1. 18th Annual Primary Care & Cardiovascular Symposium
Lipids in Primary Care
Jose R Valery, MD
18th Annual Primary Care & Cardiovascular Symposium
May 18, 2017

2. Disclosures
Disclosures = None

3. Objectives Background Primary prevention Secondary prevention
Statin monitoring
Statin intolerant patients

4. Background
Part I

5. Coronary Risk and Cholesterol Levels
Epidemiologic studies have shown that there is a graded relationship between total cholesterol levels and atherosclerotic cardiovascular disease (ASCVD).

6. Data from: Stamler J, Wentworth D, Neaton JD
Data from: Stamler J, Wentworth D, Neaton JD. Is relationship between serum cholesterol and risk of premature death from coronary heart disease continuous and graded? Findings in 356,222 primary screens of the Multiple Risk Factor Intervention Trial (MRFIT). JAMA 1986; 256:2823.

7. Data from: Pekkanen J, Linn S, Heiss G, et al
Data from: Pekkanen J, Linn S, Heiss G, et al. Ten-year mortality from cardiovascular disease in relation to cholesterol level among men with and without preexisting cardiovascular disease. N Engl J Med 1990; 322:1700.

8. Classification of Cholesterol and Triglyceride Levels 2014 National Lipid Association (NLA) Guidelines
Non-­‐HDL-­‐C (Total C -­‐ HDL-­‐C)
<130 mg/dL
Desirable
130-­‐159
Above Desirable
160-­‐189
Borderline High
190-­‐219
High
≥220
Very high
LDL-­‐C
<100 mg/dL
100-­‐129
≥190
Very High
HDL-­‐C
<40 mg/dL (men)
Low
<50 (women)
Triglycerides (VLDL-­‐C)
<150 mg/dL
Desirable
150-­‐199
Borderline High
200-­‐499
High
≥500
Very High
J Clinical Lipidology 2014;8:473-­‐488

9. Intensity of Statin Therapy
High Intensity
Moderate Intensity
Lower Intensity
Lowers LDL-C
≥50%
Lowers LDL-C %
<30%
Atorvastatin (40) 80 mg
Atorvastatin (10) 20 mg
Simvastatin 10 mg
Rosuvastatin 20 (40) mg
Rosuvastatin (5) 10 mg
Pravastatin mg
Simvastatin mg
Lovastatin 20 mg
Pravastatin 40 (80) mg
Fluvastatin mg
Lovastatin 40 mg
Pitavastatin 1 mg
Fluvastatin XL 80 mg
Fluvastatin 40 mg BID
Pitavastatin 2-4 mg

10. Lifestyle Changes By how much does diet lower cholesterol?
United Kingdom Lipid Clinics Program study of patients showed an average reduction of 5-7% in LDL levels with dietary modification alone
2003 Jenkins et al. showed that marked dietary change can lower LDL-C by as much as 30 Percent

11. Lifestyle Changes BUT…
So, we can lower cholesterol with diet alone, but what about CV events?
The Multiple Risk Factor Intervention Trial (MRFIT) of 12,866 high-risk men
dietary advice did not significantly reduce CHD mortality (1.8 versus 1.9 percent) or all-cause mortality (4.1 versus 4.0 percent)
BUT…
differences in achieved total cholesterol levels between the groups (generally 5 to 10 mg/dL [0.13 to 0.26 mmol/L]) were probably too small to expect significant effects on mortality.

