (up to 25%)
• To reduce the risk of hepatotoxicity…
  
  • The dose of extended- & sustained-release forms of niacin is limited to reduce LDL-C (15-20%)
  • Immediate-release niacin can be titrated to reduce LDL-C (20-25%)
• Niacin vs. TGs & HDL-C
  
  • Niacin alters TGs & HDL-C in a curvilinear manner
  • Modest doses of niacin can significantly alter these lipid levels
  • Niacin is the most effective drug for raising HDL-C
• Niacin vs. apoA
  
  • Niacin reduces apoA by 30%

Question 18

Nicotinic Acid (Niacin): Clinical Features

• Available products
• Immediate vs. sustained
• Immediate-release niacin
• Niacin combinations
• Niacin is the best agent available for…

Answer 18

• Available products
  
  • Immediate-release (OTC)
  • Extended-release (prescription)
  • Sustained-release (OTC)
• Immediate vs. sustained
  
  • Immediate-release is better at lowering LDL-C & raising HDL-C than sustained-release
• Immediate-release niacin
  
  • Reduces fatal & nonfatal MI
  • Coronary Drug Project
    
    • 6-year, placebo-controlled, randomized clinical trial
    • Only sufficiently powered clinical trial comparing niacin to placebo in secondary prevention
• Niacin combinations
  
  • Used in combination w/ bile acid resin to slow atherosclerosis progression
• Niacin is the best agent available for…
  
  • Raising HDL-C
  • Shifting cholesterol from small to large LDL particles in patients w/ mixed hyperlipidemia
    
    • Converts these patients from the atherogenic pattern B to the less-atherogenic pattern A

Question 19

Nicotinic Acid (Niacin): Clinical Features

• Adverse effects
• Contraindications

Answer 19

• Adverse Effects
  
  • Flushing, itching, headache
    
    • Extended-release: dozed at bedtime to limit these effects
    • Take aspirin 30 minutes prior to the first daily dose to limit these effects
    • Take niacin w/ food to limit flushing
  • Hepatotoxicity, GI (sustained-release)
    
    • Manifests as asymptomatic increased liver transaminases, malaise, lethargy, anorexia, or hepatitis
    • Should monitor liver function
    • Use immediate- or extended- over sustained-release to avoid this risk
  • Activation of peptic ulcer
  • Hyperglycemia & reduced insulin sensitivity
    
    • Often worsens hyperglycemia in patients w/ type 2 diabetes
• Contraindications
  
  • Active liver disease or unexplained LFT elevations
  • Peptic ulcer disease

Question 20

Simvastatin Alone vs. w/ Colesevelam & LDL-C

• Statin + bild acid resin
• When combining a statin + bild acid resin

Answer 20

• Statin + bild acid resin
  
  • Effective way to lower LDL-C
    
    • Limited by the GI side effects associated w/ older bile acid resins
  • Colesevelam: more tolerable, better for combination therapy
    
    • Simvastatin + colesevelam > 2x simvastatin dose in reducing LDL-C
• When combining a statin + bild acid resin
  
  • Use the loewst effective doses of the drugs
  • No need to separate the statin from teh bile acid resin dose
  • If the combination isn’t effective, consider adding niacin or replacing the bile acid resin with niacin

Question 21

Effect of Adding Extended-Release Niacin to a Stable Dose of a Statin

• Effects of extended-release niacin + statin
• Combination is particularly good for…

Answer 21

• Effects of extended-release niacin + statin
  
  • Accentuated LDL-C lowering
  • Accentuated HDL-C raising
  • Accentuated TG reduction
• Combination is particularly good for…
  
  • Patients w/ mixed hyperlipidemia

Question 22

Triple-Drug Regimen

• Drugs
• Patients that benefit most from a triple-drug regimen

Answer 22

• Drugs
  
  • Lovastatin
  • Niaspan
  • Colestipol
• Patients that benefit most from a triple-drug regimen
  
  • Patients w/ severe hypercholesterolemia (ex. familial hypercholesterolemia) that require substantial LDL-C reductions

Question 23

Treatment of Mixed Hyperlipidemia

• Initial management
• Patients that require additional treatment to achieve their secondary treatment goal defined by non-HDL-C
• Patients w/ diabetes or imparied fasting glucose

Answer 23

• Initial management
  
  • TLC –> LDL-C reduction to the LDL-C goal
• Patients that require additional treatment to achieve their secondary treatment goal defined by non-HDL-C
  
  • Intensified statin (or other LDL-C-lowing) therapy
  • Addition of TG-lowering drugs
• Patients w/ diabetes or imparied fasting glucose
  
  • Aggressive glycemic control to address the cause fo the hypertriglyceridemia

Question 24

Fish Oils

• Indications
• Efficacy (alone)
• Efficacy (when combined w/ a statin)
• Other effects of omega-3 FAs
• Side effects
• Intervention trials

