ECG for Interns
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Transcript ECG for Interns
ECG for Interns
UCI Internal Medicine Mini-Lecture
Learning Objectives
• Basics of EKG
• Establish Consistent Approach to Interpreting ECGs
• Rate, rhythm, axis, identifying ischemia
• Review Essential Cases for New Interns
• Provide Additional Resources for Future Learning
Basics of EKG: Einthoven’s Triangle and
Vectors
+AVR
Why is lead II often so
important?
->you can see the heart’s
depolarization vector is in
the same axis as lead II!
->this means that in normal
conduction, the QRS
should be upright in lead II
+AVL
+AVF
ECG Interpretation
What is your approach to reading an ECG?
•Rate
•Rhythm
•Axis
•Hypertrophy
•Intervals
•P wave
•QRS complex
•ST segment – T wave
Rate
Square Counting: 300-150-100-75-60-50-42A
Count QRS in 10 second rhythm strip x 6 use this method to
determine rate when rhythm is irregular (e.g., atrial fibrillation)
Rhythm
Look at the rhythm strip below and answer the questions
•
Are P waves present?
• yes
•
Is there a P wave before every QRS complex and a QRS complex after
every P wave?
• yes
•
Are the P waves and QRS complexes regular?
• yes
•
Is the PR interval constant?
• yes
Yes to all these
questions, so this is
normal sinus rhythm!
Axis
•Axis is the general flow of electricity as it passes through
the heart
Look at the main direction of the QRS complex in leads I and AVF
I
AVF
Axis
+
+
normal
+
-
LAD
-
+
RAD
QRS Duration
• Normal QRS is < 120 ms
• Prolonged QRS duration (>120ms) is seen in bundle
branch blocks (BBB).
• This is a result of abnormal conduction through the
bundle branches or fascicles in the electrical conduction
system
• Different criteria for left and right bundle branch blocks
but know the general morphology of each.
Left and right bundle
branch blocks
Left BBB –
•
• Dominant S wave in V1 (‘W’-shaped)
• Broad, notched (‘M’-shaped) R wave in V6
•
Right BBB –
• Tall R wave in V1 (‘M’-shaped)
• Wide, slurred S wave (‘W’-shaped) in V6
QRS complex
Poor R Wave Progression in V1 to V6: suggests prior anterior MI
•Pathologic Q wave = previous MI.
-Q wave amplitude 25% or more of the subsequent R wave OR
- Q wave > 0.04 s in width + > 2 mm in amplitude in more than one lead
Hypertrophy
LVH: 2 commonly used criteria (use either)
1. Sokolow criteria:
S in V1 or V2 + R in V5 or V6 ≥ 35 mm.
2. Cornell criteria:
S in V3 + R in aVL > 28 mm (men)
S in V3 + R in aVL > 20 mm (women)
RVH:
V1 R/S ratio >1
OR
V6 S/R ratio >1
Intervals
What is the normal PR interval?
•0.12 to 0.20 s (3 - 5 small squares).
•Short PR – Look for Wolff-Parkinson-White.
•Long PR – 1st Degree AV block
What is the normal QRS?
•< 0.12 s duration (3 small squares).
•Long QRS - look for bundle branch block, ventricular pre-excitation, ventricular
pacing or ventricular tachycardia
What is the normal QTc (QT/square root of RR)?
•< 0.42 s.
•Long QTc can lead to torsades to pointes.
P Waves
•Left atrial enlargement (P mitrale) = wide, bifid P wave: >0.12s in
lead II or biphasic P in lead V1 with largely negative terminal portion
•Right atrial enlargement (P pulmonale) = peaked P: amplitude
>2.5mm in inferior leads (II, III, avF) or >1.5mm in V1, V2
•If multiple morphologies Wandering pacemaker or
Multifocal atrial tachycardia (common in COPD)
ST segment and MI
ST elevation may indicate STEMI if the following are met:
• At least 1 mm (0.1 mV) elevation in the limb leads (I, II, III, AVL, AVR)
• At least 2 mm elevation in the precordial leads (V1-V6)
• Elevation must be in at least 2 anatomically contiguous leads (see upcoming slides on
“grouping leads”)
ST depression may indicate NSTEMI if the following are met:
• Downsloping ST depression ≥ 0.5 mm
• Must be in at least 2 anatomically contiguous leads
Evolution of an MI:
Patterns on EKG
First thing you should do when looking
for ischemia: Group leads by region!
EKG “Grouped Leads” correspond
to area of injury
LET’S DO SOME
PRACTICE CASES
Case #1
70 year old male with history of diabetes mellitus and
hypertension occasionally feels lightheaded. He
recently fainted while standing.
Case #1 ECG
Case #2
58 year old female with no significant past medical
history presents with fatigue, lightheadedness and
shortness of breath.
Case #2 ECG
Case #3
78 year old female with history of HTN, DM, HL,
CAD admitted for syncope complains of palpitations
and lightheadedness.
Case #3 ECG
Case #4
67 year old male with history of diabetes,
hypertension, COPD presents with chest pain.
Case #4 ECG
Case #5
60 year-old man with history of HTN, HL, CAD
presents with nausea, shortness of breath and chest
pain.
Case #5 ECG
Additional Resources
Websites:
•http://en.ecgpedia.org/
•http://ecg.utah.edu
•http://ecg.bidmc.harvard.edu/maven/
Apps:
•ECG Guide by QxMD (iPad and iPhone)
•ECG Interpret (iPhone)
Books:
•12-Lead ECG: The Art of Interpretation, Tomas Garcia (perhaps
the best book on ECGs with detailed explanations and
physiology.)
•Arrhythmia Recognition, Tomas Garcia
Summary
• Learned the basics of EKG
• Learned how to have a consistent approach to EKGs
• Reviewed essential cases for new interns
• Equipped with resources for continued learning