13. Lifestyle Changes
7447 subjects (average age 67 yrs, 57% women): 3 groups randomized:
Med Diet 1 (with extra-virgin olive oil supplements)
Med Diet 2 (with mixed nuts supplements)
Control Diet (advise to lower fat content)
Followed for 4.8 yrs for endpoint of major CV events (MI, stroke, CV death)

14. Primary Prevention of Cardiovascular Disease
with the Mediterranean Diet

16. Minimal running of 5 to 10 min/day
reduced mortality from:
all-cause (30%)
cardiovascular disease (45%)
could add 3 years of life expectancy from a 15-year follow-up of 55,137 adults at the Cooper Clinic in Dallas, Texas

17. J Am Coll Cardiol. 2014;64(5):482-­‐484

18. Primary Prevention
Part 1

19. Primary Prevention Treatment of lipids in patient who do not have:
Coronary heart disease
History of myocardial infarction
Angina
Prior coronary revascularization
Other cardiovascular disease
Symptomatic carotid artery disease
Peripheral vascular disease
Abdominal aortic aneurysm
Combinations of risk factors that result in a 10- year risk of CVD events of more than 20 percent
Familial hypercholesterolemia

21. Nonstatin therapy in primary prevention
Year
Study
Population
Demographics
Intervention
Comparison
Outcome
1979
WHO Cooperative Trial
10,577 pts
Gender – only men
Age – 46 to 55
TC – 248 to 290
HDL – 46
TG – 159 to 177
BP 121/80 – 141/90
Smokers – 36 to 56
Clofibrate
Placebo
Reduction in coronary events
No reduction in CV mortality,
Increase in mortality from non-CV causes
1984
Lipid Research Clinics Coronary Primary Prevention Trial
3806 pts
Cholestyramine
1987
Helsinki Heart Study
4081
Gemfibrozil

22. Nonstatin therapy in primary prevention
Year
Study
Population
Demographics
Intervention
Comparison
Outcome
1979
WHO Cooperative Trial
10,577 pts
Gender – only men
Age – 46 to 55
TC – 248 to 290
HDL – 46
TG – 159 to 177
BP 121/80 – 141/90
Smokers – 36 to 56
Clofibrate
Placebo
Reduction in coronary events
No reduction in CV mortality,
Increase in mortality from non-CV causes
1984
Lipid Research Clinics Coronary Primary Prevention Trial
3806 pts
Cholestyramine
1987
Helsinki Heart Study
4081
Gemfibrozil

23. Effect of early clinical trials on mortality
Year
Study
Demographics
Intervention
Comparison
Outcome
1995
West of Scotland Coronary Prevention Study (WOSCOPS)
6595 pts
Men
Age 45 to 64
TC > 252
LDL > 155
Pravastatin 40mg/day
Placebo
26% ↓ LDL
CV death ↓ 32 %
Total mortality ↓ 22%
No difference in non CV death
2001
Air Force/Texas Coronary Atherosclerosis Prevention Study (AFCAPS/TexCAPS trial)
6605 pts (997 women)
LDL 150
TC 221
Lovastatin mg/day
25% ↓ LDL
Risk of first acute CV event ↓ 37 %
No decrease in total mortality
2003
The Anglo-Scandinavian Cardiac Outcomes Trial-Lipid Lowering Arm (ASCOT-LLA)
10305 pts (1942 women)
LDL 131
TC 213
Atorvastatin 10mg/day
35% ↓ LDL
CV events ↓ 36%
WOSCOPS – Treatment effect was the same regardless of the baseline lipid concentration and the reduction in the LDL-C concentration, 30% reduction in the risk of developing diabetes diabetes

24. Effect of early clinical trials on mortality
Year
Study
Demographics
Intervention
Comparison
Outcome
2007
The Measuring Effects on Intima-Media Thickness (METEOR)
984 pts
Men 45 to 70
Women 55 to 70
TC > 252
LDL 120 to 190
Rosuvastatin 40mg/day
Placebo
49% ↓ LDL
Stabilized intima-media thickness but not done to study clinical outcomes
2008
The Justification for the Use of Statins in Primary Prevention: An Intervention Trial Evaluating Rosuvastatin (JUPITER)
17802 pts
Men > 50
Women > 60
LDL < 130
Rosuvastatin 20mg/day
50% ↓ LDL
Risk of first acute CV event ↓ 44 %
20 % ↓ in total mortality
No difference in non CV death
Slightly higher rate of diabetes in treatment arm
2016
The Heart Outcomes Prevention Evaluation (HOPE)-3
12708 pts
Intermediate risk
Rosuvastatin 10mg/day
CV events/mortality ↓ 23%
WOSCOPS – Treatment effect was the same regardless of the baseline lipid concentration and the reduction in the LDL-C concentration, 30% reduction in the risk of developing diabetes diabetes

