12 Lead EKG 101
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A Basic Overview of How to Interpret 12 Lead EKGs and
Treat a Cardiac Patient
Region IV Pre-Hospital Systems Coordination Committee
12 Lead EKG 10112 Lead EKG 101
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The purpose of this course is to provide pre-hospital clinicians with the tools necessary to identify the basic A&P of the heart, interpret 12 Lead EKGs, localize and treat AMIs as well as recognize imposters and potential complications.
Purpose:Purpose:
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Basic Cardiac Anatomy & Basic Cardiac Anatomy & PhysiologyPhysiology
•Muscular pump about the size of your fist
•primary function is to pump oxygenated blood to the rest of the body.
•Made up of four chambers,
•right and left atria
•right and left ventricles
•The septum is a thin muscular wall that separates the right and left sides of the heart.
•Each contraction of the heart occurs in response to an electrical impulse that starts in the upper portion of the heart.
•Blood is moved in a closed circuit through the body by the pumping of the heart.
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•The heart contracts and pumps blood out to the body (systole) and relaxes to fill with more blood (diastole).
•The heart muscle itself is like all other organs in the body and requires oxygen to function.
•The oxygen-rich blood is circulated to the heart muscle through the coronary arteries.
•There are two main arteries:
•Right coronary artery•Left main coronary artery
•both start at the aorta
• These vessels then branch off into smaller and smaller vessels along the surface of the heart.
Basic Cardiac Anatomy & Basic Cardiac Anatomy & PhysiologyPhysiology
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In order to perform work, the heart needs oxygen and nutrients.
•There are two main arteries:
•Right coronary artery (RCA) •Left coronary artery (LCA).
•The left coronary artery divides into: •Left anterior descending (LAD) branch •Left circumflex branch(LCX)
•The right coronary artery and the branches of the left coronary artery provide numerous smaller branches which penetrate the heart muscle, supplying it with blood.
•Both coronary arteries originate from the aorta and run along the surface of the heart.
•In the majority of human hearts, coronary circulation follows a predictable pattern.
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Left Main Coronary ArteryBranches quickly into the LAD & LCX. Involves almost 2/3 of the heart muscle
Right Coronary Artery (RCA) The RCA supplies blood to the bottom (inferior) portion and part of the back (posterior) portion of the left ventricle. The posterior portion of the septum is also supplied with blood from the RCA.
•SA Node 55%•AV Node 90%•AV Blocks
Left Anterior Descending Branch (LAD)The LAD supplies blood to the front (anterior) portion of the left ventricle, apical including most of the anterior portion of the septum separating the ventricles.•Bundle Branch Block, AMI, CHF
Left Circumflux Branch (LCX)The LCX supplies blood to the left side (lateral) portion and the back (posterior) portion of the left ventricle.
•SA Node 45% •AV Node 10%•Lateral & posterior MI
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•Sino-Atrial (SA) Node: natural cardiac pacemaker. The heartbeat starts here and spreads throughout the network of conduction fibers in the two atria causing them to contract.
•Normally, the heartbeat can only reach the ventricles (the two lower chambers), after it has passed through the atrioventricular (AV) node.
•Atrioventricular (AV) Node: slows down the electrical signal so that the atrial contractions can finish filling the ventricles completely. The AV node also prevents the lower chambers from beating too fast if the atria develops a fast rhythm (tachyarrhythmia).
•His Bundle, bundle branches, and the Purkinje system : The electrical signal finally passes to the ventricles causing the ventricles to contract
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Anatomy of an EKGAnatomy of an EKGThe EKG, or a measure of this electrical activity of the heart, is comprised of 3 primary parts...
