Cardiovascular ECG Interpretation Notes PDF

Summary

These notes cover the interpretation of electrocardiograms (ECGs), a critical tool in cardiology. They provide a systematic approach to understanding different aspects of ECGs, including heart rate, rhythm, axis, and various wave patterns. The document also details the causes of common ECG abnormalities.

Full Transcript

CARDIOVASCULAR

1. ECG INTERPRETATION
I. SYSTEMATIC APPROACH TO ECG INTERPRETATION
A. STEPWISE APPROACH E. APPROACH TO INTERVALS
B. APPROACH TO HEART RATE F. APPROACH TO P-WAVES
C. APPROACH TO RHYTHM G. APPROACH TO QRS WAVES
D. APPROACH TO AXIS H. APPROACH TO ST SEGMENT AND T-WAVES

I. Systematic Approach to ECG Interpretation
A. Stepwise approach 00:21

B. Approach to Heart Rate 01:56

1. Methods Used to Determine Heart Rate

a) R-Wave Method
First: Assess the number of R-waves in R-Waves x 6
(11 x 6 =66 bpm)
the rhythm strip
Second: Take the number of R-waves
and multiply by 6
Third: # of R-waves x 6 = Heart rate

b) Box Method
First: Assess the number of boxes between the R-R interval
o 1 box distance = 300 bpm
Third: 300/ Number of boxes between R-R interval = Heart rate

ECG Interpretation CARDIOLOGY : Note #1 1 of 11
 C. Approach to Rhythm 04:08

1. Approach to the Tachycardic Rhythm

a) Obtain Characteristics of QRS Complex
Narrow QRS → < 120ms
Wide QRS → > 120ms

b) Obtain Characteristics of RR Interval
Regular → Same RR Interval throughout rhythm strip
Irregular → Variable RR Interval throughout rhythm strip

Monomorphic

VENTRICULAR
TACHYCARDIA Wide
QRS
Complex

TORSDAES DE POINTES
(PMVT)

VENTRICULAR
FIBRILLATION

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2. Approach to the Bradycardic Rhythm 09:34

a) Obtain Duration of PR Interval
Normal PR interval → 160-200ms
Prolonged PR-Interval → > 200ms

b) Obtain the Presence of QRS Complexes
Dropped QRS → 2nd degree AV block and beyond

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 D. Approach to Axis 12:26

1. Method of Determining the Axis
a) Assess Lead I
If QRS is (+) → (+) in Lead I
If QRS is (-) → (-) in Lead I

b) Assess Lead aVF
If QRS is (+) → (+) in Lead aVF
If QRS is (-) → (-) in Lead aVF

NORMAL AXIS

2. Mechanism of Left Axis Deviation
Delayed Depolarization of Left Ventricle → Electrical activity Left Ventricular Hypertrophy
from the Right bundle branches has to then move in the
direction of the LV → This creates a vector pointing toward the
left ventricle wall
Left Bundle Branch Block

LEFT BUNDLE BRANCH BLOCK (LBBB)

Left Anterior Fascicular Block

LEFT AXIS DEVIATION

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3. Mechanism of Right Axis Deviation
Delayed Depolarization of Right Ventricle → Electrical activity from the Left bundle branches has to then move in the direction of the RV
→ This creates a vector pointing toward the right ventricle wall
Right Bundle Branch Block Right Ventricular Hypertrophy

RIGHT BUNDLE BRANCH BLOCK (RBBB) RIGHT VENTRICULAR HYPERTROPHY
Left Posterior Fascicular Block

4. Mechanism of Extreme Right Axis Deviation
Depolarization of the ventricles first → Electrical activity from
the ventricles moves in the direction of the atria → This creates a Ventricular Tachycardia
vector pointing toward the right atrial/ventricular wall

EXTREME RIGHT AXIS DEVIATION

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 E. Approach to Intervals 16:08

1. Obtain Duration of PR Interval
Normal PR interval → 160-200ms
Short PR-Interval → < 160ms Prolonged PR-Interval → > 200ms
Suspect WPW Suspect AV Blocks
o ↓PR interval
o Wide QRS
o Delta wave
1ST DEGREE AVB

2ND DEGREE AVB (MOBITZ I) 2ND DEGREE AVB (MOBITZ II)
Delta wave
Excessi ve P Wave
(Atrial Rate)

Wide QRS Complex
3RD DEGREE AVB (Ventricular Rate)

PR interval
120 ms

2. Obtain QT Interval
Normal QT-Interval → 360-440ms for men and 360-460ms for
women
Prolonged QT-Interval → > 500ms Short QT interval → < 340ms
o High risk for Torsades de Pointes

> 1/2 of R-R Interval

LONG QT INTERVAL SHORT QT INTERVAL

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 F. Approach to P-waves 19:43

LEFT ATRIAL ENLARGEMENT

P Wave ≥ 2.5 mm

RIGHT ATRIAL ENLARGEMENT

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 G. Approach to QRS Complex 21:57

LEFT BUNDLE BRANCH BLOCK (LBBB)

RIGHT BUNDLE BRANCH BLOCK (RBBB)

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 RIGHT VENTRICULAR HYPERTROPHY

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 I. Approach to ST Segment and T-Waves 25:56

1. Approach to ST Segment
ST Depression → > 0.5mm (½ a small box) below the J-point in 2 contiguous leads

Horizontal Down-Sloping Up-Sloping

> 0.5 mm in V2/V3
> 1 mm in all other leads
If in 2 contiguous leads, more likely to indicate
Cardiac Ischemia

ST Elevation → > 1mm (1 small box) elevation above
the J-point in 2 contiguous leads except for V2-V3,
where it needs to be > 2mm (2 small boxes) elevation
above the J-point
o Concave ST elevation → Suggests Pericarditis
o Convex ST elevation → Suggests STEMI
Concave Convex

> 1 mm in Limb Leads
> 2 mm in Precordia l Leads

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2. Approach to T-Waves
T-wave Inversion → > 1mm (1 small box) depression below the
isoelectric line in 2 contiguous leads
Hyperacute T-Waves → > ⅔ the height of the QRS complex and
a broad base

> 1 mm in Limb Leads
> 2 mm in Precordia l Leads

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