25. Effect of early clinical trials on mortality
Year
Study
Demographics
Intervention
Comparison
Outcome
2007
The Measuring Effects on Intima-Media Thickness (METEOR)
984 pts
Men 45 to 70
Women 55 to 70
TC > 252
LDL 120 to 190
Rosuvastatin 40mg/day
Placebo
49% ↓ LDL
Stabilized intima-media thickness but not done to study clinical outcomes
2008
The Justification for the Use of Statins in Primary Prevention: An Intervention Trial Evaluating Rosuvastatin (JUPITER)
17802 pts
Men > 50
Women > 60
LDL < 130
Rosuvastatin 20mg/day
50% ↓ LDL
Risk of first acute CV event ↓ 44 %
20 % ↓ in total mortality
No difference in non CV death
Slightly higher rate of diabetes in treatment arm
2016
The Heart Outcomes Prevention Evaluation (HOPE)-3
12708 pts
Intermediate risk
Rosuvastatin 10mg/day
CV events/mortality ↓ 23%
WOSCOPS – Treatment effect was the same regardless of the baseline lipid concentration and the reduction in the LDL-C concentration, 30% reduction in the risk of developing diabetes diabetes

26. So, who do I treat with statins?
These studies show a cardiovascular benefit of around 20-30% statin therapy.
Absolute risk reduction will be larger in higher risk patients.

27. Calculating Risk ACC/AHA Pooled Cohort Calculator 2013
-Diabetes is a yes/no question.
-Does not consider family history

28. Calculating Risk Framingham (2008) -Does not consider family history
-May underestimate risk

29. Calculating Risk Reynolds -Diabetes is a yes/no question
-Does consider family history and can include high sensitivity CRP

30. Guidelines
ACC/AHA makes the following recommendations for adults ages 40 to 75 without known cardiovascular disease (CVD) and low-density lipoprotein cholesterol LDL between 70 and 189

31. Guidelines In those without diabetes
If 10-year CVD risk ≥7.5%: moderate-to-high intensity statin therapy. It is reasonable to offer treatment with moderate intensity statin therapy to those with an estimated 10-year CVD risk between 5.0 and 7.5 percent

32. Summary
There is a graded relationship between cholesterol levels and risk of atherosclerotic cardiovascular disease
Diet and exercise are effective. Recommending a specific diet such as the mediterranean diet may be more effective than simply advising the patient to eat a “low cholesterol” diet.
For primary prevention, calculate a patient’s 10- year risk of ASCVD at least every 5 years using one of the available calculators together with your clinical judgement.

33. Summary
Once you calculate the 10 year risk, weigh risks and benefits of statin therapy with your patient.
RRR with moderate intensity statin therapy in primary prevention is around 20-30%, the larger the absolute risk, the larger the impact.
Recommend treatment who have a high absolute risk (> %)

34. Thank You! Questions? Email: valery.jose@mayo.edu

35. Guidelines
Guidelines for lipid management for primary prevention of CVD from the United Kingdom's National Institute for Health and Clinical Excellence (NICE):
For patients with an estimated 10-year CVD risk ≥10 percent based on known risk factors, use a risk calculator to more formally assess risk
Patients should be informed about the absolute risks and benefits of 10 years of therapy
Other CVD risk factors should be optimized if possible
Patients with a 10-year risk of CVD of 10 percent or more should be offered statin therapy

36. Secondary prevention
Part 2

37. Question 4 Which of the following statements is true?
Statins can reverse atherosclerosis
Statins can slow progression of atherosclerosis
Non statins can reverse atherosclerosis
Statins lead to changes in existing atheromatous lesions that stabilize them to prevent plaque rupture
All of the above are true

