Acute Myocardial Infarction

Acute Myocardial Infarction Willis E. Godin, D.O. South Jersey Heart Group Lourdes Cardiology Services

Acute Coronary Syndrome (ACS) • Refers to the array of clinical signs and symptoms produced by acute myocardial ischemia • Unstable angina • Non-ST-segment-elevation MI • ST-segment-elevation MI • Each condition shares common pathophysiologic origins related to the instability and rupture of artherosclerotic vulnerable plaques

Unstable angina and NSTEMI • Differentiated one from the other by primarily by their severity • Whether the ischemia is prolonged enough to lead to structural myocardial damage and to the release of detectable markers of myocardial injury • Troponin I (TnI) • Troponin T (TnT) • Creatine kinase (CK)-MB

Coronary heart disease • Major cause of morbidity and death in the United States • Affecting approximately 16 million Americans • Someone in the US experiences a coronary event every 25 seconds, and someone dies from a coronary event every minute. • More than 1.4 million hospitalizations for ACS in the US each year • Direct and indirect costs of CHD are estimated to be more than $165 billion in 2009 alone

Pathophysiology • Unstable angina and NSTEMI result from a disparity between myocardial oxygen delivery and demand, which usually presents as angina occurring with limited physical activity or at rest (a crescendo pattern).

Demand-and-delivery mismatch • Associated with UA/NSTEMI • Can occur because of dynamic obstruction from: • Intense arterial spasm • Progressive, severe, flow-limiting atherosclerosis due to intimal hyperplasia or to lipid, calcium, and thrombus deposition, or to fibrointimal hyperplasia after PCI • Coronary artery dissection • Conditions that alter myocardial oxygen demand or supply, such as intense emotion, tachycardia, or uncontrolled systemic hypertension (secondary MI)

Pathophysiology • The most frequent mechanism of ischemia during limited physical activity or at rest is a primary reduction of the myocardial oxygen supply due to rupture or ulceration of a vulnerable atherosclerotic plaque • Results in endothelial injury and associated thrombosis and dynamic vasoconstriction

Pathophysiology • Plaque fissure or rupture exposes the highly thrombogenic subendothelium to circulating platelets and white blood cells, which in turn activates the coagulation cascade • The resultant platelet adhesion and aggregation at the site of plaque disruption leads to transient thrombosis or subtotal coronary artery occlusion with dynamic vasoconstriction • Activated platelets release powerful promoters of vasoconstriction and platelet aggregation, including thromboxane A2, serotonin, adenosine diphosphate, and platelet-activating factor

Plaque Rupture • Can occur in mildly or severely stenosed coronary arteries • Often occurs in arteries where the atherosclerotic lesions previously had caused only mild-to-moderate obstruction

Duration of ischemia • The duration of ischemia caused by the platelet-fibrin thrombi and severe dynamic vasoconstriction determines the overall clinical picture. • If ischemia is neither severe nor prolonged (usually <20min) and oftern occurs at rest, patients are given a diagnosis of UA • If ischemia lasts longer than 30 minutes and is associated with elevated cardiac markers, the diagnosis of MI is made • Further classification as STEMI or NSTEMI is made on the basis of electrocardiographic findings.

Pathophysiology • Patients with UA/NSTEMI remain at high risk for a new infarction and its sequelae, including sudden cardiac death, until the endothelial injury is repaired • UA, NSTEMI, and STEMI represent a pathophysiologic continuum • This concept has led to the development of effective pharmacologic therapies that, used in conjunction with careful and rapid risk-assessment strategies and catheter-based therapies, improve outcomes in UA/NSTEMI patients.

Atherosclerosis • Progressive in nature • Chronic inflammatory and multifocal disease involving medium- and large-sized arteries • May begin in the subendothelium as early as in the 1st decade of life • Usually develops in lesion-prone vascular areas that exhibit underlying endothelial dysfunction as a response to chronic, multifactorial injury to the arterial wall

Endothelial injury • Flow shear stress • Hypertension • Immune-complex deposition and complement activation • Smoking • Diabetes mellitus • Aging • Substance abuse • Infection • Mechanical injury (coronary angioplasty, stent placement, heart transplantation)

Endothelial Dysfunction • A process regarded as a precursor to the development of vascular disease • Characterized by disruption of vessel-wall homeostasis, which is signified by decreased vasodilation, increased vasoconstriction, increased oxidative stress and inflammation, deregulation of thrombosis and fibrinolysis, abnormal smooth-muscle-cell proliferation, and a deficient repair mechanism.

