Practical Approaches to Managing Hypertension: Reducing Global Cardiovascular Risk

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Practical Approaches to Managing Hypertension: Reducing Global Cardiovascular Risk

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Title: Practical Approaches to Managing Hypertension: Reducing Global Cardiovascular Risk

1
Practical Approaches to Managing Hypertension
Reducing Global Cardiovascular Risk
John S. Banas, MD Professor Emeritus of Clinical
Medicine Columbia University College of
Physicians and Surgeons New York, New
York Dorothy and Lloyd Huck Chairman
Emeritus Department of Cardiovascular
Medicine Morristown Memorial Hospital Morristown,
New Jersey
2
Key Question

Which class of agents do you presently
consider first-line treatment for patients
with hypertension?
Diuretics
ß-Blockers (BBs)
Calcium channel blockers (CCBs)
Angiotensin-converting enzyme inhibitors (ACEIs)
Angiotensin receptor blockers (ARBs)
All of the above
Use your keypad to vote now!

3
Faculty Disclosure

Dr Banas speakers bureau Bristol-Myers Squibb
Company, Pfizer Inc, sanofi-aventis Group
speakers bureau, consultant King
Pharmaceuticals, Inc.

4
Learning Objectives

State the prevalence of hypertension and its role
in the cardiovascular disease continuum
Formulate hypertension management according to
risk stratification
Describe the importance of targeting improvement
in vascular function in patients with
hypertension

5
Progression of Cardiovascular Disease The
Cardiovascular Continuum
Myocardial infarction
Myocardialischemia
Ventricular dysfunction
SD
PAD
Endothelialdysfunction and atherothrombosis
Ventricular dilation and hypertrophy
Stroke
Hyperlipidemia,HTN, diabetes, smoking, obesity,
etc
Congestive heart failure and death
Adapted from Dzau V, Braunwald E. Am Heart
J. 19911211244-1263.
6
Progression From Hypertension to Heart
Failure/Sudden Death
Obesity Diabetes
Hypertension
Smoking Dyslipidemia
Risk Factors
Time
Adapted from Vasan RS, Levy D. Arch Intern Med.
19961561789-1796.
7
Development and Progression of Vascular Disease
RISK FACTORS
Smoking
?BP
Diabetes
?LDL
Oxidative Stress
Endothelial Dysfunction andSmooth Muscle
Activation
?NO ? Local Mediators ? Tissue ACE, AII
EndothelinCatecholamines
PAI-1, PlateletAggregation, Tissue Factor
VCAM/ICAMCytokines
Proteolysis Inflammation
Growth Factors Cytokines Matrix
Inflammation
PlaqueRupture
Vasoconstriction
Thrombosis
Vascular Lesionand Remodeling
CLINICAL SEQUELAE
Dzau V. Hypertension. 2001371047-1052.
8
Hypertension and Global CV Risk
9
What Is Global CV Risk?

Treating hypertension to goal is good
Addressing all CV risk factors is better
Achieve optimal BP level
Avoid CV and renal morbidity and mortality

Chobanian AV et al, for the NHBPEPCC. Bethesda,
Md NHLBI 2004. NIH Publication No. 04-5230.
Available at www.nhlbi.nih.gov/guidelines/hyperte
nsion/jnc7full.pdf.
10
JNC 7 Cardiovascular Risk Factors

Microalbuminuria or estimated GFR lt60 mL/min
Age (men gt55 yr women gt65 yr)
Family history of premature CVD

Hypertension
Cigarette smoking
Obesity (BMI 30 kg/m2)
Physical inactivity
Dyslipidemia
Diabetes mellitus

Chobanian AV et al, for the NHBPEPCC. Bethesda,
Md NHLBI 2004. NIH Publication No. 04-5230.
Available at www.nhlbi.nih.gov/guidelines/hyperte
nsion/jnc7full.pdf.
11
NCEP/Framingham Risk Scores Estimate of 10-yr
CHD Risk in Men Without CHD
Reilly MP, Rader DJ. Circulation.
20031081546-51.
12
Key Question

What percentage of patients with hypertension
have 2 or more additional CV risk factors?
20
30
40
50
gt50
Use your keypad to vote now!

