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Transcript
Electrocardiography
&
Cardiac Arrhythmias
Saeed Oraii MD, Cardiologist
Interventional Electrophysiologist
Tehran Arrhythmia Clinic
Some slides have accompanied
notes. To view them you can right
click on the screen, choose ‘Screen’
and then ‘Speaker Notes’.
Tehran Arrhythmia Center
ECG
A graphic recording of electrical potentials
generated by the heart
A noninvasive, inexpensive and highly
versatile test
Tehran Arrhythmia Center
Normal Pathway of Electrical Conduction
Tehran Arrhythmia Center
Cardiac Action Potential
Tehran Arrhythmia Center
Cardiac action potentials from different
locations have different shapes
Tehran Arrhythmia Center
Electrophysiology
• Electric currents that spread through the
heart are produced by three components
– Cardiac pacemaker cells
– Specialized conduction tissue
– The heart muscle
• ECG only records the depolarization and
repolarization potentials generated by atrial
and ventricular myocardium.
Tehran Arrhythmia Center
Electrocardiograph 1903
Tehran Arrhythmia Center
Normal Electrocardiogram
Tehran Arrhythmia Center
ECG Waveforms
Labeled alphabetically beginning with the P wave
Tehran Arrhythmia Center
QRS-T Cycle Corresponds to
Different Phases of Ventricular
Action Potential
Tehran Arrhythmia Center
Limb Leads
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Precordial Leads
Tehran Arrhythmia Center
Position of Precordial Electrodes
Tehran Arrhythmia Center
Precordial Leads
Tehran Arrhythmia Center
3-D Representation of Cardiac
Electrical Activity
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Timing Intervals
Tehran Arrhythmia Center
Vector Concept
• Cardiac depolarization and repolarization
waves have direction and magnitude.
• They can, therefore, be represented by
vectors.
• ECG records the complex spatial and
temporal summation of electrical potentials
from multiple myocardial fibers conducted
to the surface of the body.
Tehran Arrhythmia Center
Limb Leads Directions
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Vector Concept
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Ventricular
Depolarization
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QRS Axis
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Determination of QRS Axis
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Direction of Propagation
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Determination of QRS Axis
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Determination of QRS Axis
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Main Vector
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Normal QRS Axis
Tehran Arrhythmia Center
Left Axis Deviation
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Right Axis Deviation
Tehran Arrhythmia Center
Major ECG Abnormalities
Tehran Arrhythmia Center
Right Atrial
Enlargement
Tehran Arrhythmia Center
Left Atrial
Enlargement
Tehran Arrhythmia Center
Left Ventricular Hypertrophy
Tehran Arrhythmia Center
Right Ventricular Hypertrophy
Tehran Arrhythmia Center
RVH, RA enlargement
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Left Bundle Branch Block
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Left Bundle Branch Block
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Right Bundle Branch Block
Tehran Arrhythmia Center
RBBB
Tehran Arrhythmia Center
RBBB, RAD (Bifascicular Block)
Tehran Arrhythmia Center
RBBB, LAD (Bifascicular Block)
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Myocardial Ischemia
• ECG is the cornerstone in the diagnosis of
myocardial ischemia
• Findings depend on several factors:
–
–
–
–
–
Nature of the process, reversible vs. irreversible
Duration, acute vs. chronic
Extent, transmural vs. subendocardial
Localization, anterior vs. inferoposterior
Other underlying abnormalities
Tehran Arrhythmia Center
Acute Ischemia
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Myocardial Infarction
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Acute Pericarditis
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Metabolic Abnormalities
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Hyperkalemia
K 6.9
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Same
patient
K 3.9
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Hypothermia, Osborn Wave
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Hypothermia, Corrected
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Right Axis Deviation
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Superior P Wave Axis
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Normal Sinus Rhythm
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Anterior MI
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RBBB and Inferior MI
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LA Enlargement and Prolonged
PR Interval
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Center
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LBBB
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Center
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LA Enlargement and Prolonged
PR Interval
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Center
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Left Anterior Hemiblock
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Center
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LVH and LA Enlargement
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Center
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Anterior MI
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Center
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Old Inferior MI
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Center
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RA Enlargement
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Center
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RBBB, LAH, Prolonged PR
(Trifascicular Block)
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Center
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RBBB and Inferior MI
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Center
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Cardiac Arrhythmias
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Normal Pathway of Electrical Conduction
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Normal Sinus Rhythm
• Normal and constant P wave contours
• Normal P wave axis
• Rate between 60 and 100 bpm
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Normal Sinus Rhythm
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Anatomical Aspects of Normal
Sinus Node
• Located at the superior anterolateral portion
of right atrium near its border with the
superior vena cava
• It is an epicardial structure near sulcus
terminalis
• From endocardial approach the closest
approach is near the superior end of crista
terminalis
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Sinus Node Function
•
•
•
•
•
The dominant cardiac pacemaker
Highly responsive to autonomic influences
Decreasing rate with vagal stimulation
Increasing rate with sympathetic activity
Normal sinus rate under basal conditions is
60-100 bpm.