38. Question 4 Which of the following statements is true?
Statins can reverse atherosclerosis
Statins can slow progression of atherosclerosis
Non statins can reverse atherosclerosis
Statins lead to changes in existing atheromatous lesions that stabilize them to prevent plaque rupture
All of the above are true

39. Studies Showing Improvement in Atherosclerosis

40. Effect of early clinical trials on mortality
Study
Demographics
Intervention
Comparison
Outcome
CLAS Trial
188pts
s/p CABG
Colestipol 30g/d + nicotinic acid 3-12g/d
Placebo
Regression of atherosclerosis
Slowed progression
REGRESS Trial
885 male pts
Pravastatin 40mg/d
LCAS
429 pts w/CHD
Fluvastatin
BECAIT Trial
92 male pts h/o MI
Bezafibrate
GAIN Trial
131 pts
Atorvastatin
Reduced progression
Increased plaque stability (from lipid rich to fibrous/calcified)
REVERSAL Trial
654 pts
Atorvastatin 80
Pravastatin 40
Atorvastatin better at halting progression
ARBITER 2 Study
Niacin
Halted progression
ASTEROID Trial
507 pts w/CAD
Rosuvastatin 40d
Historic cohort
Showed regression of lesions
SATURN Trial
1039 pts
Rosuvastatin 40
Similar effects on atherosclerotic lesions
WOSCOPS – Treatment effect was the same regardless of the baseline lipid concentration and the reduction in the LDL-C concentration, 30% reduction in the risk of developing diabetes diabetes

41. Studies showing improvement in clinical outcomes

42. Effect of early clinical trials on mortality
Study
Demographics
Intervention
Comparison
Outcome 4S
4444 pts w/CHD
Simvastatin 20-40/d
Placebo
Mortality ↓ 25%
CHD Death ↓ 42%
No ∆ in non-CV death
LIPID Trial
9014 pts w/CHD
Pravastatin 40mg/d
Mortality ↓ 21.4%
CHD Death ↓ 23%
TNT Trial
10000 pts
Atorvastatin 10 w/goal LDL < 100
Atorvastatin 80 w/goal LDL < 75
No reduction in overall mortality
SEARCH Trial
12064 pts
Simvastatin 80
Simvastatin 20
No difference in primary outcome
7x higher myopathy in high dose group
CARE Trial
4159 pts
Pravastatin 40
Mortality ↓ 30%
ACCORD
5518 pts w/T2DM
Fenofibrate + simvastatin
Simvastatin
No difference in primary endpoint or mortality
ASPEN Trial
2410 pts w/T2DM
Atorvastatin 10
No change although many patient in “placebo” group started on statin during study
IMPROVE IT
18144 pts w/ACS w/I 10 days
Simvastatin + ezetimibe
MI ↓ 13%, no change in mortality
WOSCOPS – Treatment effect was the same regardless of the baseline lipid concentration and the reduction in the LDL-C concentration, 30% reduction in the risk of developing diabetes diabetes

43. Meta Analyses: statins in patients with CHD
17,617 patients in the 4S, CARE, and LIPID trials:
major coronary events ↓ 30%
cardiovascular mortality ↓ 27%
all-cause mortality ↓ 23%
no effect on non cardiovascular mortality
risk reduction was similar for men and women and for older adults and middle-aged persons.
25,000 subjects (34 trials)
four years of cholesterol-lowering therapy would prevent
one death for every 110 patients treated
one CHD death for every 96 patients treated
one cardiovascular death for every 117.

44. Diabetic Patients Is diabetes a “cardiovascular risk” equivalent?
this averages events across patients with widely differing risks of CHD
Issues that affect risk with DM include age, sex, other CV risk factors, duration of DM, and whether the patient has type 1 or type 2 DM.
> 1.5 million adults followed for 10 years
lower rate of new CHD events in patients with DM than in those with a prior CHD event (12.2 versus 22.5 events per 1000 person-years)
the risk of events was similar to that with prior CHD only in patients who had DM for more than 10 years.

