Lipid Lowering drugs

Question 1

What is the normal physiologic role of lipoproteins?

Answer 1

• triglycerides are an essential energy source
• cholesterol is necessary to produce:
  
  • cell membranes
  • bile acids
  • steroid hormones

Question 2

What are lipoproteins?

Answer 2

• a carrier required to transport lipids to and from cells in the periphery
• produced via an exogenous pathway
  
  • dietary fat
  • cholesterol
  • fat soluble vitamins
• Or produced endogenously
  
  • synthesized in liver

Question 3

Order the density of lipoproteins from lowest to highest

Answer 3

• chylomicrons
• very low density lipoproteins
• intermediate density lipoproteins
• low density lipoproteins
  
  • bad b/c they carry cholesterol out to periphery
• high density lipoproteins
  
  • good b/c they carry cholesterol back to liver

Question 4

Why is hyperlipidemia a problem?

Answer 4

• High cholesterol is associated with increased CAD
• High triglycerides are associated with pancreatitis

Question 5

How is atherosclerosis formed?

Answer 5

• When there is excess LDL, the LDL molecules will deposit into the tunica intima
  
  • the LDL is then oxidized, which attracts macrophages
• The macrophages will take up the LDLs and will become foam cells
  
  • foam cells promote migration of smooth muscle cells from the tunica media to the tunica intima and smooth muscle cell proliferation
• Smooth cell proliferation causes increased formation of collagen, which causes hardening
• during this process, foam cells will die, releasing lipid content and driving the growth of the plaque
• the plaque can rupture, leading to thrombosis

Question 6

What is primary hyperlipidemia?

Answer 6

• genetic heterozygous condition resulting in elevated total cholesterol level or triglyceride level
• often called Familial hypercholetolemia or familial hypertriglyceridemia
• total cholesterol usually >200, triglycerides often >500

Question 7

What is secondary hyperlipidemia?

Answer 7

• Usually associated with another disease
  
  • DM
  • hypothyroidism
  • obstructive liver disease
  • chronic renal failure

Question 8

What drugs can increase LDL and decrease HDL?

Answer 8

• progestins
• corticosteroids
• anabolic steroids
• protease inhibitors

Question 9

What are desireable levels for

total cholesterol?

HDL?

LDL?

Answer 9

• Total cholesterol:
  
  • desireable: <200
  • high: >240
• HDL:
  
  • low <40
  • high >60
• LDL
  
  • optimal <100
  • high 160-189

Question 10

What are the newest ACC/AHA guidelines?

What were the previous guidelines?

Answer 10

• the newest guidelines focus on the relative reduction of ASCVD (atherosclerotic cardiovascular disease) using statins
• Previous guidelines focused on screening pts for hyperlipidemia and treating it to try to bring it down to a goal LDL level

Question 11

How is ASCVD assessed?

Answer 11

• History of choronary heart disease
  
  • angina
  • MI (anybody who has had an MI should go on statins)
  • coronary interventions (PTCA, stents, CABG)
• Peripheral arterial disease
  
  • peripheral areterial disease
  • symptomatic carotid artery disease
  • abdominal aortic aneurysm
• Risk factors (separate card)

Question 12

What are the risk factors for ASCVD?

Answer 12

• Gender
• age- older
• race
• total cholesterol
• HDL cholesterol- less concern if HDL is robust
• BP- CV risk doubles with every 20 pt increase in BP
• treatment for high blood pressure
• DM
• smoking

Question 13

What are the four groups that warrant statin therapy?

Answer 13

• Clinical ASCVD
• LDL > 189
• Ppl 40-75 with D< and LDL 70-189 without ASCVD
• ppl 40-75 with DM and LDL 70-189 and a 10 year ASCVD risk of 7.5% or higher

Question 14

What is the intensity of statin therapy based on?

Answer 14

• Presence of clinical ASCVD
• risk of developing ASCVD
• presence of DM with/without hyperlipidemia
• presence of isolated hyperlipidemia (genetic)

Question 15

How much does High intensity statin therapy lower LDL?

moderate insensity?

low intensity?

(chart)

Answer 15

Question 16

In what situations would the addition of a non-statin be considered?

Answer 16

• High risk patients who have a less than anticipated response to statins
• patients that are unable to tolerate the recommended intensity of a statin or are completely intolerant

Question 17

What are secondary treatment goals?

Answer 17

• Treat elevated triglycerides
  
  • if triglycerides are > 200 and LDL goal has been achieved, add additional treatment for TGs
• Treat low HDLs (<40)
  
  • If HDLs are <40 and LDL and TG goals have been achieved, add another treatment for HDLs

Question 18

What are statins?

