3. Atherosclerosis is the leading cause of death and disability
in the developed and developing world
Clinical manifestations depend on the particular vascular
bed affected
Coronary vasculature angina, MI, sudden death
Cerebral TIA, stroke
Peripheral claudication, gangrene
Renal hypertension
4. Atherothrombotic disease is often a diffuse condition involving
multiple vascular beds
Multi-territory atherothrombosis
• 3-8% have symptomatic atherosclerosis in all
three territories
• 23-32% have involvement in two territories
7. Disease impact:
In 1997, more than 5mn Americans had CVD
Currently one in five American has some form of CVD
Each year 1mn deaths are due to CVD (42% of all deaths!)
One-sixth of CVD deaths are in persons <65 yrs of age
Annually
1.5mn Americans have MI
0.5mn die from CHD
0.5mn have stroke
0.15mn die from stroke
8. Death rates from CHD has decreased by 40% since 1968
CVD still remains the leading cause of death in developed
nations
CHD & stroke are the 2nd and 3rd leading causes of mortality
even in the developing regions
9.
10.
11.
12. Economic impact:
Despite age adjusted decline in CVD mortality,
there is paradoxic increase in economic burden due to:
1) aging population causing actual number of CVD
cases to remain stable
2) technologic advances causing more aggressive and
extensive treatment
15. Concept of “risk factors” for CAD evolved from prospective
epidemiological studies in US and Europe which
demonstrated consistent association among
characteristics observed at one point of time in
apparently healthy individuals and subsequent
incidence of CAD in these patients.
But, presence of a risk factor does not necessarily imply a
direct causal relationship.
16. Third Report of the Expert Panel on Detection, Evaluation, and
Treatment of High Blood Cholesterol in Adults (Adult
Treatment Panel III, ATP III)
classifies Risk factors for CVD into three categories:
-Underlying
-Major (traditional)
-Emerging
18. Major (traditional risk factors):
-Age
-Male gender
-Dyslipidemia
High LDL cholesterol
Low HDL cholesterol
-DM
-HTN
-Smoking
-Family history of premature CAD in first degree relative
19. Emerging risk factors:
-Metabolic syndrome
-Triglyceride
-Lp(a)
-Lp-PLA2
-Fibrinogen
-Homocysteine
-Urine microalbuminuria/creatinine ratio
-Hs CRP
-Impaired fasting glucose (100-125 mg/dl per ADA)
-Markers of subclinical ASCVD
ABI
Exercise testing
EBCT/MRI
Carotid IMT
20. Dyslipidemia
Better term than hyperlipidemia as it includes the risk
of having low HDL
Serum total cholesterol (TC) is a composite of:
LDL cholesterol- directly related to CVD
HDL cholesterol- inversely related to CVD
VLDL cholesterol- related to CVD in patients with
DM and low HDL
Best single predictor for CVD risk is TC/HDL ratio.
Ideal ratio is <3, intermediate 3-5, high risk >5
This ratio is also the best predictor of treatment benefits
21. 0
25
50
75
100
125
150
Gotto AM Jr, et al. Circulation. 1990;81:1721-1733.
Castelli WP. Am J Med. 1984;76:4-12.
Relationship Between Cholesterol and CHD Risk:
Epidemiologic Trials
10-year
CHD
death
rate
(De
aths/100
0)
Serum cholesterol (mg/dL)
1% reduction in total cholesterol
resulted in a 2% decrease in CHD risk
CHD
indications
per
1000
Each 1% increase in total cholesterol level is
associated with a 2% increase in CHD risk
Serum cholesterol (mg/100 mL)
Framingham Study (n=5209)
Multiple Risk Factor Intervention Trial
(MRFIT) (n=361,662)
£204 205-234 235-264 265-294 ³295
150 200 250 300
0
50
40
30
20
10
22. Hypertension
Potent risk factor for all CVD and dominant risk factor for
stroke.
Graded relationship between level of BP and outcomes.
SBP rises with age, whereas DBP plateaus in the late middle
life and decreases somewhat then.
Trials for isolated systolic hypertension have shown benefits
for both stroke and CHD
23. Systolic and diastolic hypertension increase the RR for CVD
by 1.6 times
For combined Systolic and diastolic HTN the RR is 2.0
The risk for CVD is increased even in individuals with
“high normal BP” (130-39/85-89 mm Hg)
24. Smoking
This habit increases the risk of vascular outcomes by 2 fold.