45. Diabetic Patients
The following patients with DM have a similar risk those with known CVD:
Men > 40 with type 2 DM and any other CHD risk factor, or over age 50 with or without other CHD risk factors
Women > 45 with type 2 DM and any other CHD risk factor, or over age 55 with or without other CHD risk factors
Men or women of any age who have had DM (type 1 or type 2) for more than 20 years if they have another risk factor or more than 25 years without another risk factor
A meta-analysis of 18,686 pts with diabetes in 14 randomized trials of statins (n = 18,686) found that relative benefits appeared unrelated to the baseline LDL-C [29].

46. Secondary Prevention Guidelines
All patients should be counseled to exercise, eat a prudent diet, and lose weight as appropriate.
Patients with ACS should be treated aggressively with atorvastatin 80 mg daily (avoid “tapering up”)
In patients with CVD treat with an intensive dose of a statin independent of the baseline LDL-C
LDL-C goal in secondary prevention is controversial.

47. STATIN MONITORING
Part III

48. Question 5
Which of the following statins have the largest impact on LDL?
Atorvastatin
Pravastatin
Rosuvastatin
Simvastatin

49. Question 5
Which of the following statins have the largest impact on LDL?
Atorvastatin
Pravastatin
Rosuvastatin
Simvastatin

50. Statin Pearls
Largest drop in LDL: Rosuvastatin, atorvastatin, and simvastatin.
ESRD: use atorvastatin or fluvastatin. No dose adjustment req’d.
Chronic liver disease: Abstain from alcohol and use low dose pravastatin.
Fewer pharmacokinetic drug interactions are likely to occur with:
pravastatin, fluvastatin, rosuvastatin, and pitavastatin (Not CYP3A4)
Pravastatin and fluvastatin appear less likely to cause muscle toxicity than other statins.
Check baseline aminotransferase levels and CK levels prior to initiating statin therapy
routine monitoring not necessary.
Check a TSH level prior to initiating statin therapy.

51. STATIN INTOLERANT PATIENTS
Part IV

52. Statins and Muscles
Myalgias and myopathy occur with a frequency of 2 to 11 percent.
Severe myonecrosis and clinical rhabdomyolysis are rare (0.5 percent and less than 0.1 percent, respectively).
Patients can experience statin-induced myalgias without an elevation in serum creatine kinase (CK) concentration.
Risk is increased when taking statin that is extensively metabolized by cytochrome P450 3A4 (lovastatin, simvastatin, atorvastatin) .

53. Statins and Muscles
Pravastatin, fluvastatin, rosuvastatin, and pitavastatin are preferred when concurrent therapy with a strong inhibitor of CYP3A4 cannot be avoided.
Grapefruit juice inhibits CYP3A4; however, daily consumption of eight ounces or less of grapefruit juice, or one-half of a grapefruit or less, is unlikely to increase the risk of an adverse interaction or muscle injury.
Patients on gemfibrozil who need a statin, treat with pravastatin or fluvastatin.
However, patients who require combined therapy with a statin (including pravastatin or fluvastatin) and a fibrate, it is suggested to use fenofibrate rather than gemfibrozil.

54. Statins and Muscles
Enhanced susceptibility to statin-associated myopathy occurs in patients with acute or chronic renal failure, obstructive liver disease, and hypothyroidism.
Muscle symptoms usually begin within weeks to months after starting statins.
Myalgias, weakness, and serum CK concentrations usually return to normal over days to weeks after drug discontinuation.
Some patients can have muscle symptoms from statin therapy without an elevation in serum CK, and it can then be difficult to be certain whether muscle symptoms are due to statin therapy.

55. Statins and Muscles
Clinical judgment is necessary in interpreting elevated CK levels in patients on statins.
CK elevations can be related to hypothyroidism or muscle injury during sports
Routine monitoring of CK levels is not recommended. It is useful to obtain a baseline CK level for reference.
In patients who develop evidence of muscle toxicity while on statin therapy, we assess for drug interactions, and if none are noted, we check vitamin D and thyroid function status.