13
CV Risk Factor Clustering With Hypertension
Framingham Offspring, Aged 18 to 74 Years
gt50 of Hypertension Occurs in Presenceof 2 or
More Risk Factors
Men
Women
2 RFs
1 RF
2 RFs
1 RF
25
24
26
27
20
22
19
17
8
12
No Additional RFs
No Additional RFs
3 RFs
3 RFs
4 or More RFs
4 or More RFs
RF risk factor. Adapted from Kannel WB. Am J
Hypertens. 2000133S-10S.
14
Risk of CHD in Mild Hypertension by Intensity of
Associated Risk Factors
40
42
36
30
21
10-Year Probability of Event ()
24
18
14
10
12
6
4
6
0
Risk Factors
SBP 150-160 mm Hg TC 240-262 mg/dL -
HDL-C 33-35 mg/dL - - Diabete
s - - - Cigarette smoking - - - -
ECG-LVH - - - - -
Adapted from Kannel WB. Am J Hypertens.
2000133S-10S.
15
JNC 7 Classification of Blood Pressure
Chobanian AV et al, for the NHBPEPCC. Bethesda,
Md NHLBI 2004. NIH Publication No. 04-5230.
Available at www.nhlbi.nih.gov/guidelines/hyperte
nsion/jnc7full.pdf.
16
JNC 7 Algorithm for Hypertension
LIFESTYLE MODIFICATIONS
Not at Goal BP (lt140/90 mm Hg, or lt130/80 mm Hg
for patients with diabetes or chronic kidney
disease)
INITIAL DRUG CHOICES
Without Compelling Indications
With Compelling Indications
Stage 2 Hypertension 2-drug combos for most
(usually thiazide-type diuretics and ACEI, or
ARB, or BB, or CCB)
Compelling Indications Other drugs (diuretic,
ACEI, ARB, BB, CCB) as needed
Stage 1 Hypertension Thiazide-type diuretics
for most may consider ACEI, ARB, BB, CCB, or
combo
If not at goal BP, optimize dosages or add drugs
until goal BP achieved consider consultation
with hypertension specialist
Chobanian AV et al, for the NHBPEPCC. Bethesda,
Md NHLBI 2004. NIH Publication No. 04-5230.
Available at www.nhlbi.nih.gov/guidelines/hyperte
nsion/jnc7full.pdf.
17
Nonpharmacologic Interventionsand BP Reduction
Low-SaltDiet
Weight Loss(19.4 lb)
Alcohol Reduction
Exercise
0
1
2
3
BP Decrease(mm Hg)
4
5
6
SBP
DBP
7
Adapted from Stevens VJ et al. Ann Intern Med.
20011341-11 Messerli FH et al. In Griffin BP
et al, eds. 2004. Manual of Cardiovascular
Medicine. 2nd ed Whelton SP et al. Ann Intern
Med. 2002136493-503 Cutler JA et al. Am J Clin
Nutr. 199765(suppl)643S-651S Xin X et al.
Hypertension. 2001381112-1117 Whelton PK et
al. JAMA. 19972771624-1632.
18
Antihypertensive Medications Mechanism of Action
Drug Class Mechanism of Action
Diuretics Rid body of excess fluids and sodium May enhance effect of other BP medications
ACEIs Lower levels of angiotensin II Dilate blood vessels
ARBs Block angiotensin II receptors Dilate blood vessels
BBs Decrease heart rate and cardiac output
CCBs Interrupt movement of calcium into heart and vessel cells
Aldosterone Receptor Blockers Decrease salt and water retention
Renin Inhibitors Block action of renin, decreasing formation of angiotensin I
American Heart Association. December 11, 2006.
Available athttp//www.americanheart.org/presente
r.jhtml?identifier3038158.
19
JNC 7 Compelling Indications for
Antihypertensive Drug Classes

Recommended Drugs
AldoCompelling Indication Diuretic ACEI
BB ARB CCB ANT Heart failure Post
MI High coronary disease risk
Diabetes Chronic kidney
disease Recurrent
stroke prevention

Aldo ANT aldosterone antagonist. Chobanian AV
et al, for the NHBPEPCC. Bethesda, Md NHLBI
2004. NIH Publication No. 04-5230. Available at
www.nhlbi.nih.gov/guidelines/hypertension/jnc7full
.pdf.
20
Key Question

On average, how many drugs will a patient
need to control hypertension?
1
2
3
4
Use your keypad to vote now!