Diagnosis & Risk Stratification • Early risk stratification is vital in the timely diagnosis and treatment of ACS • Assessment of patients with suspected ACS should include: • Clinical history • Physical examination • 12 lead ECG • Biochemical marker measurement • Noninvasive risk stratification

Clinical History • A thorough clinical history is of utmost importance in the initial evaluation and treatment of patients with suspected ACS • Typical symptoms of ACS include chest pain or discomfort that may or may not radiate to the arm, back, neck, jaw, or epigastrium • Women and elderly patients are more likely to present with atypical features, such as shortness of breath, weakness, diaphoresis, nausea, and lightheadness

Physical Examination • Findings of patients with suspected ACS are often normal • Attention must be paid to the presence of complications of ACS: • Acute LV failure • Hypotension • S3 gallop • New or worsening mitral regurgitation • Pulmonary edema

Electrocardiography • Plays an important role in initial assessment, emergency treatment, prognostication, and subsequent decision-making regarding the definitive treatment of patients with suspected ACS • High specificity for diagnosing STEMI • Remains test of 1st choice

Electrocardiography • Complete (>90%) occlusion of the coronary arteries alters the electrical potentials of the epicardial surface and usually manifests itself as ST-segment elevation in 2 or more adjacent leads • ST-segment depression associated with UA/NSTEMI is transient and dynamic. Its appearance is usually flat or down-sloping

Biochemical markers • When ischemia is prolonged enough to produce myocardial necrosis, the integrity of the myocytic membrane is lost • Cardiac enzymes and other substances then leak into the peripheral blood, and their elevated levels in the bloodstream are indicative of acute myocardial infarction (AMI)

Biochemical markers • Cardiac troponins: gold standard of biomarkers for establishing a diagnosis of AMI • Previously, elevated levels of CK and its cardiac-specific isoform CK-MB were used to make a diagnosis of AMI • Any elevation in the circulating levels of these biomarkers may provide a clinical distinction between UA and NSTEMI

Cardiac Troponins • Excellent independent markers of short-term and long-term prognoses • Risk of death within the first 42 days is directly proportional to cardiac troponin levels, and the prognostic information is independent of other clinical and electrocardiographic risk factors

Cardiac Troponins • Detectable in the serum 4-12 hours after onset of myocardial necrosis • Peak 12-48 hours from symptom onset • Serial sampling, including the acquisition of a baseline sample and a follow-up sample 8-12 hours after symptom onset, is recommended

Risk Stratification • Clinical features, ECG, and cardiac troponin levels are fairly insensitive for immediately ruling out ACS • It is important to reliably stratify patients who are at high or low risk of an MI and who are likely to have adverse events in the near future • TIMI score • PURSUIT score • GRACE score

TIMI risk score • TIMI IIB trial • Primary endpoint was the composite of all-cause death, new or recurrent MI, or severe recurrent ischemia that prompts urgent revascularization by day 14 • Simple 7-point score that can be calculated easily at the bedside

Treatment strategies • Initial treatment: Invasive vs. Conservative • Despite the debate, it is now widely accepted that the initial medical therapy for patients with suspected ACS should include relieving the ischemia and preventing further myocardial damage

Treatment strategies • How clinicians go about this is largely dictated by the initial risk assessment and continued patient monitoring in a controlled environment • Hemodynamically unstable patients with refractory ischemic pain are monitored in a critical care environment and are taken to the cardiac catheterization laboratory as soon as possible • Most patients’ conditions stabilize after a brief period of medical therapy at which time they can be further triaged according to ACS guidelines

Nitrates • Endothelium-independent vasodilatory effects on the coronary and peripheral vascular beds • Dilate venous capacitance vessels and peripheral arterioles • Decrease preload and afterload • Lead to decrease in both myocardial wall stress and oxygen demand • Relieve coronary spasm in atherosclerotic vessels and increase oxygen delivery to the subendocardial region that is supplied by the severely narrowed coronary artery

Nitrates • ISIS-4 and GISSI-3 studies • No survival benefit or decrease in recurrent myocardial infarction • Should be used in patients who have refractory ischemic discomfort • Contraindicated: • Patients who have taken sildenafil, tadalafil, or vardenafil in the previous 24 hours • Systemic hypotension • Marked tachycardia • Severe aortic stenosis • Right ventricular infarct

B-Adrenergic Blockers • Decrease sinus node rate and atrioventricular node conduction velocity, systolic blood pressure, and contractile responses at rest and during exercise • Decrease myocardial oxygen demand and increase the length of diastole • Good anti-ischemic agents

B-Blockers • Recommended that ACS patients without contraindications should receive their initial dose of an oral B-blocker within the first 24 hours of medical therapy • Overview of literature (1988) showed a 13% relative reduction in the risk of progression from UA to an MI • Pooled analysis of 5 trials (2003) showed a 50% reduction in mortality at 30 days and 6 months

Calcium channel blockers • Reduces myocardial contraction and relaxation of vascular smooth muscle, which increases coronary blood flow • Decrease afterload and heart rate, while relaxing the left ventricle and increasing arterial compliance • 2 major classes: • Dihydropyridine • Nifedipine, amlodipine • Nondihydropyridine • Verapamil, diltiazem

Calcium channel blockers • Not routinely given to AMI patients due to lack of convincing evidence that they actually reduce death • CCBs can be used as 3rd-line anti-ischemic agents (after nitrates and B-blockers) in patients who have elevated blood pressure or angina at rest • Short acting nifedipine should be avoided due to increased adverse events