Both, regular and filter cigarettes have same adverse effects.
Low tar/low nicotine products have not been shown to reduce
the risk
Unlike other modifiable risk factors, cigarette smoking
can be eliminated entirely
Benefits of quitting smoking are dramatic. Risk in
ex-smokers falls to near non-smoking levels in
2 yrs.
27. Synergy of risk factors:
The CHD death risk in men who smoke, have DBP>90
mm Hg, TC>250 mg/dl, the actual risk is 82/1000 v/s
43/1000 if all the three risk factors are added
Thus there is multiplicative effect of multiple risk
factorsacting in concert.
Also control of one risk factor provides substantial
benefit in persons with multiple risk factors
28.
29. Diabetes Mellitus
Patients with either type I or type II diabetes have increased
risk for CVD
Risk of CHD is increased 2-fold in young men and 3-fold in
young women with type 2 diabetes
Type II diabetics have one or more metabolic abnormalities
(hypertriglyceridemia, low HDL, hypertension)
They may also have normal LDL levels but LDL particles
are dense and small thus being more atherogenic
31. Metabolic syndrome:
-Abdominal obesity: waist circumference
Men >40 inches
Women >35 inches
-Triglycerides >150 mg/dl
-HDL
Men <40 mg/dl
Women <50 mg/dl
-BP >130/85 mm Hg
-Fasting glucose >100 mg/dl
(presence of 3 or more criteria constitutes metabolic syndrome)
34. Pathogenesis
Atherosclerosis is a progressive disease
The term was first proposed by pathologist Felix Marchand
in 1904
Athero= gruel/porridge, sclerosis=hardening
The process begins in childhood and has clinical manifestations
in late adulthood
Advanced lesions are a result of three processes:
1. Lipid accumulation
2. Accumulation of intimal SMC, macrophages,
T-lymphocytes
3. Formation of connective tissue matrix by proliferated
SMC
35. Atherosclerotic disease can lead to stenosis and occlusion
as in most muscular arteries or cause ectasia or
aneurysm formation as in elastic vessels (aorta)
Even in a given arterial bed it tends to involve certain
predisposed areas- proximal LAD,
proximal renal arteries,
carotid bifurcation
The process develops over years to decades and progression
is not linear and smooth but discontinuous with
periods of quiescence and rapid evolution.
Manifestations may be varied from asymptomatic to chronic
stable angina/claudication to dramatic acute MI/
stroke/sudden death.
36. Normal arterial wall has three layers:
intima- limited by internal elastic lamina
media- between internal and external elastic lamina
adventitia
Intima is the site at which the atherosclerotic lesions form
Lesions can form in one of the two ways:
Positive remodelling- intimal thickening associated
with dilatation of the artery, so the
lumen remains large
Negative remodeling- asymmetrical intimal
thickening with lumen encroachment
37. Endothelium:
Largest and the most extensive tissue in the body which performs
several functions.
-“Barrier” between blood and arterial wall
-non-thrombogenic surface by secreting PGI2
-highly active metabolic tissue capable of forming
severalvasoactive substances and connective
tissue macromolecules
Endothelial cells have receptor for several molecules:
LDL
Growth factors
Pharmacological agents
38. Initiation of atherosclerosis
Lipoprotien accumulation and modification
fatty streak formation
lipid oxidation
nonenzymatic glycation
Leukocyte recruitment (T lymphocytes, macro)
foam cell formation
Evolution and complications
SMC involvement
39. LDL
Binds to receptor on endothelial cell surface
Internalized
Oxidized to oxidized-LDL
Ingested by Increased adherence
Macrophages and migration of T-cells,
monocytes from the lumen
into the wall
Foam Cell
40. Smooth muscle cell
Accumulation of SMC in the intima is the sine qua non for
atherosclerosis. It proliferates in the intima to form
intermediate and advanced lesions of atherosclerosis
Smooth muscle cell can exist as contractile phenotype or
synthetic phenotype.
