power points
TRANSCRIPT
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1
Chapter 2Chapter 2
Basic Electrophysiology
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Objectives
Describe the two basic types of cardiac cells in the heart, where they are found, and their function.
Describe the primary characteristics of cardiac cells. Define the events comprising the cardiac action potential and
correlate them with the waveforms produced on the ECG. Define the terms membrane potential, threshold potential, action
potential, polarization, depolarization, and repolarization. List the most important ions involved in cardiac action potential
and their primary function in this process. Define the absolute, relative refractory, and supernormal
periods and their location in the cardiac cycle. Describe the normal sequence of electrical conduction through
the heart.
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Objectives
Describe the location, function, and (where appropriate), the intrinsic rate of the following structures: SA node, atrioventricular (AV) junction, bundle branches, and Purkinje fibers.
Differentiate the primary mechanisms responsible for producing cardiac dysrhythmias.
Describe reentry. Explain the purpose of electrocardiographic monitoring. Identify the limitations of the electrocardiogram (ECG). Differentiate between frontal plane and horizontal plane leads. Describe correct anatomic placement of the standard limb leads,
augmented leads, and chest leads. Relate the cardiac surfaces or areas represented by the
electrocardiogram leads.
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Objectives
Identify the numeric values assigned to the small and large boxes on ECG paper.
Identify how heart rates, durations, and amplitudes may be determined from electrocardiographic recordings.
Define and describe the significance of each of the following as they relate to cardiac electrical activity: P wave, QRS complex, T wave, U wave, PR segment, TP segment, ST segment, PR interval, QRS duration, and QT interval.
Recognize the changes on the electrocardiogram that may reflect evidence of myocardial ischemia and injury.
Define the term artifact and explain methods that may be used to minimize its occurrence.
Describe a systematic approach to the analysis and interpretation of cardiac dysrhythmias.
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Types of Cardiac Cells
Myocardial cells Working or mechanical cells Responsible for contraction
Pacemaker cells Specialized cells of electrical conduction system Spontaneously generate and conduct impulses
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Properties of Cardiac Cells
Automaticity Ability of pacemaker cells to initiate an electrical
impulse without being stimulated from another source
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Properties of Cardiac Cells
Excitability (irritability) Ability of cardiac muscle cells to respond to an
outside stimulus
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Properties of Cardiac Cells
Conductivity Ability of a cardiac cell to receive an electrical
stimulus and conduct that impulse to an adjacent cardiac cell
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Properties of Cardiac Cells
Contractility Ability of cardiac cells to shorten, causing cardiac
muscle contraction in response to an electrical stimulus
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Cardiac Action Potential
Electrons Current Polarity Voltage Electrolytes Ions
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Polarization
Cell membranes contain membrane channels (pores)
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Polarization (Resting)
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Depolarization = Stimulation
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Repolarization = Resting
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Phases of Cardiac Action Potential
Reflects rapid sequence of voltage changes across cell membrane during cardiac cycle
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Phase 0—Depolarization
Begins when the cell receives an impulse Sodium moves rapidly
into cell Potassium leaves cell Calcium moves slowly
into cell Cell depolarizes;
contraction begins Responsible for QRS
complex on the ECG
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Phase 1—Early Repolarization
Na+ channels partially close Brief outward movement of K+ Results in fewer positive electrical charges
within the cell
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Phase 2—Plateau Phase
Repolarization continues relatively slowly Slow inward movement of Ca++ Slow outward movement of K+
Responsible for ST segment on ECG
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Phase 3—Final Rapid Repolarization
K+ flows quickly out of the cell Entry of Ca++ and Na+ stops
Cell becomes progressively more electrically negative and more sensitive to external stimuli
Corresponds with T wave on the ECG
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Phase 4—Return to Resting State
Heart is "polarized" during this phase Ready for discharge
Cell will remain in this state until reactivated by another stimulus
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Antiarrhythmics
Arrhythmia Dysrhythmia Antiarrhythmics
Medications used to correct irregular heartbeats and slow down hearts that beat too fast
Classified by their effects on the cardiac action potential
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Refractory Periods