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Sinus Tachycardia
• Sinus rhythm exceeding 100 bpm in adults
• Usually between 100 and 180 bpm but may
be higher with extreme exertion
• Maximum heart arte decreases wit age from
near 200 bpm to less than 140 bpm
• Gradual onset and termination
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Sinus Tachycardia
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Sinus Tachycardia
Causes
• Common in infancy and childhood
• Normal response to a variety of physiological and
pathological stresses
–
–
–
–
–
–
Exertion, anxiety
Hypovolemia, anemia
Fever
Congestive heart failure
Myocardial ischemia
Thyrotoxicosis
• Drugs
• Inflammation
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Sinus Bradycardia
• Sinus rhythm at a rate less than 60 bpm
• Can result from excessive vagal or
decreased sympathetic tone as well as
anatomic changes in sinus node
• Frequently occurs in healthy young adults,
particularly well-trained athletes
• Sinus arrhythmia often coexists
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Sinus Bradycardia
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Sinus Bradycardia
Causes
•
•
•
•
•
•
•
•
Hypothyroidism
Drugs
During vomiting or vasovagal syncope
Increased intracranial pressure
Hypoxia, hypothermia
Infections
Depression
Jaundice
Tehran Arrhythmia Center
Sinus Arrhythmia
• Phasic variation in sinus cycle length
• Maximum minus minimum sinus cycle
length exceeds 120 msec.
• May be considered the most common form
of arrhythmia
• Respiratory form is a normal event
• Common in the young esp. with slower
heart rates or enhanced vagal tone
Tehran Arrhythmia Center
Sinus Arrhythmia
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Wandering Pacemaker
• Passive transfer of dominant pacemaker
focus from sinus node to latent pacemakers
in other atrial sites or AV junctional tissue
• Occurs in a gradual fashion over the
duration of several beats
Tehran Arrhythmia Center
Wandering Pacemaker
ECG
• A cyclical increase in RR interval
• A PR interval that gradually shortens to less
than 120 msec
• A change in P wave contour that becomes
negative in lead I or II or is lost within the
QRS
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Wandering Pacemaker
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Inappropriate Sinus Tachycardia
• Persistent sinus tachycardia at rest or with
minimal exertion
• Usually occurs in otherwise healthy people
• More common in health care personnel
• May result from a defect in either
sympathetic or vagal nerve control of sinus
node automaticity or an abnormality of
intrinsic heart rate
• Some cases may need radiofrequency
ablation of sinus node
Tehran Arrhythmia Center
Sinus Node Dysfunction
Mechanisms
• A disease affecting a limited amount of
tissue at or near the sinus node causing
dysfunction of impulse formation or
propagation or recovery from overdrive
suppression
• A disease affecting the atria in general that
consequently affects the sinus node function
and also frequently generates atrial
arrhythmias
Tehran Arrhythmia Center
Sinus Node Dysfunction
ECG Manifestations
•
•
•
•
•
Sinus bradycardia
Sinus pauses
Sinus arrest
Atrial asystole
Sinus exit block
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Sinus Pause
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Sinoatrial Exit Block
1st and 2nd degree
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Sinus Node Dysfunction
Etiology
• Most often in elderly as an isolated
phenomenon
• Drugs
• Infiltration of atrial myocardium
• Interruption of blood supply
• Hypothyroidism, advanced liver disease,
severe hypoxia, acidemia …
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High Vagal Tone
•
•
•
•
Usually in the young
Normal heart rate response during exercise
Normal intrinsic heart rate
Bradycardia may be severe enough to cause
syncope (especially in familial form)
Tehran Arrhythmia Center
Sick Sinus Syndrome
• A combination of symptoms (dizziness,
fatigue, confusion, syncope and congestive
heart failure) caused by sinus node dysfunction
• Atrial tachyarrhythmias may accompany
sinus node dysfunction
<bradycardia-tachycardia syndrome>
Tehran Arrhythmia Center
Sick Sinus Syndrome
Clinical Manifestations
• Predominantly seen in the elderly
• Most patients with sinus node dysfunction
are asymptomatic
• Two types of presentations
– Syncope or near-syncope
– Fatigue or worsening heart failure
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Sick Sinus Syndrome
Diagnosis
•
•
•
•
Holter monitor recordings
Intrinsic heart rate by autonomic blockade
Sinus node recovery time
Sinoatrial conduction time
The most important step is to correlate symptoms
with ECG findings.