It is the principal contributor to the reparative and
fibroproliferative process in the development of
atherosclerosis
For the lesions to form, the SMC migrates from the
media to intima
41. Vulnerable plaques
Thin fibrous cap
Large lipid core
High macrophage content
Stable plaques
Thick cap
Dense extracellular matrix
Less lipid rich core
42. Atheroma/ Atherosclerotic
Plaque
Where does the plaque begin?
within the Tunica Intima, the
innermost wall of the artery
What is a plaque made of?
Superficial fibrous cap made of
smooth muscle cells, collagen,
elastin and proteins
Also contains Macrophages,
Foam Cells, T Cells
Foam cells are one of the first cells
found at the site of the fatty streak,
which is the beginning of
atherosclerotic plaque formation in
vessels
Necrotic Center of cholesterol
crystals, lipids, Apolipoprotein B
LDL
43.
44.
45.
46.
47. Atheroma: Continued
As the atheroma within the coronary arteries
enlarges, the blood flow to the heart decreases
and therefore so does the O2 supply
The heart is not in danger of hypoxia until 50%
of the vessel is occluded
As the heart senses a decrease in O2, there is
attempted compensation:
Increase Heart Rate
Increase Blood Pressure
Aggravation/Worsening of the atheroma
When 70% of the artery is occluded, Angina
Pectoris will occur
51. Clinical presentation of CHD depends on age and gender
Women:
Angina is most common first CHD event
followed by MI
Men:
MI is the most common first event followed by
angina. Sudden cardiac death is not uncommon
52. Acute myocardial infarction (AMI)
One of the most common diagnosis in hospitalized
patients in industrialized nations
Mortality of acute MI is 30% and one-half of these
deaths occur before hospitalization
Mortality after admission has decreased by 30% in last
2 decades
1 in 25 pts (4%) who survive till hospital discharge die
within one year
53. PTCA, percutaneous transluminal coronary angioplasty.
0
5
10
15
20
25
30
35
30-Day
Mortality
(%)
5.0%- 6.5%
5.0%- 6.5%
13%-15%
13%-15%
30%
30%
Defibrillation
Hemodynamic
monitoring
b-Blockade
Defibrillation
Hemodynamic
monitoring
b-Blockade
Aspirin, PTCA,
Lysis
Aspirin, PTCA,
Lysis
Bed
rest
Bed
rest
Pre-CCU Era CCU Era Reperfusion Era
Improvement in Mortality
Improvement in Mortality
Improvement in Mortality
54. Pathophysiology
AMI results when thrombus (occlusive/nonocclusive)
develops at the site of ruptured plaque
Vulnerable plaque
Rupture
Coagulation cascade platelet adhesion,
activation activation,aggregation
Fibrin and platelet clot
Coronary occlusion
MI
55. Antman EM. In: Braunwald E, ed. Heart Disease: A Textbook in Cardiovascular Medicine, 5th ed. Philadelphia, Pa: WB Saunders; 1997.
Angiographic thrombus 0%-1% 75% >90%
Increased FPA/TAT 0%-5% 60%-80% 80%-90%
Activated platelets 0%-5% 70%-80% 80%-90%
Acute coronary occlusion 0%-1% 10%-25% >90%
Mortality 1%-2% 3%-8% 6%-15%
Stable angina
Stable angina
Unstable
Unstable
angina
angina
Non–Q-wave
Non–Q-wave
AMI
AMI
Q-wave
Q-wave
AMI
AMI
Spectrum of Acute Coronary Syndromes: Hematologic
Findings in Q-Wave AMI
Spectrum of Acute Coronary Syndromes: Hematologic
Spectrum of Acute Coronary Syndromes: Hematologic
Findings in Q-Wave AMI
Findings in Q-Wave AMI
56. Amount of myocardial damage depends upon:
-territory supplied by the occluded vessel
-collateral circulation
-duration of occlusion
-partial/total occlusion
-oxygen demand of jeopardized myocardium
57. Presentation:
Chest pain- most common, similar to anginal pain but
more severe and prolonged
described as severe, crushing/squeezing/pressure
‘worst pain’ ever
Chest pain may be absent in pts with DM or in elderly
Atypical presentations:
confusion, syncope, profound wkness, arrhythmia
59. Examination:
Anxiety, pallor, restlessness
Substernal chest pain with diaphoresis is strongly suggestive
of AMI
Those with anterior MI may have sympathetic overactivity
whereas those with inferior MI may have para-
sympathetic overactivity
S3/S4
Transient systolic murmur due to dysfunction of mitral
apparatus leading to mitral regurgitation
60. Laboratory findings:
EKG specific but insensitive tool for diagnosis of myocardial
ischemia
Total occlusion of infarct related artery leads to ST
elevation (STEMI) and subsequent
evolution of Q waves
Partial occlusion/early recanalization/rich collaterals
leads to NSTEMI (non-ST elevation MI)
61.