1. P wave---electrical depolarization of the atria...contraction follows...
2. QRS COMPLEX---electrical depolarization of the ventricles...contraction follows...
3. T wave---electrical repolarization of the ventricles...and thus, relaxation...
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P wave: Represents positive and negative deflections of atrial contraction and relaxation
PR Interval: Distance between the P wave and the R wave. Should be consistent
QRS Complex
Q wave: First negative deflection
•Normal in I, aVL, V1, V6
•Significant or pathologic is one box wide and/or 1/3 the height of the R wave
R Wave: First positive deflection
S Wave: Next negative deflection
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ST Segment: Essentially isoelectric, slopes gentely upward
J point: the point at which the ST Segment takes off from the QRS complex
T Wave: Upright always in leads I, II, V2-V6. aVR is always negative. Leads III, aVL, aVF, and V1 can be positive or negative
U Wave: Seen best in V3, same polarity as T wave, sign of hypokalemia
QT Interval: One complete ventricular cycle. None are > ½ the preceding R-R
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Putting the A&P with the EKGPutting the A&P with the EKG
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Lead Iextends from the right to the left arm
Lead IIextends from the right arm to the left foot
Lead IIIextends from the left arm to the left foot
Einthoven’s TriangleEinthoven’s Triangle
+-
+
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This is an example a 12-lead EKG.
Anatomy of a 12-Lead EKGAnatomy of a 12-Lead EKG
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•At the bottom of this 12-lead are rhythm strips (highlighted).
•Any of the 12-leads can be shown as rhythm strips.
•You can configure the device to show you any of the six limb leads on the rhythm strip (I, II, III, aVR, aVL or aVF).
Anatomy of a 12-Lead EKG Anatomy of a 12-Lead EKG (cont.)(cont.)
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The format of the 12-lead EKG is very standard. While there are a few exceptions, the format you see here is typical of what you will see in most 12-lead EKGs done in North America.
Anatomy of a 12 Lead EKG Anatomy of a 12 Lead EKG (cont.)(cont.)
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Anatomy of a 12-Lead EKG Anatomy of a 12-Lead EKG (cont.)(cont.)
•The 12-lead can provide a computer generated interpretation.
•When you see “ACUTE MI SUSPECTED” the machine is right about 98% of the time.
•In order to attain specificity, if the computer isn’t absolutely sure that an AMI is present, it will not say anything about it.
•In other words YOU are the primary interpreter, the computer is your backup.
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•The 12-Lead is very good at measuring intervals and durations.
•It is better at measuring the PR-interval and the QRS width.
•We express these intervals and durations in seconds
•12-lead expresses them in milliseconds. It is simple to convert milliseconds to seconds.
Anatomy of a 12-Lead EKG (cont.)Anatomy of a 12-Lead EKG (cont.)
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•When you use an EKG to determine the cardiac rate and rhythm, certain sampling time is required.
12-lead interpretation: Only one beat from each lead is needed to make an interpretation.
Anatomy of a 12-Lead EKG Anatomy of a 12-Lead EKG (cont.)(cont.)
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•Each lead has one positive electrode.
•Positive electrode is a camera.
•view is from the positive electrode toward the negative electrode.
•The portion of the left ventricle that each leads “sees” is determined by the location of that positive electrode.
•Different placements of the electrodes will yield different viewpoints.
Anatomy of a 12-Lead EKG Anatomy of a 12-Lead EKG (cont.)(cont.)
•There are six positive electrodes on the chest, yielding six leads.
•There are four electrodes on the limbs from which the EKG machine makes another six leads.
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Anatomy of a 12-Lead EKG Anatomy of a 12-Lead EKG (cont.)(cont.)
Limb Leads Chest Leads
I aVR V1 V4
II aVL V2 V5
III aVF V3 V6
Types of Leads
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Anatomy of a 12-Lead EKG Anatomy of a 12-Lead EKG (cont.)(cont.)
View of Posterior Heart Wall
•Leads V1 & V2
-Tall R
-ST Depression
-Upright T-Wave
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• Leads II, III, aVFLeads II, III, aVF- Looks at inferior heart wallLooks at inferior heart wall
Anatomy of a 12-Lead EKG Anatomy of a 12-Lead EKG (cont.)(cont.)