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Normal SNRT
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Abnormal SNRT
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SA Block during Overdrive Pacing
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Sinus Arrest after Termination of AF
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Loop Recorder Showed Junctional
Rhythm during Syncope
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Sinus arrest with syncope
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Therapy for Sick Sinus Syndrome
• Based mostly on symptoms and any clinical
documentation of cardiac arrhythmia
associated with these symptoms
• Drug therapy is rather limited
• Most effective treatment is pacing therapy
• Anticoagulation in certain situation
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Heart Block
•
•
•
•
Disturbance of impulse conduction
Transient or permanent
Due to anatomical or functional impairment
Must be distinguished from interference, a
normal phenomenon that is a disturbance of
impulse conduction caused by physiological
refractoriness due to inexcitability from a
preceding impulse
Tehran Arrhythmia Center
AV Conduction Disturbances
Clinical Significance
• Heart block may be asymptomatic or lead to
syncope or cardiac arrest
• Clinical significance of conduction
abnormalities depend on:
– The site of disturbance
– The risk of progression to complete block
– The probability that a subsidiary escape rhythm
distal to the site of block develops and is stable
Tehran Arrhythmia Center
AV Block
Types
• First degree AV block
• Second degree AV block
– Mobitz type I (Wenckebach)
– Mobitz type II
• Third degree block (Complete heart block)
• High degree (advanced) AV block
Tehran Arrhythmia Center
First Degree AV Block
• Conduction time is prolonged but
all impulses are conducted.
• PR interval exceeds 0.2 sec in
adults
• Site of conduction delay may be
in the AV node (most
commonly), in the His-Purkinje
system or both.
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First Degree AV Block
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Second Degree AV Block
• Block of some atrial impulses at a time
when physiological interference is not
involved
• Non-conducted P waves can be infrequent
or frequent, at regular or irregular intervals,
and can be preceded by fixed or lengthening
PR intervals.
• The association of P with QRS is not
random.
Tehran Arrhythmia Center
Mobitz Type I Second Degree AV
Block
• Also called Wenckebach block
• Typical type characterized by progressive
PR prolongation culminating in a nonconducted P wave
• Narrow QRS in most cases
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WB
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Wenckebach Block
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Wenckebach Block
• Atypical pattern in over half the cases
• The site of block is almost always in the AV
node.
• Generally benign and does not advance to
more advanced AV block
• Can occur in normal children and welltrained athletes
Tehran Arrhythmia Center
Mobitz Type II Second Degree
AV Block
• PR interval remains constant prior to the
blocked P wave
• Commonly associated with bundle branch
blocks
Tehran Arrhythmia Center
Mobitz Type II Second Degree
AV Block
Tehran Arrhythmia Center
Mobitz Type II Second Degree
AV Block
Tehran Arrhythmia Center
Mobitz Type II Second Degree
AV Block
• Site of block His-Purkinje system in most
case
• Often antedates the development of AdamsStokes syncope and complete AV block
• Never observed in normal people
• An indication for implantation of permanent
pacemaker even in asymptomatic cases
Tehran Arrhythmia Center
2:1 AV Block
Tehran Arrhythmia Center
2:1 AV Block
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2:1 AV block
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Complete AV block
• No atrial activity conducts to the ventricles
• AV dissociation is present. The atria and
ventricles are controlled by independent
pacemakers.
• Ventricular focus is usually located just
below the site of block.
• Higher sites are more stable with a more
faster escape rate.
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Complete AV block
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Complete AV block
Isorhythmic AV Dissociation
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Advanced AV block
Block in two or more consecutive P waves
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AV Conduction Disturbances
Etiology
• Degenerative diseases are the most common
causes
• A variety of other diseases may be
responsible: myocardial infarction, drugs,
acute infections, infiltrative diseases,
neoplasms, etc.