21
Multiple Antihypertensive Agents Frequently
Required to Achieve BP Goal
UKPDS (lt150/85 mm Hg) MDRD (lt92 mm Hg, MAP) HOT
(lt80 mm Hg, diastolic) AASK (lt92 mm Hg,
MAP) RENAAL (lt140/90 mm Hg) IDNT (?135/85 mm Hg)
4
3
2
1
Average No. of BP Medications
Patients had either diabetes or renal
impairment. Bakris GL et al. Am J Kidney Dis.
200036646-661 Brenner BM et al. N Engl J Med.
2001345861-869 Lewis EJ et al. N Engl J Med.
2001345851-860.
22
Hypertension and Diabetes Global CV Risk
Reduction With Evidence-Based Intervention
23
DM Approximately Doubles CVD Risk in Patients
With Hypertension
Study Patients With Diabetes Patients Without Diabetes Ratio
Study (events per 1000 pt-yr) (events per 1000 pt-yr) Ratio
SHEP SHEP SHEP SHEP
CV events 63.0 36.8 1.71
Stroke 28.8 15.0 1.92
CHD events 32.2 15.2 2.12
Syst-Eur Syst-Eur Syst-Eur Syst-Eur
CV events 55.0 28.9 1.90
Stroke 26.6 12.3 2.16
CHD events 23.1 12.4 1.87
HOT (DBP lt90 mm Hg) HOT (DBP lt90 mm Hg) HOT (DBP lt90 mm Hg) HOT (DBP lt90 mm Hg)
CV events 24.0 9.8 2.45
Adapted from Curb JD et al. JAMA.
19962761886-1892 Hansson L et al. Lancet.
19983511755-1762 Tuomilehto J et al. N Engl J
Med. 1999340677-684.
24
Syst-Eur CV Protection Resulting From BP
Lowering Was Greatest in Patients With Diabetes
Diabetic
Nondiabetic
Fatal and Nonfatal Stroke
Fatal and Nonfatal Cardiac Events
Overall Mortality
CVD Mortality
All CV Events
0
10
8 P .55
16 P .37
20
22 P .10
Reduction in Event Rate for Active Treatment
Group ()
25 P .02
30
36 P .02
40
41 P .09
50
57 P .06
60
62 P .002
70
69 P .02
70 P .01
Patients with hypertension received nitrendipine
? enalapril or HCTZ. N 4695. DM 492. Syst-Eur
Systolic Hypertension in Europe CV
cardiovascular. Adapted from Tuomilehto J et al.
N Engl J Med. 1999340677-684.
25
HOT Study Fewer Major CV Events in Patients With
Diabetes Randomized to Lower BP Goal
P .005
25
20
15
Stroke, MI, or CV Death (per 1000 patient-years)
10
5
0
?80
?90
?85
Target DBP (mm Hg)
Patients with hypertension and diabetes were
given baseline felodipine, plus other agents in a
5-step regimen. Study N 18790 diabetes n
1501. HOT Hypertension Optimal Treatment MI
myocardial infarction. Adapted from Hansson L et
al, for the HOT Study Group. Lancet.
19983511755-1762.
26
UKPDS Tight Glucose Versus Tight BP Control and
CV Outcomes
Tight glucose control (goal lt6.0 mmol/L or 108
mg/dL)
Tight BP control (average 144/82 mm Hg)
Stroke
Any Diabetic Endpoint
DM Deaths
Microvascular Complications
0
5
-10
10
12
-20
Relative Risk Reduction ()
24

-30
32
32

37
-40

P lt.05 compared to tight glucose control
44

-50
Patients had hypertension and Type 2 diabetes. N
1148.
UKPDS United Kingdom Prospective Diabetes
Study. Bakris GL et al. Am J Kidney Dis.
200036646-661.
27
Antihypertensive Medications Mechanism of Action
Drug Class Mechanism of Action
Diuretics Rid body of excess fluids and sodium May enhance effect of other BP medications
ACEIs Lower levels of angiotensin II Dilate blood vessels
ARBs Block angiotensin II receptors Dilate blood vessels
BBs Decrease heart rate and cardiac output
CCBs Interrupt movement of calcium into heart and vessel cells
Aldosterone Receptor Blockers Decrease salt and water retention
Renin Inhibitors Block action of renin, decreasing formation of angiotensin 1
American Heart Association. December 11, 2006.
Available at http//www.americanheart.org/present
er.jhtml?identifier3038158.
28
The Renin-Angiotensin-Aldosterone System (RAAS)
Angiotensinogen
Kininogen
Kallikrein
Renin
Angiotensin I
Bradykinin
ACE
Angiotensin II
Inactive Peptides

Blood Pressure
Vascular Proliferation
Oxidative Stress
Vascular Inflammation
Thrombogenesis
Aldosterone

AT1
Adapted with permission from Brown NJ et al.
Circulation. 1998971411-1420 Endemann DH. J
Am Soc Nephrol. 2004151983-1992.
29
The Renin-Angiotensin-Aldosterone System (RAAS)
Angiotensinogen
Renin Inhibitors
?
Renin
ACEIs
Angiotensin I
?
ACE
Angiotensin II
ARBs
?
ARBs

Blood Pressure
Vascular Proliferation
Oxidative Stress
Vascular Inflammation
Thrombogenesis
Aldosterone