View of Inferior Heart Wall
-Looks from the left leg upLooks from the left leg up
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• Leads I and aVLLeads I and aVL– Looks at lateral heart Looks at lateral heart
wall wall – Looks from the left arm Looks from the left arm
toward hearttoward heart
Anatomy of a 12-Lead EKG Anatomy of a 12-Lead EKG (cont.)(cont.)
View of Lateral Heart Wall
*Sometimes known as High Lateral*
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• Leads V5 & V6Leads V5 & V6– Looks at lateral heart wallLooks at lateral heart wall– Looks from the left lateral Looks from the left lateral
chest toward heartchest toward heart
Anatomy of a 12-Lead EKG Anatomy of a 12-Lead EKG (cont.)(cont.)
View of Lateral Heart Wall
*Sometimes referred to as Low Lateral or Apical view*
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• Leads I, aVL, V5, V6Leads I, aVL, V5, V6
- - Looks at the lateral wall of the Looks at the lateral wall of the heart from two different perspectivesheart from two different perspectives
Anatomy of a 12-Lead EKG Anatomy of a 12-Lead EKG (cont.)(cont.)
View of Entire Lateral Heart Wall
Lateral Wall
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• Leads V3, V4Leads V3, V4– Looks at anterior heart wallLooks at anterior heart wall– Looks from the left anterior Looks from the left anterior
chestchest
Anatomy of a 12-Lead EKG Anatomy of a 12-Lead EKG (cont.)(cont.)
View of Anterior Heart Wall
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• Leads V1, V2Leads V1, V2- Looks at septal heart wallLooks at septal heart wall- Looks along sternal bordersLooks along sternal borders
Anatomy of a 12-Lead EKG Anatomy of a 12-Lead EKG (cont.)(cont.)
View of Septal Heart Wall
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I Lateral
II Inferior
III Inferior
aVR
aVL Lateral
V1 Septal
aVF Inferior
V2 Septal
V3 Anterior
V4 Anterior
V5 Lateral
V6 Lateral
Anatomy of a 12-Lead EKG Anatomy of a 12-Lead EKG (cont.)(cont.)
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•The ST segment is normally iso-electric (baseline) neither elevated or depressed.
•May slope upward toward a relatively tall T wave
Anatomy of a 12-Lead EKG - Anatomy of a 12-Lead EKG - ST SegmentST Segment
•The ST segment is probably the single most important element to identify on the ECG when looking for evidence of AMI.
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The Three I’sThe Three I’s
IschemiaIschemia– lack of oxygenation lack of oxygenation – ST depression or T inversionST depression or T inversion
Injury Injury – prolonged ischemia prolonged ischemia – ST elevationST elevation
Infarct Infarct – death of tissuedeath of tissue– may or may not show in Q wavemay or may not show in Q wave
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Cardiac ischemia is a situation in which the blood flow within a coronary artery is limited to the point where the oxygen needs of the heart muscle cannot be met (hypoxia).
( Myocardial ischemia, Ischemic heart disease, Ischemia, Myocardium ischemia,
Silent ischemia )
CARDIAC ISCHEMIA
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CARDIAC ISCHEMIA
Minor episodes of cardiac ischemia tend to cause Minor episodes of cardiac ischemia tend to cause little long-term damage to the heart, but these little long-term damage to the heart, but these episodes can sometimes cause serious effects in episodes can sometimes cause serious effects in some patients: some patients:
They can cause They can cause arrhythmias, which can lead to which can lead to either either syncope or cardiac arrest and and sudden cardiac death.
Severe or lengthy episodes can trigger a Severe or lengthy episodes can trigger a result in in myocardial infarction. myocardial infarction.
The collective effects of minor episodes of The collective effects of minor episodes of cardiac ischemia can potentially lead to cardiac ischemia can potentially lead to cardiomyopathy.
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Symptoms of Cardiac Ischemia
May be painful symptoms May be painful symptoms of cardiac ischemia, of cardiac ischemia,
Pain, pressure or discomfort from cardiac ischemia is angina. Angina may feel like a squeezing vise or crushing pressure deep in the chest behind the sternum. May also be felt in the shoulders, arms, back, neck or jaw.