Refractoriness The period of recovery that cells need after being
discharged before they are able to respond to a stimulus
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Refractory Periods
Absolute refractory period Cells cannot be stimulated
to conduct an electrical impulse, no matter how strong the stimulus
Onset of QRS complex to approximate peak of
T wave
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Refractory Periods
Relative refractory period Cardiac cells can be
stimulated to depolarize if the stimulus is strong enough
Corresponds with downslope of T wave
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Refractory Periods
Supernormal period Weaker than normal
stimulus can cause cardiac cells to depolarize
Corresponds with end of T wave
1 = Absolute refractory period
2 = Relative refractory period
3 = Supernormal period
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The Conduction System
Conduction system Specialized electrical
(pacemaker) cells Arranged in a system of
pathways
Primary pacemaker Sinoatrial (SA) node
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The Conduction System
Atria Fibers of SA node connect
directly with fibers of atria Impulse leaves SA node Spreads from cell to cell
across atrial muscle
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The Conduction System
Internodal pathways Impulse is spread to AV
node via internodal pathways
• Merge gradually with cells of AV node
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The Conduction System
AV junction Area of specialized
conduction tissue Provides electrical
links between atrium and ventricle
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The Conduction System
AV node Located in floor of right
atrium• Supplied by right coronary
artery in most people
Delays conduction of impulse from atria to the ventricles
• Allows time for atria to empty into ventricles
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The Conduction System
AV node Divided into three
functional regions according to their action potentials and responses to electrical and chemical stimulation
Atrionodal (AN) Nodal (N) region Nodal-His (NH)
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The Conduction System
Bundle of His Connects AV node with
bundle branches Pacemaker cells have an
intrinsic rate of 40 to 60 bpm Conducts impulse to right
and left bundle branches
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The Conduction System
Right bundle branch
Left bundle branch Divides into three fascicles
• Anterior fascicle
• Posterior fascicle
• Septal fascicle
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The Conduction System
Purkinje fibers Receive impulse from
bundle branches Relay it to ventricular
myocardium Pacemaker cells have an
intrinsic rate of 20 to 40 bpm
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Conduction System Review
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Causes of Dysrhythmias
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Enhanced Automaticity
Cardiac cells not normally associated with a pacing function begin to depolarize spontaneously or
Pacemaker sites other than the SA node increase their firing rate beyond that considered normal
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Triggered Activity
Abnormal electrical impulses occur during repolarization (afterdepolarizations), when cells are normally quiet Requires a stimulus to initiate depolarization
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Reentry (Reactivation)
An impulse returns to stimulate tissue that was previously depolarized
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Escape Beats or Rhythms
Lower pacemaker site produces electrical impulses Assumes responsibility for pacing the heart
“Protective” mechanisms Maintain cardiac output Originate in the AV junction or the ventricles
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Conduction Disturbances
May occur because of: Trauma Drug toxicity Electrolyte disturbances Myocardial ischemia or infarction
Conduction may be too rapid or too slow
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The Electrocardiogram (ECG)The Electrocardiogram (ECG)
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The ECG
The ECG is a voltmeter Records electrical voltages (potentials) generated
by depolarization of heart muscle
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The ECG
Can provide information about: The orientation of the heart in the chest Conduction disturbances The electrical effects of medications and
electrolytes The mass of cardiac muscle The presence of ischemic damage
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The ECG
Does not provide information about the mechanical (contractile) condition of the myocardium
Evaluated by assessment of pulse and blood pressure
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Electrodes
Applied at specific locations on the patient's chest wall and extremities
One end of a monitoring cable is attached to the electrode
The other end is attached to an ECG machine The cable conducts current back to the
cardiac monitor
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ECG Monitoring
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ECG Monitoring
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ECG Monitoring
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ECG Monitoring
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ECG Monitoring