Antiplatelet therapy • Acetylsalicylic acid (Aspirin) • Thienopyridines • Ticlopidine • Clopidogrel • Prasugrel

Aspirin • Causes irreversible acetylation of serine 529 of cyclooxygenase (COX-1) in platelets and the endothelium, thereby preventing thromboxane A2 (TXA2) production and resultant platelet aggregation

Aspirin • Reduces the risk of angina, death, or MI by approximately 30% in patients with CAD • 1994 - the Antiplatelet Trialists’ Collaboration meta-analysis of 174 trials (70,000 pts) • 2002 - meta-analysis of 287 studies (135,000 pts)

Thienopyridines • Block P2Y12 receptor signaling to prevent production of adenyl cyclase, thereby inhibiting platelet activation through adenosine diphosphate (ADP) • Limit ADP-mediated conversion of GPIIb/IIIa to its active form • Mechanism of action is independent of and complementary to that of aspirin

Ticlopidine • 1st-generation thienopyridine • In combination with ASA, reduces rate of vascular death and MI by 46% in NSTEMI patients • Used less frequently than the newer thienopyridines because of its potential for side effects: • Rash, nausea, neutropenia, thrombocytopenia

Clopidogrel • 2nd-generation thienopyridine • Most widely used and studied ADP-receptor-blocking agent • CAPRIE study (1996) : 19,185 pts • CURE trial (2001) : 12,562 pts • CHARISMA trial (2006) • PCI-CURE trial (2001)

Clopidogrel • 9% relative risk reduction in adverse cardiovascular events (vascular death, MI, or ischemic stroke) when compared to aspirin - (CAPRIE) • 20% reduction in the primary composite endpoint (cardiovascular death, MI, or stroke) up to 12 months of f/u - (CURE) • 31% reduction in cardiovascular death or MI in patients undergoing PCI - (PCI-CURE)

Glycoprotein IIb/IIIa Inhibitors • Platelets are activated through multiple pathways, however, the “final common pathway” of platelet activation and aggregation invloves a conformational change of the GPIIb/IIIa receptors from a resting state to an active state

Glycoprotein IIb/IIIa Inhibitors • Abciximab • Tirofiban • eptifibatide

Glycoprotein IIb/IIIa Inhibitors • EPIC trial (1994) - 35% reduction in primary composite endpoint (death, MI, recurrent ischemia) in pts given abciximab vs placebo • CAPTURE trial (1997) - 30% relative reduction of death, MI, or recurrent ischemia in pts given abciximab • PRISM study (1998) - 32% reduction in death, MI, or recurrent ischemia in pts given tirofiban • PURSUIT trial (1998) - 10% reduction in the relative risk of death and MI in pts given eptifibatide

Anticoagulants • Unfractionated heparin • Low-molecular-weight heparin • Enoxaparin • dalteparin • Factor X inhibitors • fondaparinux

Heparin • Anticoagulative effect by activating and accelerating the proteolytic activity of plasma cofactor antithrombin (AT) • Close and frequent monitoring of the activated partial thromboplastin time (PTT) is necessary to ensure that a safe therapeutic range is maintained

Heparin (UFH and LMWH) • FRISC trial (1997) - 63% relative risk reduction in death or MI in pts given dalteparin vs placebo • ESSENCE trial (1997) - the risk of death, MI, or recurrent angina was significantly lower in pts given enoxaparin vs UFH (16.6% vs 19.8%) • TIMI 11B trial (1999) - 14.3% risk reduction of death, MI, or need of urgent revascularization in pts given enoxaparin vs UFH

Early-Conservative and Early-Invasive Strategies • Coronary angiography aids in defining the extent and location of CAD and in directing the definitive care strategy • PCI/stenting • CABG • Medical management • Angiography is an invasive procedure and there is a small risk of serious complications (~1 in 1,000 cases)

Early-Conservative and Early-Invasive Strategies • In the early-invasive strategy, all patients without contraindications undergo coronary angiography with the intent to perform revascularization within 4 to 24 hours of hospital admission. • The early-conservative strategy consists of aggressive medical therapy for patients

TIMI-IIIB trial • Compared an early-invasive strategy to an early-conservative strategy in UA/NSTEMI pts (1994) • Primary endpoint: composite of death, MI, or abnormalities on a exercise stress test at 6 weeks • No significant difference in the occurrence of the composite endpoint between the groups. • However, the average length of initial hospitalization, the incidence of rehospitalization within 6 weeks, and the number of days of rehospitalization all were significantly lower in the early-invasive group

VANQUISH trial • Compared an early-conservative strategy to an early-invasive strategy (1998) • Combined endpoint of death and non-fatal MI occurred in 3.3% of pts in the early-conservative group and 7.7% of pts in the early-invasive group • (No benefit of early-invasive strategy)

Acute Myocardial Infarction