62.
63. Serum cardiac markers:
Released into the circulation from necrotic heart muscle
CK (creatine kinase) rises 4-8 hrs after onset of MI
and normalize by 48-72 hrs
not specific for myocardial necrosis
MB isoenzyme of CK is more specific
Cardiac specific troponins: more sensitive and
specific than CK and CKMB for identification
of myocardial necrosis
Myoglobin- first serum marker to rise after MI, but
lacks specificity.
64. Cardiac imaging
2D echocardiography
reveals regional wall motion abnormality
also useful to identify mechanical complications
of MI
Radionuclide imaging
used infrequently in the diagnosis of acute MI
mainly used to risk stratify patients with CHD
65. Management
Prehospital care:
Major elements include
Recognition of symptoms by the patient and
prompt medical attention
Rapid deployment of EMS capable of
resuscitation and defibrillation
Expeditious implementation of reperfusion
66. Goals of Initial management in ED
Control of cardiac pain
Rapid identification of patients suitable for reperfusion
Triage of low risk patients for subsequent care
Avoiding inappropriate discharge of patients with MI
67. Aspirin: 160-325 mg chewable aspirin leads to rapid buccal
absorption, inhibition of cyclooxygenase in platelets
and reduction of TXA2
Oxygen by nasal cannula if hypoxemia is present
Sublingual nitroglycerine followed by IV infusion if needed
Intravenous betablockers (decrease myocardial oxygen
demand, control chest pain and
reduce mortality)
Morphine for pain relief (given IV in small doses)
68. STEMI
ASA, beta blockers, antithrombin therapy
<12 hrs >12 hrs
Eligible for
Lytic therapy
Lytic C/I Not a candidate
For reperfusion
Persistent
symptoms
Thrombolysis Primary PCI no yes
Other medical therapy Consider reperfusion
(ACEI, nitrates, beta blockers, antiplatelets, antithrombin,statins)
70. Adapted from Tiefenbrunn AJ, Sobel BE. Circulation. 1992;85:2311-2315.
Time-Dependent Benefit of Reperfusion Therapy
Time-Dependent Benefit of Reperfusion Therapy
Time-Dependent Benefit of Reperfusion Therapy
0
20
40
60
80
100
0 2 4 6 8 10 12
Reperfusion Time (hours)
%
Benefit
Reimer/Jennings 1977
Bergmann 1982
GISSI-I 1986
71. Adapted from Lee KL, et al. Circulation. 1995;91:1659-1668.
Importance of Time-to-Treatment: Results of GUSTO-I
Importance of Time-to-Treatment: Results of GUSTO-I
Importance of Time-to-Treatment: Results of GUSTO-I
0
2
4
6
8
10
12
0 1 2 3 4 5 6 7 8 9 10 11 12
Time From Onset of Symptoms to Treatment (hours)
c2=149 (1 df )
30-Day
Mortality
(
%)
72. Time of Onset
Time of Onset
Time of Onset
ED Time Point 1:
DOOR
ED Time Point 1:
ED Time Point 1:
DOOR
DOOR
ED Time Point 2:
DATA
ED Time Point 2:
ED Time Point 2:
DATA
DATA
ED Time Point 3:
DECISION
ED Time Point 3:
ED Time Point 3:
DECISION
DECISION
ED Time Point 4:
DRUG
ED Time Point 4:
ED Time Point 4:
DRUG
DRUG
Time Interval III
Decision to drug
Time Interval II
ECG to decision to treat
Time Interval I
Door to ECG
NHAAP Recommendations. U.S. Department of Health NIH Publication: 1997:97-3787.