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EKG in Acute IschemiaEKG in Acute Ischemia
Tracing taken during an episode of anginal pain that occurred while the patient was at rest. Marked ST elevation in leads V2‑5 with some ST depression in aVF.
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EKG after Acute IschemiaEKG after Acute Ischemia
This tracing was taken 30 minutes after the initial. The patient was pain‑free and asymptomatic. The ST segments are isoelectric, and the ECG is normal
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Evaluation after Acute Evaluation after Acute IschemiaIschemia
Subsequent clinical evaluationSubsequent clinical evaluation– serial ECGsserial ECGs– enzyme determinations, enzyme determinations,
revealed no evidence of acute myocardial revealed no evidence of acute myocardial infarction. Disappearance of the ST elevation infarction. Disappearance of the ST elevation and the absence of clinical and and the absence of clinical and electrocardiographic evidence of infarction on electrocardiographic evidence of infarction on subsequent examinations indicate that initial subsequent examinations indicate that initial ECG is representative of severe, acute, and ECG is representative of severe, acute, and reversible ischemia.reversible ischemia.
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Epicardial Coronary Artery
Lateral Wall of LV
Positive Electrode
Septum
Left Ventricular
Cavity
Interior Wall of LV
Well Perfused Myocardium
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Normal ECGNormal ECG
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Epicardial Coronary Artery
Lateral Wall of LV
Positive Electrode
Septum
Left Ventricular
Cavity
Interior Wall of LV
Ischemia
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IschemiaIschemia
Inadequate oxygen to tissueInadequate oxygen to tissue
SubendocardialSubendocardial
Represented by ST Represented by ST depression or T inversiondepression or T inversion
May or may not result in May or may not result in infarctinfarct
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ST depressionST depression
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InjuryInjury
Prolonged ischemiaProlonged ischemia
TransmuralTransmural
Represented by ST Represented by ST elevationelevation
Usually results in infarctUsually results in infarct
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ST elevationST elevation
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Thrombus
Ischemia
InjuryInjury
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InfarctInfarct
Death of tissueDeath of tissue
Represented by Q waveRepresented by Q wave
Not all infarcts develop Q wavesNot all infarcts develop Q waves
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Infarcted AreaElectrically Silent
Depolarization
Many infarcts do not develop Q waves
InfarctionInfarction
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Q WavesQ Waves
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Infarcted Area Electrically Silent
Thrombus
Depolarization
Ischemia
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SummarySummary A normal ECG does NOT rule out A normal ECG does NOT rule out
ACSACS ST segment depression represents ST segment depression represents
ischemiaischemia– Possible infarctPossible infarct
ST segment elevation is evidence of ST segment elevation is evidence of AMIAMI
Q wave MI may follow ST elevation or Q wave MI may follow ST elevation or depression depression
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Pathophysiology of the AMIPathophysiology of the AMI•Chronic accumulation of atherosclerotic plaque in coronary vessels around the heart
•Fibrous plaque prone to rupture, lead to thrombytic blockage
•Clots form due to damaged tissue and platelets
•Both release chemicals causing a clot to form
•Forms a substance called fibren that traps cells and platelets eventually blocking and narrowing
•Tissue damage in AMI results from rupture of plaque on vessel walls creating a chain reaction that forms a clot in the coronary artery.
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Process of an AMIProcess of an AMI
Impaired blood flow:•Produces varying degrees of myocardial injury•Damage dependent on flow reduction and duration•Tissue death progress quickly in a wave pattern
•Begins with endocardium•Ends with epicardium•Infarction becomes larger toward the surface of the heart.
Ischemia – Shortage of oxygen at cellular levelInjury – Diminishing supply of oxygenInfarct – cardiac cells die of anoxia.