AT1
Adapted with permission from Brown NJ et al.
Circulation. 1998971411-1420 Endemann DH. J
Am Soc Nephrol. 2004151983-1992.
30
The Renin-Angiotensin-Aldosterone System (RAAS)
Angiotensinogen
Kininogen
Renin Inhibitors
Kallikrein
?
Renin
Angiotensin I
Bradykinin
ACE
Angiotensin II
Inactive Peptides
ARBs

Blood Pressure
Vascular Proliferation
Oxidative Stress
Vascular Inflammation
Thrombogenesis
Aldosterone

AT1
Adapted with permission from Brown NJ et al.
Circulation. 1998971411-1420 Endemann DH. J
Am Soc Nephrol. 2004151983-1992.
31
The Renin-Angiotensin-Aldosterone System (RAAS)
Angiotensinogen
Kininogen
Kallikrein
Renin
Angiotensin I
Bradykinin
ACE
Angiotensin II
Inactive Peptides
ARBs
?
ARBs
AT2
AT2

Blood Pressure
Vascular Proliferation
Oxidative Stress
Vascular Inflammation
Thrombogenesis
Aldosterone

AT1
Adapted with permission from Brown NJ et al.
Circulation. 1998971411-1420 Endemann DH. J
Am Soc Nephrol. 2004151983-1992.
32
VALUE Hazard Ratios for Prespecified Analyses in
Patients With Hypertension at High CV Risk
Patients had hypertension and were at high CV
risk. VALUE Valsartan Antihypertensive
Long-term Use Evaluation. Julius S et al, for
the VALUE trial group. Lancet. 20043632022-2031.
33
The Renin-Angiotensin-Aldosterone System (RAAS)
Angiotensinogen
Renin
ACEIs
Angiotensin I
?
ACE
Angiotensin II

Blood Pressure
Vascular Proliferation
Oxidative Stress
Vascular Inflammation
Thrombogenesis
Aldosterone

AT1
Adapted with permission from Brown NJ et al.
Circulation. 1998971411-1420 Endemann DH. J
Am Soc Nephrol. 2004151983-1992.
34
ACEI Trials in CAD Without HF Primary Outcomes
EUROPA CV Death/MI/Cardiac Arrest
HOPE CV Death/MI/Stroke
14
20
Placebo
12
Placebo
15
22 Risk Reduction HR 0.78 (0.700.86) P lt.001
20 Risk Reduction HR 0.80 (0.710.91) P .0003
10
Percent
8
Ramipril 10 mg
10
6
Perindopril 8 mg
Percent
4
5
2
Time (years)
Time (years)
0
0
1
3
4
0
5
2
0
2
4
1
3
QUIET All CV Events
PEACE CV Death/MI/CABG/PCI
50
30
Quinapril 20 mg
Placebo
4 Risk Increase HR 1.04 (0.891.22) P .6
40
25
4 Risk Reduction HR 0.96 (0.881.06) P .43
20
30
Percent
Percent
Trandolapril 4 mg
15
Placebo
20
10
10
Time (years)
Time (years)
5
0
0
1
2
3
4
5
6
0
1
2
3
EUROPA Investigators. Lancet. 2003362782-788
HOPE Study Investigators. N Engl J Med.
2000342145-153 PEACE Trial Investigators. N
Engl J Med. 20043512058-2068 Pitt B, et al.
Am J Cardiol. 2001871058-1063.
35
MICRO-HOPE, PERSUADE CV Events in Patients With
Diabetes
MICRO-HOPE(n 3577)CV death/MI/stroke
PERSUADE(n 1502)CV death/MI/cardiac arrest
25
25
Placebo
Placebo
20
20
25 RRRP .0004
19 RRRP .13
15
15
Primary Outcome ()
Perindopril8 mg
10
10
Ramipril10 mg
5
5
0
0
0
1
2
3
4
5
0
1
2
3
4
5
Follow-Up (years)
Follow-Up (years)
MICRO-HOPE Microalbuminuria, Cardiovascular,
and Renal Outcomes (Heart Outcomes Prevention
Evaluation) PERSUADE Perindopril Substudy in
Coronary Artery Disease and Diabetes. HOPE Study
Investigators. Lancet. 2000355253-259 Daly CA
et al. Eur Heart J. 2005261369-1378.
36
MICRO-HOPE Albuminuria in Patients With Diabetes
3.0
Placebo
2.5
Ramipril
2.0
P .02
Mean Albumin/Creatinine Ratio (urine)
1.5
P .001
1.0
0.5
0.0
1
0
4-5
2
3
Time (y)
HOPE Study Investigators. Lancet.
2000355253-259.
37
Multiple Mechanisms of ACEIin Cardiovascular
Disease