How do they work?

effects?

Answer 18

• HMG-COA reductase inhibitors
  
  • inhibit the enzyme that catalyzes the rate-limiting step in the formation of cholesterol by the liver
  • specifically inhibits the conversion of HMG-COA to mevalonate
• Effect is to:
  
  • decrease cholesterol synthesis in liver
  • enhance LDL receptor expression which increases LDL uptake in liver

Question 19

How much do statins decrease LDLs?

TGs?

increase HDLs?

Answer 19

• decrease LDLs 20-60%
• decrease TGs 10-20%
• increase HDLs about 10%

Question 20

What are the statin agents?

Answer 20

• Lovastatin (Mevacor)
• Simvistatin (zocor)
• Atorvastaton
• Rosuvastatin (Crestor)
• Pravastatin (Pravachol)
• Fluvastatin (Lescol)

Question 21

What are some other beneficial effects of statins besides normalization of lipids?

Answer 21

• promote plaque stability
  
  • decreases M&M when administered perioperatively to a high risk patient
• Antioxidant, anti-inflammatory, vasodilatory
• Reduction in CV events even in pts with normal LDL levels
  
  • also helpful in diabetics
• increased bone formation

Question 22

What are the pharmacokinetics of statins?

Answer 22

• Lovastatin and simvastatin are prodrugs
• Highly PB (except pravastatin)
• extensive CYP450 metabolisme (except pravastatin)
• E1/2t: 1-4 hours (clinical effects last for 24 hours)
  
  • atorvastatin 14 hours

Question 23

What is the incidence of side effects of statins?

What are the common side effects of statins?

The rare ones?

Answer 23

• 5%- similar to placebo
• common
  
  • HA
  • rash
  • GI disturbances
  • myalgias
• Rare
  
  • hepatotoxicity
  • peripheral neuropathy
  • myopathy/rhabdomyalysis- can be fatal

Question 24

Who is at higher risk of myopathies with statins?

Answer 24

• pts with pre-existing muscle disease
• >80 yrs
• female
• asians
• small body frame and frailty
• impaired renal or hepatic system
• alcohol abuse
• hypothyroid
• high statin levels

Question 25

What pregnancy category are statins?

Answer 25

Category X- the fetus NEEDS cholesterol/triglycerides to grow

Question 26

What are the drugs we care about regarding statin interactions?

Answer 26

• Ketoconazole
• erythromycin
• clarithromycin
• amiodarone
• protease inhibitors

Question 27

How do bile acid sequestrants/resins work?

What is the effect?

Answer 27

• It is a non-absorbable resin that binds bile acids and other substances in the GI tract, preventing absorption and promoting GI excretion
• results in the liver using hepatic cholesterol to produce more bile acids and increased LDL receptor expression on hepatocytes
• effect is to decrease LDLs, increase HDLs, no change to TGs

Question 28

What are some of the bile acid sequestrant drugs?

Answer 28

cholestyramine (Questran)

Colestipol

colesevelam

Question 29

How are bile sequestrants dosed?

Answer 29

• It is a powder that gets mixed with liquid
• take 30 min. before, during, or after a meal
• increase dose gradually

Question 30

What are some bile acid sequestrant drug interactions?

Answer 30

• Can interfere with absorption and/or form complexes with many PO meds
  
  • synthroid
  • oral contraception
  • sulfonylurea antibiotics
  • phenytoin
  • thiazide diuretics
  • fat soluble vitamins

Question 31

What are some advers effects of bile acid sequestrants?

Answer 31

• GI- severe constipation, flatulence, N/V
  
  • high fiber diet
  • stool softener
• reduced folate levels with long term use
• cholestyramine (chloride) hyperchoremic acidosis
  
  • seen in young or small pts

Question 32

How does Nicotinic acid (Niacin) work to improve cholesterol?

What is the effect?

Answer 32

• MOA unclear: reduces the production of VLDLs
  
  • works on liver and adipose tissue to inhibit TG production
  • increases HDLs more effectively than any other drug, how it does this is unknown
• Effect:
  
  • reduces LDLs and TGs
  • increases HDLs

Question 33

What are some nicotinic acid agents?

Answer 33

• Nicotinic acid in immediate release, extended release, sustained release
• Niaspan

Question 34

How much does niacin improve long term outcomes?

Answer 34

It does little to improve long term outcomes. “Reduction in risk factors does not translate to reduction in actual risk”

Question 35

What are the adverse effects of Niacin?