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EKG Changes from InfarctionEKG Changes from Infarction
First Detectable Change in EKG
•Tall T-waves
•increase in height
•more symmetric
•may occur in the first few minutes
*Known as hyper acute phase*
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EKG Changes from Infarction EKG Changes from Infarction “The Acute Phase”“The Acute Phase”
Signs of Myocardial Injury•ST Segment Elevation
•Primary indication of injury
•Occurs in first hour to hours
•ST Segment Elevation in Leads•1mm or greater in limb leads
•2 mm or greater in chest leads
•Hallmark indication of AMI
*Known as Acute Phase*
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EKG Changes of InfarctionEKG Changes of Infarction“Reciprocal Changes”“Reciprocal Changes”
ST elevation in contiguous leads most ST elevation in contiguous leads most often represents acute infarctionoften represents acute infarction
ST depression in contiguous leads may ST depression in contiguous leads may represent acute ischemiarepresent acute ischemia
In acute infarction, ST elevation in In acute infarction, ST elevation in contiguous leads coupled with contiguous leads coupled with reciprocal ST depression in non-reciprocal ST depression in non-infarcting leads is added evidence of an infarcting leads is added evidence of an AMI.AMI.
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Acute ST segment elevation
Reciprocal ST segment depression
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EKG Changes from Infarction EKG Changes from Infarction “T Wave Inversion”“T Wave Inversion”
Signs of Myocardial Injury
T wave inversion• presence of ischemia
• May precede ST elevation
•Prominent in precordial chest leads• Inversion in limb leads is pathologic
• T wave inversion can be caused by
other things than ischemia
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EKG Changes from Infarction EKG Changes from Infarction “The Indeterminate Phase”“The Indeterminate Phase”
Signs of Myocardial Infarction
Pathologic Q-wave•First indication of tissue death•First few to several hours
•Q-wave ¼ size of QRS suggests
infarct•Represent current or past events
•Determine timing through ST elevation
and T-wave inversion
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Natural Progression of EKG in Natural Progression of EKG in InfarctionInfarction
Over time:
•T-wave regains normal contour
•ST-segment returns to isometric line
•Q-wave remains as evidence of infarct
•Indicates presence of previous MI
*ST segment elevation provides the strongest evidence of early recognition of AMI*
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EKG Changes from Infarction EKG Changes from Infarction (cont.)(cont.)
• All of the changes in the previous slides are: Indicative Changes
• ST segment elevation is helpful in detecting an MI in its early stages
• Hyperacute (Tall) T-waves alone are specific enough to diagnose an MI
• T-wave inversion can occur with simple angina and is therefore not specific
• Pathological Q-wave is the most accurate recognition of an MI
• Not in the first few hours
• ST segment elevation provides the strongest evidence for early recognition of an MI
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ECG VariantsECG Variants Coronary Spasm: Coronary Spasm:
“Printzmetals angina”“Printzmetals angina”Injury pattern that Injury pattern that resolves w/ rest, NTG,O2 resolves w/ rest, NTG,O2 etc.etc.
Early Repolarization: Early Repolarization: elevated “J” point seen elevated “J” point seen best in V3,4. Key to Dx best in V3,4. Key to Dx pt’s are usually young & pt’s are usually young & asymptomaticasymptomatic
Pericarditis: ST elevation Pericarditis: ST elevation usually global associated usually global associated w/ fever, pleuritic c/p.w/ fever, pleuritic c/p.