Blood pressure lowering
Cardioprotective effects
? Preload and afterload
? LV mass
? Sympathetic stimulation
? Reperfusion injury
Improved myocardial remodeling
Metabolic syndrome
Lipid neutral
Improved glucose metabolism
Increases adiponectin
Decreased insulin resistance

Vasculoprotective effects
Direct antiatherogenic
Enhance endogenous fibrinolysis
Inhibit platelet aggregation
Antimigratory for mononuclear cells
? Matrix formation
Improve endothelial function
Antioxidant
Anti-inflammatory
Protection from plaque rupture
Improved arterial compliance and tone

Modified from Lonn E et al. Eur Heart J Suppl.
20035A43-A48.
38
Definition of the Metabolic Syndrome

Abdominal Obesity
Waist Circumference
Men gt40 in (gt102 cm) (gt94 cm 37 in)
Women gt35 in (gt88 cm) (gt80 cm 32 in)
Plus Two Risk Factors
Triglycerides 150 mg/dL (1.7 mmol/L)
HDL cholesterol Men lt40 mg/dL (lt1.0 mmol/L)
Women lt50 mg/dL (lt1.3 mmol/L)
BP 30/85 mm/Hg
Glucose 110 mg/dL (gt6.1 mmol/L) (100
mg/dl) (5.6 mmol/L)

Grundy SM et al. Circulation. 2004109433-438. ID
F Consensus. Berlin 2005.
39
Metabolic Syndrome (contd)
40
Relationship Between Visceral Adipose Tissue and
Insulin Action
Decreased Adiponectin Resistin
FFA TNF-alpha Leptin IL-6 (CRP) Tissue
Factor PAI-1 Retinol-binding protein Adipsin Ang
iotensinogen Acylation-stimulating protein
Probable CAD Risk Factor
Banerji M et al. Am J Physiol.
1997273E425-E432.
41
Characteristics of the Metabolic Syndrome
NCEP-ATP III
National Cholesterol Educational Program (NCEP)
Adult Treatment Panel (ATP) III 2001.
42
AHA/ACC Guidelines Update in Patients With
Atherosclerotic CV Disease

Medication Recommendations as Supplements to
Lifestyle Modification
(TLC) (DASH, weight loss, exercise, smoking
cessation)
Lipid-lowering therapy to achieve LDL-C of lt100
mg/dL (optional lt70 mg/dL) non-HDL lt130 mg/dL
(optional lt100 mg/dL)
Antiplatelet therapy, aspirin and/or clopidogrel
Antihypertensive therapy to achieve BP of lt140/90
mm Hg
lt130/80 mm Hg in the patient with diabetes
Ideal BP ?120/80 (JNC 7)
Hypoglycemic therapy to achieve near normal
fasting glucose (HbA1C lt7) (ADA lt6.5)
ACE inhibitor
Beta-blocker
Influenza vaccine

In the absence of specific contraindications
Updated from AHA/ACC. Circulation.
20011041577-1579 Braunwald E et al. J Am Coll
Cardiol. 2002401366-1374 Grundy SM et al.
Circulation. 2004110227-239 Krumholz HM et al.
Circulation. 2006113732-761 Smith S et al. J
Am Coll Cardiol. 2006472130-2139.
43
Adherence
44
CV Risk Factor Control Among Adults With
Diagnosed Diabetes
Fewer than half of adults with diabetes achieve
treatment goals for CV risk factors
NHANES III, 1988-1994 (n 1204)
60
NHANES 1999-2000 (n 370)
50
40
Adults ()
30
20
10
0
Blood Pressure lt130/80 mm Hg
Total Cholesterol lt200 mg/dL
Achieved All 3 Treatment Goals
A1C Levellt7
LDL-C and TG not evaluated. Saydah SH, et al.
JAMA. 2004291335-342.
45
Factors Which Contribute to Poor Adherence

Lack of understanding
Dementia/senility
Side effects
Lack of discharge planning
Cost
Lack of symptoms
Complexity of Rx regimen
Poor mobility
Little or no support system

Modified from Vermeire E, et al. J Clin Pharm
and Ther. 200126331-342 Cheng JWM, et al.
Pharmacotherapy. 200121828-841.