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ECG Monitoring
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Leads
A record of electrical activity between two electrodes
Allow viewing of the heart’s electrical activity in two different planes Frontal (coronal) Horizontal (transverse)
Each lead records the average current flow at a specific time in a portion of the heart
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Frontal Plane Leads
View the heart from the front of the body as if it were flat
Directions Superior Inferior Right Left
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Frontal Plane Leads
Six leads view the heart in the frontal plane 3 bipolar leads 3 unipolar leads
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Frontal Plane Leads
Bipolar lead A lead that consists of a
positive and negative electrode
Leads I, II, and III
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Frontal Plane Leads
Unipolar lead A lead that consists of a
single positive electrode and a reference point
Augmented limb leads• Leads aVR, aVL, and aVF
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Standard Limb Leads
Leads I, II, and III
Right arm electrode is always negative
Left leg electrode is always positive
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Lead I
Records difference in electrical potential between left arm (+) and right arm (–) electrodes
Views lateral wall of left ventricle
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Lead II
Records difference in electrical potential between left leg (+) and right arm (–) electrodes
Views inferior surface of left ventricle
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Lead III
Records difference in electrical potential between left leg (+) and left arm (–) electrodes
Views inferior surface of left ventricle
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Standard Limb Leads
InferiorInferiorLeft armLeft armLeft legLeft legIIIIII
InferiorInferiorRight armRight armLeft legLeft legIIII
LateralLateralRight armRight armLeft armLeft armII
HeartHeartSurfaceSurfaceViewedViewed
NegativeNegativeElectrodeElectrode
PositivePositiveElectrodeElectrodeLeadLead
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Augmented Limb Leads
Leads aVR, aVL, aVF A = augmented V = voltage R = right arm L = left arm F = foot (usually left leg)
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Augmented Limb Leads
Lead aVR Views the heart from the right shoulder Does not view any wall of the heart
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Augmented Limb Leads
Lead aVL Views the heart from the left shoulder Oriented to the lateral wall of the left ventricle
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Augmented Limb Leads
Lead aVF Views the heart from the left foot (leg) Views the inferior surface of the left ventricle
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Augmented Leads
InferiorInferiorLeft legLeft legaVFaVF
LateralLateralLeft armLeft armaVLaVL
NoneNoneRight armRight armaVRaVR
Heart Surface Heart Surface ViewedViewed
PositivePositiveElectrodeElectrode
LeadLead
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Horizontal Plane Leads
View the heart as if the body were sliced in half horizontally
Directions Anterior Posterior Right Left
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Horizontal Plane Leads
Six chest (precordial or “V”) leads view the heart in the horizontal plane
Chest leads V1
V2
V3
V4
V5
V6
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Chest Lead Placement
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Chest Lead Placement
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Chest Lead Placement
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Chest Lead Placement
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Chest Lead Placement
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Chest Lead Placement
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Chest Lead Placement
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Chest Lead Placement
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Chest Lead Placement
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Chest Lead Placement
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Chest Lead Placement
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Chest Lead Placement
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Chest Lead Placement
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Chest Leads
LateralLateralLeft midaxillary line; same level as VLeft midaxillary line; same level as V44VV66
LateralLateralLeft anterior axillary line; same level as Left anterior axillary line; same level as VV44
VV55
AnteriorAnteriorLeft midclavicular line, 5Left midclavicular line, 5thth intercostal intercostal spacespace
VV44
AnteriorAnteriorMidway between VMidway between V22 and V and V
44VV33
SeptumSeptumLeft side of sternum, 4Left side of sternum, 4thth intercostal space intercostal spaceVV22
SeptumSeptumRight side of sternum, 4Right side of sternum, 4thth intercostal intercostal spacespace
VV11
Heart Surface Heart Surface ViewedViewed
Positive Electrode PositionPositive Electrode PositionLeadLead
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Right Chest Leads
Used to view the right ventricle
Placement identical to standard chest leads except on right side of chest
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Right Chest Lead Placement
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Right Chest Lead Placement