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ECG Variants due to Drugs or ECG Variants due to Drugs or Electrolytes ImbalancesElectrolytes Imbalances
Hypokalemia: lg U waves Hypokalemia: lg U waves ( usually taller than T) seen best ( usually taller than T) seen best in precordial leads. <2.7in precordial leads. <2.7
Hyperkalemia:Hyperkalemia:– Tall peaked T waves Tall peaked T waves > > 6.06.0
– PR prolongs, QRS widensPR prolongs, QRS widens– P waves disappear P waves disappear >> 8.0 8.0
Hypocalcemia:Hypocalcemia:– Prolonged QT intervalProlonged QT interval
Hypercalcemia:Hypercalcemia:– Shortened QT intervalShortened QT interval
Digitalis effect:Digitalis effect:– ST depression- downsloping, ST depression- downsloping,
curved ST segments.curved ST segments.– ““scooping”, “sagging”, flat or scooping”, “sagging”, flat or
inverted T’s in inverted T’s in lateral leadslateral leads– PR prolongedPR prolonged– QT shortenedQT shortened
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Bundle Branch BlocksBundle Branch Blocks
““Turn Signal Rule”Turn Signal Rule”This is a simple method for differentiating right bundle branch block from left This is a simple method for differentiating right bundle branch block from left
bundle branch block. V1 will be the only lead you need to viewbundle branch block. V1 will be the only lead you need to view1. Locate the terminal (last) force of the QRS complex1. Locate the terminal (last) force of the QRS complex2. Determine if it is pointing up or down.2. Determine if it is pointing up or down.3. Compare to the turn signal in your car:3. Compare to the turn signal in your car:
» Up is for a right turn & Up is for a right turn & RBBBRBBB» Down is for a left turn and Down is for a left turn and LBBBLBBB
Clinical significance:Clinical significance: Bundle branch is a significant complication of infarction. Since the left anterior descending artery is the Bundle branch is a significant complication of infarction. Since the left anterior descending artery is the primary supplier of the bundle branches, BBB is considered a complication of anterior septal infarcts.primary supplier of the bundle branches, BBB is considered a complication of anterior septal infarcts.
When BBB is the result of MI, the incidence of pump failure is 65-70% and the in-hospital mortality rate When BBB is the result of MI, the incidence of pump failure is 65-70% and the in-hospital mortality rate is 40%-60%. The BBB itself is not dangerous, but the high mortality rate is due to the extensive amount is 40%-60%. The BBB itself is not dangerous, but the high mortality rate is due to the extensive amount of tissue death occurring when an infarct is serious enough to cause a BBB. Another manifestation of of tissue death occurring when an infarct is serious enough to cause a BBB. Another manifestation of BBB is in the form of AV Block. This is why infranodal AV blocks are more serious and have wide QRS BBB is in the form of AV Block. This is why infranodal AV blocks are more serious and have wide QRS complexes.complexes.
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Localizing the Area of Localizing the Area of InfarctionInfarction
•Indicative changes are not found in every lead
•Only present in leads looking at the infarct
•Indicative changes in two or more leads looking at the same portion of the heart are anatomically contiguous leads
•Suspect AMI
•ST segment elevation in two or more leads that are not contiguous
•AMI not the suspected cause
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•Recognizing infarct: Know which part of the heart each lead
looks at•Localizing Infarct: Note which lead is displaying evidence and which portions of heart they are looking at
*Simply knowing the changes to look for and which part of the heart each lead looks at*
Recognition & LocalizationRecognition & Localization
Leads Displaying Leads Displaying Indicative ChangesIndicative Changes
II, III, aVFII, III, aVF
V1 & V2V1 & V2
V3 & V4V3 & V4
V5, V6, I, and aVLV5, V6, I, and aVL
Location of Infarct SiteLocation of Infarct Site
InferiorInferior
SeptalSeptal
AnteriorAnterior
LateralLateral
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Anterior Wall MIAnterior Wall MI
Anterior Wall infarct: Occlusion of the Left Anterior Descending Artery (LAD)
•2mm ST segment elevation in two or more of leads V1-V4
•Reciprocal changes in leads II, III, aVF
•Lethal due to large myocardium involvement