46
Practical Tips to Improve Adherence

Talk to your patient
Explain the condition and why specific therapy is
important
Ask about adherence
Involve the patient as a partner in treatment
Provide clear written and oral instructions
Tailor the regimen to the patients lifestyle and
needs
Use motivational interviewing techniques
Look for
Different ways to approach patients based on
individual patient attitudes
Allies in patient carefamily, friends
Ways to simplify the regimen
Refill dates (if the patient has not refilled the
prescription, the medication is not being taken)

Ockene IS et al. J Am Coll Cardiol.
200240630-640.
47
Practical Tips to Improve Adherence

Use systematic approaches
Disease management programs
Periodic review of electronic medical records or
manual chart audits
Group/shared medical appointments blend care,
education, social support
Other techniques
Follow-up (telephone/mail/e-mail) and reminder
cards
Signed agreements/contracts
Self-monitoring tools (eg, tape measure,
pedometer, home testing devices)
Patient assistance programs
Support patients where medication costs are a
barrier to adherence

Fonarow GC et al. Am J Cardiol. 200187819-822
Ockene IS et al. J Am Coll Cardiol.
200240 630-640 NCEP ATP III. September 2002.
NIH publication no. 02-5215 Pfizer Helpful
Answers Web site. Available at
http//www.pfizerhelpfulanswers.com.
48
Summary The Case for Global CV Risk Management

CV disease remains the leading cause of death in
both men and women in the United States
Data from the Framingham Heart Study have
demonstrated clustering of risk factorsand
that risk of death from CHD and stroke increases
further with each added risk factor
Hypertension, a pivotal risk factor for CV
disease, should prompt the search for the
presence of additional risk factors
Recent clinical trials have provided the
evidence supporting a standard of care for
the management of global CV risk

49
Case Study
50
Case Study 55-Year-Old Man From India With
Hypertension and Type 2 Diabetes

The patient is in for a checkup
History
Hypertension
Type 2 diabetes
Nonsmoker
No symptoms
Physical examination
BP 148/96 mm Hg
Height 64"
Weight 178 lb
BMI 30 kg/m2
Waist circumference 38"
Cardiac dysfunction status normal ventricular
function (LVEF 68)

Laboratory values
Glucose 148 mg/dL (fasting)
A1C 8.8
Creatinine 1.5 mg/dL
Urinalysis 1 proteinuria
Lipid profile (mg/dL)
TC 268 LDL-C 168 HDL-C 42 TG 296
Medications
HCTZ 25 mg/d
Glyburide 5 mg/d

51
NCEP/Framingham Risk Scores Estimate of 10-yr
CHD Risk in Men Without CHD
VBWG
Reilly MP, Rader DJ. Circulation.
20031081546-51.
52
Decision Point

What is the JNC 7 goal for this patient who has
hypertension, diabetes, and renal disease?
lt120/80 mm Hg
lt130/80 mm Hg
lt140/80 mm Hg
lt140/90 mm Hg
Use your keypad to vote now!

53
Decision Point

The patients BP is 148/96 mm Hg while
taking HCTZ 25 mg/d and glyburide 5 mg/d.
To bring BP down to lt130/80 mm Hg, you would
add a(n)
BB
CCB
ARB
ACE
Use your keypad to vote now!

54
PCE Takeaways
55
PCE Takeaways

Patients with hypertension often present with
multiple cardiac risk factors
Be vigilant in your investigation of all clinical
indicators
Creatively address patient adherence not
everyone responds to the same interventions
Clinical inertia is the enemydon't settle for
"close enough"

56
Key Question

How important is using an antihypertensive
agent with proven risk reduction (reducing
morbidity and mortality) when choosing
medications for your patients with hypertension?
Not important
Slightly important
Somewhat important
Extremely important
Use your keypad to vote now!