The Four Ds
The Four Ds
The Four Ds
73. Door to needle time- 30 min
(for patients receiving thrombolytic therapy)
Door to balloon time-90 + 30 min
(for patients undergoing primary angioplasty)
74. Unstable angina/NSTEMI
Aspirin, antithrombin, nitrates, GP IIb-IIIa
antagonist
Betablockers(calcium channel blockers)
Assess clinical status
High risk/unstable Stable
(Recurrent ischemia, LV dysfunction
Widespread EKG changes, positive
enzyme markers)
Cardiac catheterization Severe ischemia
Revascularization (PCI/CABG) Medical therapy
Stress test
yes
no
75. Chronic Stable Angina:
Patients with stable angina should undergo detailed evaluation
including history, focused physical examination
and risk factor assessment
Initial laboratory evaluation should include:
hemoglobin, fasting glucose, fasting lipid profile
EKG and chest x-ray
Precipitating factors for angina (anemia, arrhythmias, valvular
disease) should be identified and treated
76. Ten important treatment elements of stable angina include:
A aspirin and anti-anginals
B beta-blockers and blood pressure control
C cholesterol and cigarettes
D diet and diabetes
E education and exercise
77. Patients with intermediate probability of CAD may undergo
stress testing for diagnostic and prognostic purpose
Patients with high probability of CAD may also undergo
stress testing for prognostic purpose
Individuals with high risk characteristics on stress testing may
proceed with coronary angiography and subsequent
revascularisation
78. Revascularization Decisions
Clinical Presentation
ACS Stable Angina
Silent Ischemia
Anatomic Factors
Multivessel
Left Main
Single Vessel
Other Factors
Patient Lesion
(eg. Operative risk,
Compliance,
Co-morbidities)
(eg. Location,
Complexity,
Complication Risk)
80. 80
Complications of
Myocardial Infarctions
Infarction leading to inability of the heart
to function properly leading to Heart
Failure
Angina/Pain
Cardiogenic shock
Ventricular aneurysm and rupture
Embolism Formation
Arrhythmias Myocardial Infarctions
can lead to Ventricular Fibrillation
(shockable!)
81. 81
Sudden Death
Sudden Death :
250,000 deaths in the US per year are caused by what
is referred to as “sudden” cardiac death
Sudden Cardiac Death is also known as a “Massive
Heart Attack” in which the heart converts from sinus
rhythm to ventricular fibrillation
In V-Fib, the heart is unable to contract fully
resulting in lack of blood being pumped to the vital
organs
V-Fib requires shock from defibrillator
“SHOCKABLE RHYTHM”
82. Prevention:
Opportunity for treating the underlying process of
atherosclerosis and preventing its acute complications
presents enormous challenge and opportunity
Prospective community based Framingham heart study
provided support for the fact that hyperlipidemia,
hypertension and other risk factors correlated with
cardiovascular risk
Seven countries study provided a link between dietary
habits, serum cholesterol and cardiovascular risk
83. Dyslipidemia:
It is the most established and best understood risk
factor for atherosclerosis. National guidelines
recommend cholesterol screening with fasting
lipid profile in all adults.
Individuals with dyslipidemia should have dietary
modification
Normal total cholesterol should not reassure individuals
having other risk factors or low HDL
Primary and secondary prevention trials in individuals
with not only high but even average total and
LDL cholesterol have shown significant decrease
in CHD events by 24-31%.
84. NCEP recommends that target LDL for:
Individuals with established CVD/ DM/ estimated 10 yrs
risk for CHD events>20%
<100mg/dl
Individuals with 2 or more risk factors for CAD
100-130 mg/dl
Others
130-160 mg/dl
86. Diabetes mellitus:
Diabetic dyslipidemia is characterized by:
normal LDL- but more dense and atherogenic
low HDL
elevated triglycerides
Having diabetes places individuals at same risk as those
with established CVD
Strict glycemic control helps to decrease microvascular
complications but not CHD events. However, statin
therapy has demonstrated unequivocal benefit in
diabetic patients
87. Hypertension:
Trials have shown that pharmacologic therapy of HTN reduces
the risk of stroke and CHF.
But evidence for reduction in coronary events has not
been so strong.
88. Smoking cessation:
In FHS, smoking was found to increase the risk for CAD,
stroke, heart failure, and peripheral vascular disease
at all levels of blood pressure
Smoking cessation in hypertensive patients who smoke
1 ppd was estimated to reduce cardiovascular risk
by 35-40%
2-3 yrs after cessation, the risk for CAD declines to that of
subjects who have never smoked