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Right Chest Lead Placement
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Right Chest Lead Placement
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Right Chest Lead Placement
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Right Chest Lead Placement
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Right Chest Lead Placement
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Posterior Chest Leads
Used to view posterior surface of heart
Use same horizontal line as V4 to V6
V7 - posterior axillary line
V8 - posterior scapular line
V9 - left border of spine
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Posterior Chest Lead Placement
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Posterior Chest Lead Placement
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Posterior Chest Lead Placement
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Posterior Chest Lead Placement
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Posterior Chest Lead Placement
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Modified Chest Leads
Modified chest leads (MCLs) Bipolar chest leads that are variations of the
unipolar chest leads Each MCL consists of a positive and negative
electrode applied to a specific location on the chest
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MCL1
A variation of chest lead V1
Negative electrode below left clavicle toward left shoulder
Positive electrode right of sternum in 4th intercostal space
Views ventricular septum
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MCL6
A variation of chest lead V6 Negative electrode below left
clavicle toward left shoulder Positive electrode 5th
intercostal space, left midaxillary line
Views low lateral wall of left ventricle
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What Each Lead “Sees”
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Leads II, III, and aVF
Positive electrode on left leg.
Each lead “sees” inferior wall of left ventricle.
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Leads I and aVL
Positive electrode on left arm. Each lead “sees” lateral wall of left ventricle.
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Leads V5 and V6
Positive electrode on axillary area of left chest.
Each lead “sees” lateral wall of left ventricle.
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Leads V3 and V4
Positive electrode on anterior chest.
Each lead “sees” anterior wall of left ventricle.
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Leads V1 and V2
Positive electrode next to sternum.
Each lead “sees” septal wall of left ventricle.
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What Each Lead “Sees” — Summary
LeadsLeads Heart Surface ViewedHeart Surface Viewed
II, III, aVF Inferior
V1, V2Septal
V3, V4Anterior
I, aVL, V5, V6Lateral
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108
ECG PaperECG Paper
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ECG Paper
ECG paper is graph paper made up of small and larger, heavy-lined squares Smallest squares are 1 mm wide and 1 mm high 5 small squares between the heavier black lines 25 small squares within each large square
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Horizontal Axis = Time
Width of each small box = 0.04 second.
Width of each large box (5 small boxes) = 0.20 second
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Horizontal Axis = Time
5 large boxes (each consisting of 5 small boxes) = 1 second.
15 large boxes = 3 seconds. 30 large boxes = 6 seconds.
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Vertical Axis = Voltage/Amplitude
Size or amplitude of a waveform is measured in millivolts (voltage) or millimeters (amplitude).
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Calibration
1 mV = 10 mm
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WaveformsWaveforms
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Terms
Baseline (isoelectric line) Waveform Segment Interval Complex
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Waveform Deflections
If the wave of depolarization moves toward the positive electrode, the waveform recorded will be upright
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Waveform Deflections
If the wave of depolarization moves toward the negative electrode, the waveform recorded will be upside down (inverted)
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Waveform Deflections
A biphasic (partly positive, partly negative) waveform or a straight line is recorded when the wave of depolarization moves perpendicularly to the positive electrode
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P Wave
Represents atrial depolarization and spread of the impulse throughout right and left atria
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P Wave
Beginning First abrupt or gradual
deviation from the baseline
End Point at which it returns to
the baseline
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Normal P Wave
Smooth and rounded
No more than 2.5 mm in height
No more than 0.11 sec in duration
Upright in leads I, II, aVF, and V2 through V6
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Abnormal P Waves
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QRS Complex
Normally follows each P wave
Consists of Q wave, R wave, and S wave
Represents spread of electrical impulse through the ventricles Ventricular
depolarization
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Q Wave