Answer 35

• skin flushing and itching
  
  • can pretreat with aspirin 30 min before dose
• GI discomfort
• hepatotoxicity- assess liver function regularly
• hyperglycemia
• gouty arthritis
• can raise blood levels of uric acid
  
  • check kidney function, encourage 2-3 L/day water intake

Question 36

How is Niacin dosed?

Answer 36

• gradually increase dose
• titrate: 1.5-2 g/day
• divided doses with meals
• ASA prior to dosing
• avoid hot fluids prior to use
• contains yellow dye #5

Question 37

How do Fibric acid derivatives work?

How do they affect the levels of TGs, HDLs, and LDLs?

Answer 37

• MOA: Interacts with a receptor (PPAR alpha) that increases synthesis of lipoprotein lipase (LPL)
  
  • and decreases an apolipoprotein that inhibits LPL
• Increases lopolysis of triglycerides
• **most effective drugs available to decrease TGs (40-50%)
• Can increase HDLs 15-25%
• Very little decrease in LDLs

Question 38

What are the three Fibric acid derivative drugs?

Answer 38

• Gemfibrozil (Lipod)
• Fenofibrate (Tricor)
• Fenofibric acid (TriLipix)

Question 39

What are the adverse drug reactions with Fibric acid derivatives?

Answer 39

• displaces warfarin from albumin- can increase risk of bleeding
  
  • measure INR
• rashes
• GI disturbances
• HA
• rhabdo & myopathy- do not give with statins
• Gallstones
• hepatotoxic- check LFTs

Question 40

How does Exetimibe (Zetia) work?

Answer 40

• By inhibiting cholesterol and phytosterol absorption from the brush border of the intestines
  
  • disrupts complex btw annexin-2 and cavolin-1 proteins
  • increases the expression of LDL receptors
• No affect on absorption of fat soluble vitamins (A,D,E,K)
• No affect on CYP450 enzymes
• intended for use in conjunction with a statin

Question 41

What did the IMPROVE-IT trial find?

Answer 41

• IMPROVE-IT added Exetimibe to simvistatin and reduced LDL by 24%
• also demonstrated a 2% reduction in the primary composite end point of CV death, major coronary events, or nonfatal CVA
• *unclear if this is b/c of overall lowering of LDL or the addition of exetimbe but it diminishes the idea that only statins provide a mortality benefit
• **Other studies have not shown a mortality benefit

Question 42

What is the LDL deduction of a statin combined with Exetimibe?

A statin with a bile acid sequestant?

A statin with a fibric acid derivative?

A statin and Niacin?

Answer 42

• • Extimibe = 25% reduction in LDL
• • bile acid sequestant = 8-16% reduction in LDL
• • Fibric acid derivative = decreases triglycerides
    
    • increased risk of myopathies
    • contraindicated with hepatic disease
• • Niacin = increased risk of hepatic dysfunction

Question 43

What is the only lipid lowering medication class that is safe during pregnancy?

Answer 43

Bile acid-binding resins

Question 44

Apply all your knowledge to describe what is happening in this picture.

Answer 44

If you dont know this from the other 40 cards you just learned, start over.

Question 45

What are apolipoproteins and how might useful?

Answer 45

• Apolipoproteins are embedded in the outer layer of the phospholipid bilayer that surrounds the cholesterol (all types)
  
  • they are necessary for assembly, provide sturcture, activate enzymes, and act as receptor ligands for cellular uptake
  • They are also the culprit that binds to the arterial wall, beginning the oxidative and inflammatory process that really gets the atherogenesis going
• Apolipopotein B seems to be linked with cardiovascular disease
  
  • monitoring apolipoprotein B may be useful as an additional means of monitoring the efficacy of a given treatment

Question 46

What is Mipomerson?

Answer 46

• An antisense oligonucleotide targeted to human mRNA for apolipoprotein B-100
• if mipomerson combines to apoB mRNA, will result in degredation and loss of translation of the apoB protein
• FDA approved for familial hyperlipidemia
• Adverse affects: hepatic dysfunction, steatosis, flu-like symptoms, Nausea, HA
  
  • hepatotoxicity = black box warning

Question 47

What is lopitamide?

Answer 47

• A Microsomal triglyceride transfer protein inhibitor
• presents assembly of apoB-containing lipoproteins in enterocytes and hepatocytes
  
  • inhibits the synthesis of chylomicrons and VLDL in liver
  • up to 50% decrease in plasma LDL levels
• Adverse affect: hepatic steatosis