57
(No Transcript)
58
Estimate of 10-Year Risk for Men (Framingham
Point Scores)
1
5
3
Age Age Age Age Age 20-39 40-49 50-59 60-69 70-7
9
Systolic BP If If mm
Hg Untreated Treated
Age, y Points
20-34 -9 35-39 -4 40-44 0 45-49 3 50-54 6 55-59 8
60-64 10 65-69 11 70-74 12 75-79 13
Nonsmoker 0 0 0 0 0Smoker 8 5 3 1 1
lt120 0 0 120-129 0 1 130-139 1 2 140-159 1 2
?160 2 3
Point Total 10-Year Risk,
6
lt0 lt1 0 1 1 1 2 1 3 1 4 1 5 2 6 2 7 3 8
4 9 5 10 6 11 8 12 10 13 12 14 16 15 20 16
25 ?17 ?30
4
HDL mg/dL Points
?60 -1 50-59 0 40-49 1 lt40 2
2
Total Age Age Age Age Age Cholesterol 20-39 40-4
9 50-59 60-69 70-79
lt160 0 0 0 0 0 160-199 4 3 2 1 0 200-239 7 5 1
3 0 240-279 9 6 4 2 1 ?280 11 8 5 3 1
NCEP-ATP-III. JAMA. 20012852486-2497.
59
Estimate of 10-Year Risk for Women(Framingham
Point Scores)
1
5
3
Age Age Age Age Age 20-39 40-49 50-59 60-69 70-7
9
Systolic BP If If mm
Hg Untreated Treated
Age, y Points
20-34 -7 35-39 -3 40-44 0 45-49 3 50-54 6 55-59 8
60-64 10 65-69 12 70-74 14 75-79 16
Nonsmoker 0 0 0 0 0Smoker 9 7 4 2 1
lt120 0 0 120-129 1 3 130-139 2 4 140-159 3 5
?160 4 6
Point Total 10-Year Risk,
6
lt9 lt1 9 1 10 1 11 1 12 1 13 2 14 2 15 3 1
6 4 17 5 18 6 19 8 20 11 21 14 22 17 23 22
24 27 ?25 ?30
4
HDL mg/dL Points
?60 -1 50-59 0 40-49 1 lt40 2
2
Total Age Age Age Age Age Cholesterol 20-39 40-4
9 50-59 60-69 70-79
lt160 0 0 0 0 0 160-199 4 3 2 1 1 200-239 8 6 4
2 1 240-279 11 8 5 3 2 ?280 13 10 7 4 2
NCEP-ATP-III. JAMA. 20012852486-2497.
60
Study Design EUROPA
STUDY N 13,655 Patients had previous MI,
angiographic evidence of CAD, coronary
revascularization, or a positive stress test
perindopril 8 mg/dayn 6110
placebon 6108
Randomized mean follow-up 4.2 years

RESULTS
Patients experiencing the primary endpoint (CV
death, MI, or cardiac arrest)
10 of patients in the placebo group
8 of patients in the perindopril group
Among patients with stable CHD without apparent
HF, perindopril can significantly improve outcome

EUROPA EURopean trial On reduction of cardiac
events with Perindopril in stable coronary Artery
disease. EUROPA Trial Investigators. Lancet.
2003362782-788.
61
Study Design HOPE
STUDY N 9297 Aged ?55 yearsPatients were at
high risk for CV events (evidence of vascular
disease or diabetes 1 other CV risk factor) but
did not have LVD or HF
Ramipril 10 mg/dayn 651
Placebon 826
Randomized 2x2 factorial study also evaluated
effects of vitamin E
RESULTS CV DEATH MI STROKE ALL-CAUSE DEATH
PLACEBO GROUP 8.1 12.3 4.9 12.2
TREATMENT GROUP 6.1 9.9 3.4 10.4
HOPE Heart Outcomes Prevention Evaluation.
Heart Outcomes Prevention Evaluation Study
Investigators. N Engl J Med. 2000342145-153.
62
Study Design HOT
STUDY N 18,790 Aged 50-80 years, DBP 100-115 mm
Hg Randomized to DBP goals
?90 mm Hg n 6264
?85 mm Hg n 6264
?80 mm Hg n 6262
Patients received the CCB felodipine 5 mg/day To
reach randomized BP goal, patients were also
given ACE inhibitors or beta-blockers doses were
increased as necessary

RESULTS
CV events per 1000 pt/yrs, nondiabetic patients
9.9 for DPB goal ?90 mm Hg 9.3 for DPB goal ?80
mm Hg
CV events per 1000 pt/yrs, diabetic patients
24.4 for DPB goal ?90 mm Hg 11.9 for DPB goal
?80 mm Hg
BP lowering is particularly beneficial in
patients with DM

HOT Hypertension Optimal Treatment. Hansson L,
et al, for the HOT Study Group. Lancet.
19983511755-1762.
63
Study Design MICRO-HOPE (a substudy of HOPE)
STUDY N 3577 Aged ?55 yearsPatients were at
high risk for CV events and at least 1 other CV
risk factor
Ramipril 10 mg/day n 1808
Placebo n 1760
2x2 factorial study also evaluated the effects of
vitamin E Follow-up 4.5 years study stopped
early because of consistent benefit
RESULTS COMBINED PRIMARY OUTCOME MI CV DEATH REVASCULAR-IZATION
TREATMENT GROUP i 25 i 22 i 37 i 17
MI, stroke, or CV death MI, stroke, or CV death MI, stroke, or CV death MI, stroke, or CV death MI, stroke, or CV death
HOPE Heart Outcomes Prevention Evaluation.
Heart Outcomes Prevention Evaluation Study
Investigators. N Engl J Med. 2000342145-153.
64
Study Design PEACE
STUDY N 8290 Patients had stable CAD and normal
or slightly reduced left ventricular function
Trandolapril 4 mg/dayn 4158
Placebo n 4132
Double blind, randomized, placebo
controlled Follow-up 4.8 years