• Hypervagotonia
Tehran Arrhythmia Center
Investigation of the
Site of AV
Conduction
Disease by
Electrophysiologic
Study (EPS)
Tehran Arrhythmia Center
Cardiac Pacemakers
• The treatment of symptomatic
bradyarrhythmias is implantation of cardiac
pacemakers.
Tehran Arrhythmia Center
Cardiac Pacing
Tehran Arrhythmia Center
First Implanted Pacemaker
Tehran Arrhythmia Center
Common Uses for Permanent
Pacemaker Therapy
Tehran Arrhythmia Center
AV Block With Carotid Massage
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Long Asystole
Tehran Arrhythmia Center
Sinus Pause
and
Junctional
Escape
Beats
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Sinus Pause
and Junctional Escape Beats
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Center
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BradycardiaTachycardia
Syndrome
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Mobitz Type I (Wenckebach)
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2:1 AV block
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Center
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Complete Heart Block
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Center
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Sinus Pause
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Center
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Sinus Arrhythmia
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Center
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Sinus Tachycardia
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Center
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Wandering Pacemaker
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Center
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Sinus Tachycardia
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Wandering Pacemaker
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Asystole and Junctional Escape
Rhythm
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Tachyarrhythmias
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Tachyarrhythmias
Mechanisms
Automaticity
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Tachyarrhythmias
Mechanisms
Triggered activity
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Tachyarrhythmias
Mechanisms
Reentry
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Premature
Complexes
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Ventricular Premature Complexes
Compensatory
Pause
Interpolated VPC
Tehran Arrhythmia Center
Premature Complexes
• The most common arrhythmias
• Detected during 24h Holter monitoring in
over 60% of adults
• May cause palpitations or be asymptomatic
• May trigger more serious tachyarrhythmias
• May be associated with a normal heart or a
variety of cardiac disturbances
Tehran Arrhythmia Center
Variability of Ventricular Ectopy with Age
• Effect of age on
probability (%) of
having more than a
given number of
PVCs per 24 hours
in subjects with
normal hearts.
60%
50%
> 0 PVCs
> 50 PVCs
> 100 PVCs
40%
30%
20%
10%
0%
10-29 30-39 40-49 50-59 60-69
Data from Kostis JB. Circulation.
1981;63(6):1353.
Age
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Ventricular Premature Complexes
• Without heart disease, PVCs have not been
shown to be associated with any increased
incidence in morbidity or mortality
• In the presence of underlying disease
(ischemia, heart failure …) they may add to
the risk of the disease. No treatment is,
however, shown to definitely decrease this
increased risk.
Tehran Arrhythmia Center
Atrial Fibrillation
•
•
•
•
•
The most common sustained arrhythmia
Incidence increases progressively with age.
Prevalence: 0.4% of overall population
Mortality rate double that of control
AF is characterized by disorganized atrial
activity without discrete P waves
Tehran Arrhythmia Center
Atrial
Fibrillation
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Atrial Fibrillation
• Undulating baseline or atrial deflections of
varying amplitude and frequency ranging
from 350 to 600 bpm.
• Irregularly irregular ventricular response.
Tehran Arrhythmia Center
Atrial Fibrillation
• Morbidity related to:
–
–
–
–
–
–
Excessive ventricular rate
Pause following cessation of AF
Systemic embolization
Loss of atrial kick
Anxiety secondary to palpitations
Irregular ventricular rate
Tehran Arrhythmia Center
Atrial Fibrillation
• Persistent AF usually in patients with
cardiovascular disease
– Valvular heart disease
– Hypertensive heart disease
– Congenital heart disease
• Paroxysmal AF may occur with acute hypoxia,
hypercapnia or metabolic or hemodynamic
derangements
• Normal people with emotional stress or surgery or
acute alcoholic intoxication
• Lone AF
Tehran Arrhythmia Center
Atrial Fibrillation
• Therapeutic Goals:
– Control of ventricular rate
– Restoration and maintenance of sinus rhythm
– Prevention of thromboembolism
Tehran Arrhythmia Center
Atrial Flutter
• Regular atrial tachyarrhythmia with atrial
rate between 250-350 bpm.
• Flutter waves are seen as saw-tooth like
atrial activity
Tehran Arrhythmia Center
Atrial Flutter
• Atrial Flutter is a form of atrial reentry
localized to right atrium.