Answer 24

• Indications
  
  • Adjunctive therapy to diet
  • Hypertriglyceridemia (type IV & V)
  • W/ statins or other LDL-C-lowering drugs in mixed hyperlipidemia
• Efficacy (alone)
  
  • Decrease TGs
  • LDL-C remains the same or increases
  • No change in HDL-C
• Efficacy (when combined w/ a statin)
  
  • Decrease TGs
  • May blunt LDL-C lowering
• Other effects of omega-3 FAs
  
  • Reduce fibrinogen levels
  • Reduce BP
  • Reduce cell proliferation
  • Protect against sudden death due to ventricular arrhythmias
  • Reduce CHD risk
• Side effects
  
  • GI upset
  • “Fish burp”
• Intervention trials
  
  • Lyon Heart Study (dietary)
  • GISSI Prevenzion Trial

Question 25

Potential Triglyceride-Lowering Mechanisms of Omega-3 FA

• Inhibit…
• Stimulate…
• End result

Answer 25

• Inhibit…
  
  • Lipogenesis
  • Diacylglycerol acyltransferase (DGAT)
  • Phosphatidic acid (PA)
  • Hormone-sensitive lipase
• Stimulate…
  
  • Beta-oxidation
  • Phospholipid synthesis
  • apoB degradation
• End result
  
  • Reduce secretion of VLDL TG

Question 26

Fibric Acid Derivatives

• General
• Indications
• Mechanism of action
• Efficacy
• Side effects
• Contraindications
• Intervention trials

Answer 26

• General
  
  • TG-lowering drugs used to reach non-HDL-C goals
• Indications
  
  • Adjunctive therapy to diet
  • Hypertriglyceridemia (type IV & V)
  • Combined hyperlipidemia (type IIb) w/ low HDL-C who don’t respond to nicotinic acid
• Mechanism of action
  
  • Increase peripheral lipolysis
  • Decrease hepatic TG production
  • Increase nuclear transcription factor peroxisome proliferator-activated receptor alpha (PPAR-alpha) in liver, adipose, & other tissues
    
    • Downregulate apoC-III genes & up-regulate genes for apoA-I, FA transport protein, FA oxidation, & possibly lipoprotein lipase
    • Enhance catabolism of TG-rich lipoproteins
    • Reduce formation of VLDL TGs
    • Increase apoA-I synthesis –> raise HDL-C
• Efficacy
  
  • Decrease TG
  • LDL-C decreases, remains the same, or increases
  • Increase HDL-C in hypertriglyceridemia
• Side effects
  
  • GI upset
    
    • Increase litogenicity of bile
    • Increase likelihood of cholesterol gallstones
  • Cholelithiasis
  • Myositis
  • Abn LFTs
  • Increased anticoagulatn effects
    
    • Fibrates bind to serum albumin & may displace warfarin
• Contraindications
  
  • Hepatic or renal dysfunction
  • Pre-existing gallbladder disease
• Intervention trials
  
  • HHS, VA-HIT, BIP, LOCAT, BECAIT, DAIS

Question 27

Steps to Minimize the Risk of Muscle Toxicity w/ Fibrate-Statin Combination Therapy

Answer 27

• Use statin alone for non-HDL-C goals
• Use fish oils or niacin instead of fibrates
  
  • If must used fibrate, use fenofibrate instead of gemfibrozil for lower risk
• Keep doses of statin & fibrate low
• Dose fibrate in the AM & the statin in the PM
• Avoid (or cautiously use) combo in renal or hepatic impairment
• Ensure no drug-drug interations
• Monitor CK levels
• Teach the patient to recognize muscle symptoms (weakness, tenderness, pain)
• Discontinue therapy if muscle symptoms are present & CK > 10x the upper limit of normal

Question 28

Statin Benefit Groups

Answer 28

• 4 groups
  
  • Established ASCVD (secondary prevention)
  • LDL-C > 190 mg/dl
  • Adults 40-75 w/ diabetes & LDL-C = 70-189 mg/dl w/o clinical ASCVD
  • Adults 40-75 w/o diabetes or ASCVD w/ 10year calculated ASCVD risk > 7.5%
• Factors that inform clinical decision making in individuals not in a statin benefit group
  
  • FH of premature ASCVD
  • Elevated lifetime risk of ASCVD
  • High LDL-C, hs-CRP, or CAC score
  • Low ABI
  • Statin use

Question 29

ASCVD Risk Estimator

Answer 29

• Enables providers to estimate 10-year risk & lifetime risk of CV events
  
  • Coronary death
  • Nonfatal MI
  • Fatal or nonfatal stroke
• Quantitative assessment of risk based on representative populations (pooled cohorts)
• While applied to individuals, the estimates are based on group averages
• Takes into account…
  
  • Gender, age, race, total cholesterol, HDL, SBP, HTN treatment, diabetes, smoking