56. Statins and Muscles
Pravastatin and fluvastatin appear to have much less intrinsic muscle toxicity than other statins. Thus, in patients who have developed statin myopathy (other than rhabdomyolysis) on a statin other than pravastatin or fluvastatin, we suggest switching to one of those two medications once symptoms have resolved off statin therapy.
In patients who are unable to tolerate daily dosing of pravastatin or fluvastatin, it is suggested to try alternate-day or less frequent dosing of statin therapy.
There is no convincing outcomes data regarding the use of CoQ10 for treatment or prevention of statin myopathy.

58. Statin Intolerant Patients
In primary prevention
No lipid-lowering therapy should be administered.
Potential interventions include lifestyle modification and, in higher-risk patients, antiplatelet therapy.
In the highest-risk patients (10-year risk of events of approximately 20 percent or more), if statin myopathy has been carefully assessed and statin therapy is not possible, treatment with a PCSK9 inhibitor may be an option.

59. Statin Intolerant Patients
In secondary prevention
Standard-risk patients with CVD who do not tolerate a statin:
Consider treatment with another class of lipid-lowering therapy
In higher-risk patients who do not tolerate any statin regimen:
Consider treatment with a proprotein convertase subtilisin kexin 9 antibody (PCSK9-ab).

60. Targets of Therapy - Triglycerides
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Targets of Therapy - Triglycerides
An elevated triglyceride level is not a target of therapy per se,
except when very high (severe; 500 mg/dl ).
When triglycerides are between mg/dl, the targets of therapy are non-HDL-C and LDL-C.
When the triglyceride concentration is very high ( 500 mg/dl, and especially if mg/dl), reducing the concentration to
<500 mg/dl to prevent pancreatitis becomes the primary goal of therapy. 20
www lipid org

62. What is PCSK9 ?Answer: Proprotein convertase subtilisin/ kexin 9
Antibody to PCSK9
PCSK9 regulates the number of LDL receptors on the cell surface.
PCSK9 inhibitors result in more LDL receptors recycled to cell surface.

63. PCSK9 Inhibitors Alirocumab ‘Praluent’
ODYSSEY
Long Term
PCSK9 Inhibitors Evolocumab ‘Repatha’
OSLER Trial

64. Both Published March 15, 2015 NEJM
ODYSSEY
Long Term
Both Published March 15, NEJM
(~60% ↓ LDL-­‐C)
OSLER Trials

65. CV Events in Long Term PCSK9 Trials (Post hoc analysis…exploratory)
CV Events Reduced
~50%
J Am Coll Cardiol. 2015;65(24): doi: /j.jacc

66. Adverse Side Effects of PCSK9 Inhibitors
Injec\on site reac\ons (erythema, pruritus, swelling tenderness)
Nasopharyngi\s
Possible neurocogni\ve adverse reac\ons
Confusion
Memory impairment

67. (2015) FDA Approved Indica0ons for An0-­‐PCSK9 Monoclonal An0bodies in Addi0on to Diet and Maximally Tolerated Sta0n Therapy for Additional LDL-­‐C Lowering
Clinical ASCVD*
Heterozygous FH
Homozygous FH
Evolocumab (Repatha) +
Alirocumab (Praluent)
-­‐
*Clinical ASCVD includes acute coronary syndromes, history of MI, stable or unstable angina, coronary or other arterial revasculariza\on, stroke, TIA, or PAD
ACC Expert consensus (May, 2016): eze\mibe should be the first-­‐line and PCSK9 inhibitors second-­‐line choice for high risk ASCVD pa\ents who con\nue to have high LDL-­‐C despite maximally tolerated sta\n therapy

68. Willingness-­‐ to pay threshold
$5,404 / year
Willingness-­‐ to pay threshold
$3,166 / year

69. Return

70. Aspirin for Primary Prevention New 2016 USPSTF RecommendaHon
Adults 50-­‐59 years with ≥ 10-yr CVD risk
Return

71. Return

72. References UpToDate articles:
Primary & Secondary Prevention of ASCVD, Frank G. Yanowitz, MD