First negative, or downward, deflection following the P wave Always a negative
waveform
Represents depolarization of interventricular septum
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Q Wave
Normal (physiologic) Q waves Less than 0.04 sec Less than 1/3 the height of R wave in that lead
Abnormal (pathologic) Q waves More than 0.04 sec More than 1/3 the height of the following R wave in
that lead
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R Wave
The first positive, or upward, deflection following the P wave Always positive
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S Wave
A negative waveform following the R wave Always negative
R and S waves represent depolarization of the right and left ventricles
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Limb Leads—Waveform Comparison
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Normal QRS Complex
Measure the QRS complex with the longest duration and clearest onset and end
Normal QRS duration is 0.10 seconds or less
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Abnormal QRS Complexes
An abnormal QRS complex is greater than 0.10 sec in duration
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QRS Variations
If the complex consists entirely of a negative waveform, it is called a QS wave
If the QRS complex consists entirely of a positive waveform, it is called an R wave
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QRS Variations
If there are two positive deflections in the same complex, the second is called R prime and is written as R'
If there are two negative deflections following an R wave, the second is written as S'
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T Wave
Represents ventricular repolarization
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T Wave
The normal T wave is slightly asymmetric
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Normal T Waves
Slightly asymmetric Usually 5 mm or less in height in any limb
lead Usually 10 mm or less in height in any chest
lead Usually 0.5 mm or more in height in leads I
and II
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Abnormal T Waves
The T wave following an abnormal QRS complex is usually opposite in direction of the QRS
Negative (inverted) T waves suggest myocardial ischemia
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Abnormal T Waves
Tall, pointed (peaked) T waves are commonly seen in hyperkalemia
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Abnormal T Waves
Cerebral T waves
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U Waves
Significance is not definitely known May represent repolarization of Purkinje fibers
Not easily identified due to its low amplitude
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Normal U Waves
Rounded and symmetric Usually less than 1.5 mm in height and
smaller than the preceding T wave
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Abnormal U Waves
In general, a U wave more than 1.5 mm in height in any lead is considered abnormal
Abnormally tall U waves may be the result of: Electrolyte imbalance Medication Hyperthyroidism Central nervous system disease Long QT syndrome
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Segments
Segment A line between waveforms Named by waveform that precedes or follows it
Important segments: PR segment ST segment TP segment
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PR segment
Part of the PR interval Horizontal line between end of P wave and
beginning of QRS complex Normally isoelectric (flat)
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TP Segment
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ST Segment Portion of the ECG tracing between QRS
complex and T wave Represents early part of repolarization of
right and left ventricles
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Normal ST Segment
Begins with the end of the QRS complex and ends with the onset of the T wave
Limb leads Isoelectric (flat) May normally be slightly elevated or depressed
(usually by less than 1 mm) Chest leads
ST segment may vary from -0.5 to +2 mm
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ST Segment
The point at which the QRS complex and the ST segment meet = “J point” or junction
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ST Segment Deviation
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ST Segment Elevation
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ST Segment
A horizontal ST segment suggests ischemia Digitalis causes ST segment depression
(scoop) “Dig dip”
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Intervals
Interval A waveform and a segment
Important intervals PR interval QT interval
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PR Interval (PRI)
P wave + PR segment = PR interval Normally measures 0.12–0.20 sec
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PR Interval (PRI)
Begins with the onset of the P wave and ends with the onset of the QRS complex
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Abnormal PR Interval
Long PR interval (greater than 0.20 sec) Indicates the impulse was delayed as it passed
through the atria or AV junction
Short PR interval (less than 0.12 sec) May be seen when the impulse originates in the
atria close to the AV node or in the AV junction
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QT Interval
QT interval represents total ventricular activity—the time from ventricular depolarization (activation) to repolarization (recovery)