• Typically the ventricular rate is half the
atrial rate, but the ventricular response may
be 4:1, 2:1, 1:1 etc.
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Atrial Flutter Circuit
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Atrial Flutter
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Atrial Flutter
• Most often in patients with organic heart
disease
• Usually less long-lived than AF and may
convert to AF.
• Control of ventricular rate is difficult in
atrial flutter
• The most effective treatment is DC
cardioversion
Tehran Arrhythmia Center
Paroxysmal Supraventricular
Tachycardia (PSVT)
• Usually at a rate of 150-250 bpm
• No organic heart disease in the majority
• Presentations
– Palpitations
– Chest discomfort,dyspnea, lightheadedness
– Frank syncope
– SCD
Tehran Arrhythmia Center
PSVT
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PSVT
Mechanism
• Reentry in the vast majority
• Reentry may be localized to sinus node,
atrium, AV junction or a macroreentrant
circuit involving a bypass tract (WPW)
• In the absence of WPW, more than 90% are
due to reentry through AV node or a
concealed bypass tract
Tehran Arrhythmia Center
AV Nodal Reentrant Tachycardia
(AVNRT)
• The most common form of paroxysmal
supraventricular tachycardia (about 70%)
• More common in women (66%)
• Usually a regular narrow QRS complex
tachycardia
• No P wave is usually evident during the
tachycardia. Retrograde P waves may
occasionally be seen at the end of QRS.
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Longitudinal Dissociation Within
AV Node
Atrium
Slow
Pathway
Fast
Pathway
His Bundle
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AVNRT
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AVNRT
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Preexcitation
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Wolff-Parkinson-White Syndrome
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AV Reentrant Tachycardia
(AVRT)
• Incorporates a bypass tract as part of the
tachycardia circuit.
• Surface ECG:
– Manifest with short PR interval and delta wave
(preexcitation)
– Concealed with normal ECG
• Prevalence of ECG pattern: 0.1% to 0.3%.
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AVRT
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Concealed Accessory Pathway
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Center
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PSVT
Treatment
• Vagal maneuvers particularly carotid sinus
massage
• AV nodal blocking drugs
–
–
–
–
Adenosine
Verapamil
Propranolol
Digoxin
• DC cardioversion if hypotensive
• Radiofrequency ablation
Tehran Arrhythmia Center
Electrophysiologic Study (EPS)
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Catheter Positions at Fluoroscopy
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Intracardiac Recordings
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Radiofrequency Ablation (RFA)
Through
femoral vein
and right
atrium
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Loss of Delta during RF Burn
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Loss of Delta during Burn
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Ventricular Arrhythmias
Definitions
• Premature Ventricular beats
– Single beats
– Ventricular Bigeminy, the appearance of one PVC after each sinus
beat
– Couplets, two consecutive premature beats
– Triplets, three consecutive premature beats
– Salvos, runs of 3-10 premature beats
• Accelerated Idioventricular Rhythm (Slow VT), rate 60100 bpm
• Ventricular Tachycardia (VT), rate over 100 bpm
• Ventricular Flutter, regular large oscillations at a rate of
150-300 bpm
• Ventricular Fibrillation (VF), irregular undulations of
varying contour and amplitude
Tehran Arrhythmia Center
Ventricular Tachycardia
Classification
• Duration
– Sustained VT defined as VT that persists for than 30 s
or requires termination because of hemodynamic
collapse
– Nonsustained VT, 3 beats to 30 s
• Morphology
– Monomorphic
– Polymorphic
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Salvos
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Sustained Monomorphic VT
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Sustained Polymorphic VT
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VT, Holter Recording
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VT
Presentations
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VT Etiology
• VT generally accompanies some form of
structural heart disease most commonly:
– Ischemic heart disease
– Cardiomyopathies
• Primary electrical abnormalities
– Long QT syndromes
– Brugada syndrome
• Idiopathic VT
Tehran Arrhythmia Center
Electrocardiographic Differentiation of
VT vs. SVT with Aberrancy
•
•
•
•
•
•
Clinical history
AV dissociation
QRS morphology
QRS axis
Fusion beat
Capture beat
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A-V Dissociation, Fusion, and
Capture Beats in VT
V1
E
ECTOPY
F
C
FUSION
CAPTURE
Fisch C. Electrocardiography of Arrhythmias. 1990;134.
