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Practical Electrocardiography – Myocardial Ischemia and Acute Myocardial Infarction. Scott Ewing, D.O. Cardiology Fellow August 30, 2006. Assess Initial 12-Lead ECG Findings. Classify patients with acute ischemic chest pain. ST elevation or new or presumably new LBBB:
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Practical Electrocardiography –Myocardial Ischemia and Acute Myocardial Infarction Scott Ewing, D.O. Cardiology Fellow August 30, 2006
Assess Initial 12-Lead ECG Findings Classify patients with acute ischemic chest pain • ST elevation or new or presumably new LBBB: • strongly suspicious for injury • ST-elevation AMI • ST depression or dynamicT-wave inversion: • strongly suspicious for ischemia • High-risk unstable angina/non–ST-elevation AMI • Nondiagnostic ECG: • absence of changes in ST segment or T waves • Intermediate/low-riskunstable angina
Current-of-injury patterns with acute ischemia • Resultant ST vector is directed toward the inner layer of the affected ventricle and the ventricular cavity. Overlying leads therefore record ST depression • (Transmural or epicardial injury), ST vector is directed outward. Overlying leads record ST elevation. Reciprocal ST depression can appear in contralateral leads.
Acute Ischemia / Non-Q Wave MI / Non-ST Elevation MI • Evolving ST-T changes over time without the formation of pathologic Q waves • Localization of non-Q wave MI by the particular leads showing ST-T changes is probably only valid with ST segment elevation pattern • Evolving ST-T changes may include any of the following patterns: • Convex downward ST segment depression • T wave flattening or inversion • Biphasic T wave changes • Combinations of above changes
Anterior Ischemia • ECG shows sinus rhythm with ventricular ectopy, left axis deviation, consistent with left anterior fascicular block (hemiblock), and T wave inversions in V2-V5 with subtle upward bowing of the ST segments • ST-T abnormalities in I and aVL • Symmetric T wave inversions, especially with upward bowing of the ST segments is highly suggestive of ischemia in the left anterior descending distribution (LAD) in this context • Most expeditious test to order is a cardiac catheterization, which showed significant LAD (and obtuse marginal) disease
Severe Ischemia • NSR at about 65 bpm with profound precordial ischemic ST segment depression, consistent with severe subendocardial ischemia and probable non-Q wave myocardial infarction • Q waves in the infero-lateral leads are consistent with prior myocardial infarction(s) • Profound ST depressions of this type usually indicate severe multivessel disease, and sometimes left main coronary disease • Patient experienced severe chest pain and was transferred from an outside facility in cardiogenic shock • En route to the cardiac catheterization laboratory, he developed refractory PEA and ventricular fibrillation
NQWMI • Left ventricular hypertrophy (LVH) plus left atrial abnormality (LAA) • QRS axis is somewhat leftward (-7 degrees) • Although LVH alone may be associated with ST-T abnormalities (sometimes referred to as a "strain pattern"), like those in lead aVL, the prominent horizontal or downsloping ST depressions in other leads (I, II, aVF, V5, V6) here are strongly suggestive of ischemia superimposed on LVH • The patient had positive cardiac enzymes and underwent cardiac catheterization showing left main and three vessel coronary disease, followed by coronary artery bypass graft surgery.
Current-of-injury patterns with acute ischemia • Resultant ST vector is directed toward the inner layer of the affected ventricle and the ventricular cavity. Overlying leads therefore record ST depression • (Transmural or epicardial injury), ST vector is directed outward. Overlying leads record ST elevation. Reciprocal ST depression can appear in contralateral leads.
Acute Myocardial Infarction /ST Elevation MI / Q Wave MI • Most acute MI's are located in the left ventricle • In the setting of a proximal RCA occlusion, however, up to 50% may also have a component of RV infarction as well • In general, the more leads of the 12-lead ECG with MI changes (Q waves and ST elevation), the larger the infarct size and the worse the prognosis • LAD and it's branches usually supply the anterior and anterolateral walls of the LV and the anterior two-thirds of the septum • LCX and its branches usually supply the posterolateral wall of the LV • RCA supplies the RV, the inferior (diaphragmatic) and true posterior walls of the LV, and the posterior third of the septum • RCA also gives off the AV nodal coronary artery in 85-90% of individuals; in the remaining 10-15%, this artery is a branch of the LCX
Acute Myocardial Infarction /ST Elevation MI / Q Wave MI • Normal ECG prior to MI • Hyperacute T wave changes - increased T wave amplitude and width; may also see ST elevation • Marked ST elevation with hyperacute T wave changes (transmural injury) • Pathologic Q waves, less ST elevation, terminal T wave inversion (necrosis) • Pathologic Q waves are usually defined as duration >0.04 s or >25% of R-wave amplitude • Pathologic Q waves, T wave inversion (necrosis and fibrosis) • Pathologic Q waves, upright T waves (fibrosis)
Acute Anterior MI • Classic findings of acute anterior wall Q wave myocardial infarction • Reciprocal inferior ST depressions • Hyperacute T waves • Distribution of changes is consistent with a proximal LAD occlusion • Confirmed at cardiac catheterization and treated with PTCA and stenting
Acute Anterior MI • Note Q waves and loss of R waves V1 - V4 • ST elevation in V2 - V5/V6 • Left anterior fascicular block is also present, but does not account for the loss of R wave progression • The patient had had a very recent anterior MI • Cardiac catheterization revealed 3-vessel disease with a 90% mid-LAD "culprit" lesion
Acute Lateral MI • ST elevations in I and aVL • Probable reciprocal ST depressions inferiorly consistent with acute lateral MI • Remember: ST elevations like this are never reciprocal but indicate the primary region of ischemia (diagonal or circumflex lesion) • Confirmed left circumflex occlusion at catheterization
Acute Pericarditis • Always consider myocardial infarction first when you see ST elevations • But don't forget the differential diagnosis of ST elevations • Ischemic heart disease • Pericarditis • Left bundle branch block (LBBB) • Normal ("early repolarization") variant • Two features here point to pericarditis • First, diffuseness of the ST elevations (I, II, III, aVF, V3-V6) • Second, PR depression in II, aVF, V4-V6 and PR elevation seen in aVR (attributed to subepicardial atrial injury)
Acute Pericarditis • Diffuse ST segment elevations (I, II, aVF, V2-V6) • Subtle PR segment deviations (elevated in aVR and depressed in the inferolateral leads) • ST elevations are due to a ventricular current of injury from the pericardial inflammation • PR changes are due to an associated atrial current of injury • Note that the PR and ST segment vectors point in opposite directions, i.e., PR up and ST down in aVR and PR down and ST up in inferolateral leads
Acute Myocardial Infarction • Marked inferior and lateral ST segment elevation • ST segment depression in anterior leads V1-V4 • ST elevations (“current of injury” pattern) indicate transmural ischemia of the infero-lateral wall • ST depression most consistent with reciprocal change from the ST elevation generated by the acute posterior and lateral ischemia • Remember, acute pericarditis causes diffuse ST segment elevation (e.g., leads I, II, III, aVL, aVF, and the precordial leads) • Reciprocal ST depressions of the type seen here (V1-V4), are never a feature of pericarditis alone • Cardiac catheterization revealed acute occlusion of a dominant left circumflex coronary artery (along with occlusion of a smaller RCA)
ST Elevation Myocardial Infarction • Slight inferior ST elevation with T wave inversion • Minimal reciprocal ST depression in aVL • Relatively low limb lead voltage makes these findings more subtle