Duration of the QT interval varies according to age, gender, and heart rate
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QT Interval
Measured from beginning of QRS complex to end of T wave If no Q wave, measure from beginning of R wave
to end of T wave
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QT Interval
To rapidly determine the QT interval: Measure the interval between two consecutive R
waves (R-R interval) and divide the number by two Measure the QT interval If the measured QT interval is less than half the R-
R interval, it is probably normal
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R-R Intervals
Used to determine ventricular rate and regularity
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P-P Intervals
Used to determine atrial rate and regularity
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Artifact
Distortion of an ECG tracing by electrical activity that is noncardiac in origin
Can mimic various cardiac dysrhythmias, including ventricular fibrillation
Patient evaluation essential before initiating any medical intervention
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Artifact—Causes
Loose electrodes Broken ECG cables or broken wires Muscle tremor Patient movement External chest compressions 60-cycle interference
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Artifact—Loose Electrodes
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Artifact—Muscle Tremor
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Artifact—60-Cycle Interference
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Analyzing a Rhythm Strip
Assess rhythm/regularity Ventricular rhythm
Measure the distance between two consecutive R-R intervals
Compare with other R-R intervals Atrial rhythm
Measure the distance between two consecutive P-P intervals
Compare with other P-P intervals Variation of plus or minus 10% is acceptable
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Terminology
Essentially regular rhythm
Irregular rhythm
Regularly irregular rhythm
Irregularly irregular rhythm
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Analyzing a Rhythm Strip
What is the rate?
A “tachycardia” exists if rate is more than 100 bpm
A “bradycardia” exists if rate is less than 60 bpm
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Six-Second Method
Ventricular rate Count the number of complete QRS complexes within
a period of 6 sec Multiply that number by 10 to determine the number of
QRS complexes in 1 min May be used for regular and irregular rhythms
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Large Box Method
Count the number of large boxes between two consecutive waveforms (R-R interval or P-P interval) and divide into 300
Best used if the rhythm is regular
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Large Box Method
Number of Large Boxes
Heart Rate(bpm)
Number of Large Boxes
Heart Rate (bpm)
1 300 6 50
2 150 7 43
3 100 8 38
4 75 9 33
5 60 10 30
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Sequence Method
Select an R wave that falls on a dark vertical line Number the next 6 consecutive
dark vertical lines as follows:
• 300, 150, 100, 75, 60, and 50
Note where the next R wave falls in relation to the 6 dark vertical lines already marked—this is the heart rate
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Small Box Method
Count the number of small boxes between two consecutive waveforms (R-R interval or P-P interval) and divide into 1500
Time consuming, but accurate
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Analyzing a Rhythm Strip
Identify and examine P waves Look to the left of each QRS complex Normally:
• One P wave precedes each QRS complex
• P waves occur regularly and appear similar in size, shape, and position
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Analyzing a Rhythm Strip
PR interval (PRI) Normal PR interval is 0.12 to 0.20 sec If PR intervals are the same, they are “constant” If the PR intervals are different, is there a pattern?
• Lengthening
• Variable (no pattern)
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Analyzing a Rhythm Strip
QRS complexes Identify the QRS complexes and measure their
duration• Narrow (normal) if it measures 0.10 sec or less
• Wide if it measures more than 0.10 sec
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Analyzing a Rhythm Strip
Measure the QT interval in the leads that show the largest amplitude T waves.
If the measured QT interval is less than half the R-R interval, it probably is normal.
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Analyzing a Rhythm Strip
ST segment Usually isoelectric in the limb leads Determine presence of ST segment elevation or
depression
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Analyzing a Rhythm Strip
T waves Are the T waves upright and of normal height? The T wave following an abnormal QRS complex
is usually opposite in direction of the QRS Negative T waves suggest myocardial ischemia Tall, pointed (peaked) T waves are commonly
seen in hyperkalemia
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Analyzing a Rhythm Strip
Interpret rhythm & evaluate clinical significance Interpret the rhythm
• Specify site of origin (pacemaker site) of the rhythm (sinus)
• Specify mechanism (bradycardia) and ventricular rate For example: Sinus bradycardia at 38 bpm
Evaluate patient’s clinical presentation to determine how he or she is tolerating the rate and rhythm
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Questions?Questions?