Basics of Coronary Artery Disease Adults.pptx

C oronary Artery Disease

Epidemiology Risk factors Pathogenesis Spectrum Prevention

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

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

Epidemiology Risk factors Pathogenesis Spectrum Prevention

Epidemiology The three major clinical manifestations of atherosclerotic CVD are: CHD CVA PVD

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

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 2 nd and 3 rd leading causes of mortality even in the developing regions

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

Epidemiology Risk factors Pathogenesis Spectrum Prevention

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.

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

Underlying risk factors include: Obesity Disinclination to exercise Atherogenic diet

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

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

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

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

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)

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.

Obesity It contributes independently to CVD risk and also aggravates known CVD risk factors. Measures of obesity include: BMI Waist: hip ratio.

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 factors acting in concert. Also control of one risk factor provides substantial benefit in persons with multiple risk factors

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

(Circulation 1998;97:1837)

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)

Epidemiology Risk factors Pathogenesis Spectrum Prevention

Ischemic Cycle Ischemia / infarction chest pain Diastolic Dysfunction Systolic Dysfunction cardiac output catecholamines MVO2 wall tension LV diastolic pressure pulmonary congestion pO2 (heart rate, BP)

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

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.

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

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 several vasoactive substances and connective tissue macromolecules Endothelial cells have receptor for several molecules: LDL Growth factors Pharmacological agents

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

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

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

Vulnerable plaques Thin fibrous cap Large lipid core High macrophage content Stable plaques Thick cap Dense extracellular matrix Less lipid rich core

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

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

Epidemiology Risk factors Pathogenesis Spectrum Prevention

Spectrum of coronary artery disease Silent ischemia Chronic stable angina Acute coronary syndromes Unstable angina NSTEMI STEMI

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

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

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

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

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

Differential diagnosis : Pericarditis Pulmonary embolism Pneumothorax Aortic dissection Esophageal spasm

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

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)

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.

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

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

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

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)

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)

Time is muscle

Door to needle time- 30 min (for patients receiving thrombolytic therapy) Door to balloon time-90 + 30 min (for patients undergoing primary angioplasty)

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

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

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

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

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)

Epidemiology Risk factors Pathogenesis Spectrum Prevention

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 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”

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

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%.

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

Circulation 2004;110:227-239

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

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.

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

Lung Health Study Annals of Internal Med, 2005

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