Possible conduction defects:
Bundle Branch Block
2nd Degree Block Type II
CHB
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Anterior Wall MIAnterior Wall MI
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Inferior Wall MIInferior Wall MIInferior Wall MI: Occlusion of Right Coronary Artery (RCA)
•At least 1mm ST segment elevation in leads II, III, aVF
•Reciprocal ST depression in leads I & aVL or precordial leads
Conduction defects:
•Sinus bradycardia
•Sinus arrest
•1st degree block
•Accelerated Idoventricular rhythm
Complications:
•Bradyarrhythmias – protective mechanism, 90% of blood supply for SA & AV nodes from the RCA
•Hypotension – treated with fluids, consider right side involvement
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Inferior Wall MIInferior Wall MI
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Lateral Wall MILateral Wall MI
Lateral Wall MI: results from occlusion of the Left Circumflex Artery
•At least 1 mm ST segment elevation in leads I, aVL, V5 & V6 and /or 2 mm ST segment elevation in V5 & V6
•Reciprocal ST depression in V1
•Sometimes an extension of an Anterior or Inferior MI
•Conduction defects are rare
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Anterior/Lateral Wall MIAnterior/Lateral Wall MI
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Posterior Wall MIPosterior Wall MIPosterior Wall MI: Occlusion of the Right Coronary Artery (RCA) or the Posterior Descending Artery
•No leads that look at the posterior wall
•Leads look at the infarct site from the opposite side(backwards)
•ST depression in V1 & V2
•Tall R waves in V1 and/or V2
•Most often associated with Inferior MI
*Associated with dangerous conduction disturbances*
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Posterior Wall MIPosterior Wall MI
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Right Ventricular MIRight Ventricular MIRight Ventricular MI: caused by proximal occlusion of the Right Coronary Artery (RCA)
• Associated with Inferior Wall MI• Can happen independently• Standard 12-Lead does not assess right side of heart
• Infarction is significant• Indicates large infarction• Indicates involvement of both ventricles• If the possibility of RVI exists a set of chest leads can be
applied to the right side of the chest• V1-6R leads look at right ventricle• Lead V4R most accurate
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Right Ventricular MIRight Ventricular MI
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Septal Wall MISeptal Wall MI
Septal Wall MI: caused by septal perforation involving the LAD or the Posterior Descending
•Most often in the setting of an Anterior MI
•Loss of R-wave in leads V1, V2 or V3
•May have ST segment elevation in V1 & V2
•No reciprocal changes
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Overview of InfarctsOverview of Infarcts
Location of Location of InfarctInfarct
Arterial Arterial SupplySupply
Indicative Indicative ChangesChanges
Reciprocal Reciprocal ChangesChanges
AnteriorAnterior LADLAD V1-V4V1-V4 II, III, aVFII, III, aVF
InferiorInferior RCARCA II, III, aVFII, III, aVF I, aVLI, aVL
LateralLateral CircumflexCircumflex I, aVL, V5, V6I, aVL, V5, V6 V1V1
PosteriorPosterior Posterior Posterior Descending Descending (RCA)(RCA)
NoneNone V1, V2V1, V2
SeptalSeptal Septal Perforating Septal Perforating (LAD)(LAD)
Posterior Posterior Descending (RCADescending (RCA
Loss of R wave in Loss of R wave in V1, V2, or V3V1, V2, or V3
NoneNone
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Overview of InfarctsOverview of Infarcts• Suspect infarction when there are indicative changes in at least two anatomically contiguous leads
• Indicative changes in many leads suggests larger infarct
• With Inferior Wall MI suspect Right Ventricular Wall Infarct
• Signs of possible Right Ventricular Wall Infarct:• Hypotension• JVD• Clear lung sounds
• Causes of ST segment depression include digitalis, ischemia and reciprocal changes
• Suspect Posterior Wall Infarctions when an Inferior Wall Infarction has ST depression in Leads V1-V3
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Complications of Myocardial Complications of Myocardial InfarctionInfarction
Chest Pain: Most common complication
• Treatment:
•Oxygen and ASA (162 to 325)mg
•NTG initially with Morphine if pain persists
• Usually very effective
Right Ventricular Wall Infarct:
• Reduces output of right ventricle decreasing left ventricular filling (decreased preload)