RESULTS
Patients experiencing the primary endpoint (CV
death, MI, or coronary revascularization)
22.5 of patients in the placebo group
21.9 of patients in the trandolapril group

PEACE Prevention of Events with
Angiotensin-Converting Enzyme Inhibition PEACE
Trial Investigators. N Engl J Med.
20043512058-2068.
65
Study Design PERSUADE (a substudy of EUROPA)
STUDY N 1502 Patients had diabetes with known
CAD and no HF
perindopril 8 mg/dayn 721
placebon 781
Randomized, double-blind Follow-up was a median
of 4.3 years

RESULTS
Patients experiencing the primary endpoint (CV
death, nonfatal MI, or resuscitated cardiac
arrest)
15.5 of patients in the placebo group
12.6 of patients in the perindopril group
(nonsignificant)
Relative magnitude was similar to the 20 risk
reduction in EUROPA

PERSUADE PERindopril SUbstudy in coronary
Artery Disease and diabEtes. Daly CA, et al. Eur
Heart J. 2005261369-1378.
66
Study Design QUIET
STUDY N 1750 Patients did not have systolic
left ventricular dysfunction
quinapril 20 mg/day
Placebo
Study duration a mean of 27 ? 0.3 months

RESULTS
Quinapril did not significantly affect the
overall frequency of ischemic events or the
progression of coronary atherosclerosis

QUIET Quinapril Ischemic Event Trial. Pitt B,
et al. Am J Cardiol. 2001871058-1063.
67
Study Design SHEP
STUDY N 4736 Aged ?60 years SBP ?160 mm Hg
DBP lt90 mm Hg Pts with noninsulin-dependent
diabetes n 583 nondiabetic pts n 4149
Active treatment Chlorthalidone 12.5-25 mg/d
with step-up to atenolol 25-50 mg/d or reserpine
.05-.10 mg/d if needed
Placebo (or antihypertensive drugs prescribed by
patients private physician for persistently high
BP)
Trial was double blind, randomized, placebo
controlled Follow-up 5 years

RESULTS
5-year major CVD rate was lower by 34 for active
treatment compared with placebo for both diabetic
and nondiabetic patients
Absolute risk reduction with active treatment
compared with placebo was twice as great for
diabetic vs nondiabetic patients

SHEP Systolic Hypertension in the Elderly
Program. Curb JD et al. JAMA. 19962761886-1892.
68
Study Design Syst-Eur
STUDY N 4695 Aged ?60 years SBP 160-219 mm
Hg DBP lt95 mm Hg patients with diabetes n 492
Placebo
Nitrendipine 10-40 mg/day with addition or
substitution of enalapril 5-20 mg/day
or hydrochlorothiazide 12.5-25 mg/day or both

RESULTS
In patients receiving active treatment,
reductions in overall mortality, mortality from
CVD, and all CV events were significantly larger
among diabetic vs nondiabetic patients
All CV events i69 in diabetic vs i26 in
nondiabetic patients
Fatal/nonfatal strokes i 73 in diabetic vs i
38 in nondiabetic patients

Syst-Eur Systolic Hypertension in Europe
Tuomilehto J, et al. New Engl J Med.
1999340677-684.
69
Study Design UKPDS
STUDY N 1148 Type 2 diabetes Mean age 56 years,
mean BP 160/94 mm Hg
Less-tight BP control n 390
Tight BP control n 758
Randomized median follow-up 8.4 years

RESULTS
Risk reductions in group assigned to tight
control vs less-tight control
24 in diabetes-related end points
32 in deaths related to diabetes
44 in strokes
37 in microvascular end points

UKPDS United Kingdom Prospective Diabetes
Study. UK Prospective Diabetes Study Group. BMJ.
1998317703-713 Bakris GL, et al. Am J Kidney
Dis. 200036646-661.
70
Study Design VALUE
STUDY N 15,245 Aged ?50 years With treated or
untreated hypertension and high risk of cardiac
events
Step 1 valsartan 80 mg/dayStep 2 valsartan 160
mg/dayn 7649
Step 1 amlodipine 5 mg/dayStep 2 amlodipine 10
mg/dayn 7596
Both regimens included HCTZ in steps 3 and
4 Further drugs could be given to achieve BP
control Randomized, double-blind, parallel group
comparison

RESULTS
BP i with both treatments
Primary endpoint (composite of cardiac mortality
and morbidity) occurred in valsartan 10.6 vs
amlodipine 10.4, HR 1.04
Amlodipine effects were more pronounced in the
early period
BP i 4.0/2.1 mm Hg in amlodipine after 1 month

VALUE Valsartan Antihypertensive Long-term Use
Evaluation. Julius S, et al. Lancet.
20043632022-2031.
71