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Transcript 
2
The Electrocardiogram
Fast & Easy ECGs – A Self-Paced
Learning Program
Q
I
A
Electrocardiogram
•  A tracing of the heart’s electrical activity
Electrocardiograph
•  Detects heart’s
electrical activity
through electrodes
positioned on
patient’s skin
I
ECG Paper
I
ECG Paper
•  Each small square =
0.04 sec in duration
and 0.1 mV in
amplitude
•  Five small squares =
One large box and
0.20 seconds in
duration
•  Horizontal
measurements
determine heart rate
I
Isoelectric Line
•  Flat line that occurs:
–  When no electrical
activity is occurring
–  When impulses are
too weak to be
detected
•  Used as a baseline
to identify changing
electrical movement
P Wave
•  Produced by:
–  initiation of impulse in
SA node
–  depolarization of RA
and LA
–  Impulse passing
through AV junction
•  Waveform is upright
and round
PR Segment
•  Flat (isoelectric) line
seen as impulse
travels through HisPurkinje system
QRS Complex
•  Follows PR segment and
consists of:
–  Q wave
•  First negative deflection
following PR segment
–  R wave
•  First positive deflection
following Q wave or PR
segment
–  S wave
•  First negative deflection
that extends below the
baseline following the R
wave
I
ST Segment and T Wave
•  ST segment is flat line
that follows QRS
complex
•  T wave is larger,
slightly asymmetrical
waveform that follows
ST segment
I
QT Interval
•  The distance from onset of QRS complex
until end of T wave
–  Measures time of ventricular depolarization
and repolarization
•  Has normal duration of 0.36 to 0.44
seconds
I
Typical ECG
•  Upright, round P waves occurring at regular intervals at a rate of 60
to 100 beats per minute
•  PR interval of normal duration (0.12 to 0.20 seconds) followed by a
QRS complex of normal upright contour, duration (0.06 to 0.12
seconds) and configuration
•  Flat ST segment followed by an upright, slightly asymmetrical T
wave
Calibration or Registration
Mark
•  Helps ensure ECG
machine is properly
calibrated
•  Serves as reference
point on ECG tracing
I
Artifact
•  Markings on ECG
tracing that are not a
product of heart’s
electrical activity
–  Patient movement is
among its many
causes
–  Can mimic lifethreatening
dysrhythmias
I
ECG Machines
•  A variety of machines are available
–  Some monitor from one to five different leads
–  Others are capable of monitoring up to twelve
or more leads simultaneously
I
ECG Leads
•  Each lead provides a different view of the
heart:
–  Electrodes are placed on chest, arms and
legs
–  Sites vary depending on which view of the
heart's electrical activity is being assessed
I
ECG Leads
•  Direction an ECG
waveform takes
depends on
whether electrical
currents are
traveling toward or
away from a
positive electrode
I
ECG Leads
•  Planes provide a
cross-sectional view
of heart
–  Frontal plane
–  Horizontal plane
I
Limb Leads
•  View the frontal plane
•  Include leads I, II, III,
aVR, aVL and aVF
•  Provide inferior,
superior, and lateral
views of heart
Precordial Leads
•  View horizontal plane
and include leads V1,
V2, V3, V4, V5, and V6
•  Provide inferior,
superior, and lateral
views of heart
Unipolar Leads
•  Use one positive electrode and a reference point
which is calculated by the ECG machine
Uses for Different Leads
•  A given lead may be used to highlight:
–  A specific part of ECG complex
–  Electrical events of a specific cardiac cycle
–  Conditions such as an enlargement of heart
muscle or presence of ischemia, injury and
infarction
I
Bipolar Leads
•  Record difference in
electrical potential
between a positive
and negative
electrode
•  Uses a third electrode
called a ground
•  Include leads I, II and
III
I
Limb Leads - Lead I
•  Positive electrode - left arm (or under left clavicle)
•  Negative electrode - right arm (or below right clavicle)
•  Ground electrode - left leg (or left side of chest in
midclavicular line just beneath last rib)
•  Waveforms are positive
Limb Leads - Lead II
•  Positive electrode - left leg (or on left side of chest in
midclavicular line just beneath last rib)
•  Negative electrode - right arm (or below right clavicle)
•  Ground electrode - left arm (or below left clavicle)
•  Waveforms are positive
Limb Leads - Lead III
•  Positive electrode - left leg (or left side of the chest in
midclavicular line just beneath last rib)
•  Negative electrode - left arm (or below left clavicle)
•  Ground electrode - right arm (or below right clavicle)
•  Waveforms are positive or biphasic
Limb Leads - Augmented
Leads
•  Includes aVR, aVL and aVF
•  Unipolar
•  Enhanced by ECG machine because
waveforms produced by these leads are
normally small
I
Limb Leads - Lead aVR
•  Positive electrode placed on right arm
•  Waveforms have negative deflection
Limb Leads - Lead aVL
•  Positive electrode placed on left arm
•  Waveforms have positive deflection
Limb Leads - Lead aVF
•  Positive electrode located on left leg
•  Waveforms have a positive deflection
Precordial Leads
•  Includes leads V1, V2,
V3, V4, V5 and V6
•  Positioned in order
across the chest
•  Unipolar
–  Opposing pole is
center of heart as
calculated by ECG
I
Modified Chest Leads (MCL)
•  MCL1 and MCL6
provide continuous
cardiac monitoring
•  Place positive
electrode in same
position as precordial
leads V1 or V6
I
Summary
•  Electrodes placed on patient’s skin detect heart’s
electrical activity.
•  Graphic record or tracing is called an electrocardiogram.
•  Abnormalities in cardiac rate and/or rhythm are called
dysrhythmias.
Summary
•  ECG paper consists of horizontal and vertical lines that
form a grid.
•  Horizontal measurements used to determine heart rate
and duration of various waveforms, segments and
intervals.
•  Vertically on ECG paper, distance between lines, or
boxes, represents amplitude in millimeters (mm) or
electrical voltage in millivolts (mV).
Summary
•  Conduction of electrical impulse through the heart can
be seen on ECG as P wave, PR interval, QRS complex,
ST segment and T wave.
•  Artifact is markings on ECG tracing that have no
relationship to electrical activity of the heart.
Summary
•  Each lead provides a different view of heart.
•  Impulses traveling toward a positive electrode are
recorded on ECG as upward deflections.
•  Impulses traveling away from a positive electrode or
toward a negative electrode are recorded as downward
deflections.
Summary
•  Limb leads are produced by placing electrodes on right
arm (RA), left arm (LA) and left leg (LL).
–  Include leads I, II, III, augmented vector right (aVR),
augmented vector left (aVL) and augmented vector
foot (aVF).
•  Precordial leads include leads V1, V2, V3, V4, V5, and V6.
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