• NTG and Morphine can worsen conditions
• Decrease in blood pressure will worsen area of injury
• Presence of Inferior Wall Infarction with no EKG or clinical evidence of right side infarct does not merit any extra caution when using NTG and Morphine
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Complications of Myocardial Complications of Myocardial InfarctionInfarction
AV Block Location: indicates electrical impulse from atrium is blocked from depolarizing the ventricles
• Most common block is in the AV Node (nodal block)
• Second most common block is in the Bundle Branches (infranodal)
• Infarct frequently produces AV Block due to increase in parasympathetic tone
• Local ischemia around node can produce the block
• Less serious than block caused by tissue injury or death
• Blocks in AV node produce narrow QRS complex
• Bundle Branches produce wide complexes
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Complications of Myocardial Complications of Myocardial InfarctionInfarction
Determining the type of QRS presented with is a useful tool in determining the location of the block
Nodal BlockNodal Block Infranodal BlockInfranodal Block
Coronary SupplyCoronary Supply Right Coronary Right Coronary ArteryArtery
Left Coronary ArteryLeft Coronary Artery
QR WidthQR Width NarrowNarrow WideWide
StabilityStability Generally StableGenerally Stable Often UnstableOften Unstable
Atropine ResponseAtropine Response Usually improvesUsually improves Often does not Often does not respondrespond
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Complications of Myocardial Complications of Myocardial InfarctionInfarction
Hypotension: A common treatment for hypotension which is secondary to the infarct is to administer fluid boluses and inotropic drugs (dopamine)
Hypotension in the setting of an inferior wall infarction is most likely secondary to right ventricular involvement.
Although RV Infarcts may require significant boluses to offset loss of preload, continuously monitor the patient for signs and symptoms of developing left sided failure.
Hypotension in the setting of an anterior wall infarction may not tolerate fluid boluses and may require a dopamine infusion.
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Complications of Myocardial Complications of Myocardial InfarctionInfarction
Left Coronary Artery Left Coronary Artery OcclusionsOcclusions
Right Coronary Artery Right Coronary Artery OcclusionsOcclusions
Leads Showing Leads Showing Indicative ChangesIndicative Changes
V1-V6, I, aVLV1-V6, I, aVL II, III, aVF, V4R-V6RII, III, aVF, V4R-V6R
LocalizationLocalization Septal, Anterior, Lateral, Septal, Anterior, Lateral, PosteriorPosterior
Inferior, Posterior, Right Inferior, Posterior, Right VentricularVentricular
Pain ControlPain Control NTG & Morphine as NTG & Morphine as appropriateappropriate
NTG & Morphine used NTG & Morphine used with caution if RVI with caution if RVI presentpresent
AV BlockAV Block Infrequent, usually wide Infrequent, usually wide ORS, often unstable, ORS, often unstable, Atropine may be Atropine may be ineffective, use standby ineffective, use standby pacingpacing
Frequent, usually Frequent, usually narrow QRS, Generally narrow QRS, Generally stable, Atropine often stable, Atropine often effective, May not effective, May not require treatmentrequire treatment
HypotensionHypotension 200-250 cc fluid bolus, 200-250 cc fluid bolus, inotropic medicationsinotropic medications
Vigorous fluid therapy if Vigorous fluid therapy if RVI present, inotropic RVI present, inotropic medicationsmedications
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Clinical PearlsClinical Pearls• Suspect infarction when there are indicative changes in at least two anatomically contiguous leads
• Indicative changes in a greater number of contiguous leads suggests a more extensive infarction
• RV or Posterior infarcts should be considered in setting of Inferior Wall MI
•RV: ST segment elevation in rV4
•Posterior: ST depression +/or Tall Rwave in V1 & V2
• Other clinical signs of RV Infarct may include:• Hypotension and JVD in the setting of clear lung sounds
• Other causes of ST segment depression besides ischemia include digitalis effects and ventricular hypertrophy
• Suspect Posterior Wall Infarctions when an Inferior Wall Infarction has ST depression in Leads V1-V3
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QuestionsQuestions