Tehran Arrhythmia Center
Fusion and Capture Beats in VT
F
C
C
C
C
Fisch C. Electrocardiography of Arrhythmias. 1990;135.
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VT
Prognosis
• Depends on the underlying disease state
– 75% first year mortality in the first few weeks
after MI
– Poor prognosis in patients with left ventricular
dysfunction
– No increased risk in those with idiopathic VT
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Ventricular Fibrillation
Tehran Arrhythmia Center
Sudden Death Syndrome
• Incidence
– 400,000 - 500,000/year in U.S.
– Only 2% - 15% reach the
hospital
– Half of these die before
discharge
• High recurrence rate
Tehran Arrhythmia Center
Underlying Arrhythmia of Sudden
Death
Primary
VF
8% Torsades
de Pointes
13%
VT
62%
Bradycardia
17%
Adapted from Bayés de Luna A. Am Heart J. 1989;117:151-159.
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Snapshot of Death
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Return of Life
Not the usual case !
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Arrhythmia
Center
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Arrhythmia
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Clinical Substrates Associated with
VF Arrest
•
•
•
•
•
•
Coronary artery disease
Idiopathic cardiomyopathy
Hypertrophic cardiomyopathy
Long QT syndrome
RV dysplasia
Rarely: WPW syndrome
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VT/VF
Therapeutic Options
•
•
•
•
Antiarrhythmic drugs
Anti-tachycardia pacing
Radiofrequency ablation
Implantable defibrillators
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Earliest
Defibrillator
in Clinical
Use, 1899
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First Implantable Defibrillator
1970
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Thoracotomy
Lead System,
the technique
used at the
beginning
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Nonthoracotomy Lead System
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Pectoral Implantation
The Current Technique
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Tiered Therapy Defibrillators
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Defibrillator Function
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Interrogated ICD Event
VT, treated appropriately by burst pacing therapy
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Interrogated ICD Event
VT (CL 320ms), no response to burst pacing
therapy
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Interrogated ICD Event
VT (CL 320ms), cardioverted by DC shock
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Clinical Uses of Defibrillator
Therapy
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Congenital Long QT Syndrome
A Frequently Missed Diagnosis
Long QT Interval
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Long QT Interval
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Long QT Interval
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Clinical Manifestations
• Long QT syndrome is characterized by the
presence of a long QT interval (usually over 440
ms) and emergence of ventricular arrhythmias.
• The presenting arrhythmia is a polymorphic
ventricular tachycardia called ‘Torsade de
Pointes’.
• Patient present with recurrent syncope or sudden
cardiac death.
• Early diagnosis by ‘looking at ECG’ is critical!
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Torsade de Pointes
• Prolonged QT interval associated with a
polymorphic VT characterized by QRS
complexes that change in amplitude and
cycle length, giving the appearance of
oscillations around the baseline
• Congenital or acquired
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Brugada Syndrome
Definition
• Clinical-electrocardiographic diagnosis
based on:
- High incidence of sudden cardiac
death
- Structurally normal heart
- Characteristic ECG pattern
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ECG Abnormalities
• ST segment
elevation in V1-V3
• QRS complex
resembling RBBB
• J-point elevation
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Brugada ECG Pattern
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Brugada ECG Pattern
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History
• First time in 1986: a 3-year polish boy
• First presentation at NASPE meeting in
1991
• First paper by Pedro and Josep Brugada in
1992
• In the Philippines as “ bangungut”
• In Japan as “Pokkuri”
• In Thailand as “ Lai tai”, SUDS Circ. 1997
• Thai men correlated to Brugada, SUNDS
Hum. Mol. Gen. 2002
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Brugada Syndrome
 Prevalence in men (8:1 ratio males: females)
 Familial incidence (autosomal dominant with incomplete
penetrance ranging between 5 and 66 per 10 000)
 True prevalence is difficult to estimate as the ECG pattern is
often concealed.
 It is endemic in Southeast Asia including: Thailand, Japan,
Laos, Cambodia, Vietnam, the Philippines, and China.
 Appearance of arrhythmic events at an average age of 40
years
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Clinical Manifestations
 Sudden cardiac death
 Syncope, seizure, agonal respiration,
 Episodes at night during sleep with labored
respiration, agitation, loss of urinary control,
recent memory loss
 Most commonly occurs during sleep, in particular
during the early morning hours
 Early diagnosis is of utmost importance
 The only treatment is currently implantation of an
‘Implantable Cardioverter Defibrillator’.
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