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Ventricular arrhythmia

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... ectopic pacemaker: 30-40 beat/minute prevent ventricular standstill or asystole ... formula to what it would be if the heart rate was 60 beats per minute (bpm) ... – PowerPoint PPT presentation

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Title: Ventricular arrhythmia


1
Ventricular arrhythmia

2
Ventricular arrhythmia
  • Wider QRS complex / opposite direction of T and
    QRS / absent P.
  • ?30 cardiac output
  • Premature ventricular contraction
  • Idioventricular rhythm
  • Ventricular tachycardia
  • Torsades De Pointes
  • Ventricular fibrillation
  • Asystole

3
Premature ventricular contraction
  • Ectopic beat originate in the ventricles and
    earlier than expected
  • herald the development of lethal ventriular
    arrhythmia(VT, VF)
  • Uniform single ectopic ventricular pacemaker
    site
  • Multiform single pacemaker but having different
    QRS complex(size, shape or direction)
  • Unifocal from the same ventricular ectopic
    pacemaker
  • Multiple focal different ectopic pacemaker sites
  • Cause enhanced automaticity in the ventricular
    conduction or muscle tissue
  • Electrolyte imbalance(K?or?, Mg ?, Ca ?)
  • Metabolic acidosis
  • Hypoxia
  • Drug intoxication(coccaine, amphetamines,
    tricyclic antidepressants)
  • Enlargement or hypertrophy of ventricular chamber
  • Increased sympathetic stimulation
  • Myocarditis
  • Caffeine or alcohol ingestion
  • Tobacco use
  • Irritation of ventricles by pacemaker or
    pulmonary artery catheter
  • Sympathomimetic drug(epi, isoproterenol)

4
EKG
  • Opposite T wave
  • R-on-T phenomenona PVC strikes on the down slope
    of the preceding normal T wave
  • Followed by a compensatory pause
  • How often? Pattern? Really PVC?
  • Absent p wave or after QRS complex
  • Earlier QRS and durationgt0.12 sec with bizarre
    and wide configuration,

5
  • R-on-T phenomenona PVC strikes on the down slope
    of the preceding normal T wave

6
S/S and intervention
  • Sign and symptoms
  • A weaker pulse after the premature beat and a
    longer pause between pulse waves
  • Auscultation early heart sound with each PVC
  • Maybe asymptomatic or palpitation or other S/S
    due to decrease of cardiac output
  • Intervention
  • A cardiac origindrug to suppress ventricular
    irritability( procainamide, amiodarone and
    lidocaine)
  • Recently PVC underlying heart disease or complex
    medical condition
  • Chronic PVC frequent PVC or dangerous pattern

7
Idioventricular rhythm
  • Ventricular escape rhythm, originates in an
    escape pacemaker site
  • Inherent firing rate of ectopic pacemaker 30-40
    beat/minute?prevent ventricular standstill or
    asystole
  • lt3 QRS complex from the escape pacemaker ? called
    ventricular escape beats or complex
  • Accelerated idioventricular rhythm(AIVR) HRlt100
    beat/min but gt 30-40 beat/min? related to
    enhanced automaticity of ventricular tissue.
  • DDx
  • AIVR 100 gt AIVR gt 30-40 beat/min
  • Idioventricular rhythm 30-40 beat/min

8
Cause and significance
  • When all of the hearts higher pacemakers fail to
    function or supraventricular impulse was blocked
  • Idioventricular rhythm may accompany 3rd-degree
    heart block
  • Cause
  • Myocardial ischemia
  • Myocardial infarction(MI)
  • Digoxin toxicity, beta-adrenergic blockers,
    calcium antagonist, tricyclic antidepressant
  • Pacemaker failure
  • Metabolic imbalances
  • Transient ventricular escape rhythm
    ?parasympathetic effect on higher pacemaker site
  • Continuous idioventricular rhythm serious
    situation
  • Slow rate and loss of atrial kick? ?cardiac
    output? death

9
EKG
  • Ventricular rate 20-40 beat/min
  • QRS complex longer duration than 0.12 sec, wide
    and bizarre configuration
  • T wave opposite to last part of QRS
  • Prolonged QT interval
  • Often occurs with 3rd-degree AV block
  • Absent P

10
S/S and intervention
  • Continuous idioventricular rhythm due to
    ?cardiac output? dizziness, light-headedness,
    syncope or loss of consiousness
  • Tx increase HR, improve cardiac output and
    establish normal rhythm
  • Atropine increase HR
  • If hypotension or clinical instability? pacemaker
  • Transcutaneous pacemaker in an emergency
  • Not to suppress the idioventricular rhythm?
    never use lidocaine or other antiarrhythmia to
    suppress the escape beat
  • ECG monitor until restore hemodymamic stability
  • Bed rest
  • Education

11
AIVR 100 gt AIVR gt 30-40 beat/minIdioventricular
rhythm 30-40 beat/min
12
Ventricular tachycardia
  • VT? V-tach?three or more PVC strike in a row and
    the ventricular rate gt100 beat/min
  • Usually precedes ventricular fibrillation and
    sudden cardiac death.
  • lt30 sec? few or no symptoms
  • Sustained? immediate Tx to maintain cardiac
    output
  • Cause
  • Myocardial ischemia
  • MI
  • Coronary artery disease
  • Valvular heart disease
  • Heart failure
  • Cardiomyopathy
  • Electrolyte imbalance(?K)
  • Drug intoxication procainamide, quinidine or
    cocaine
  • ?ventricular refilling time and drop of cardiac
    output? carcdiovascular collapse

13
ECG
  • Rhythm ventricular rate 100250 beat/min
  • Absent P wave or obscured or retrograde
  • QRS duration gt 0.12 sec, bizarre and increased
    amplitude
  • Opposite T wave if visible
  • Two variation
  • Ventricular flutter
  • Torsades de pointes(polymorphic VT)

14
S/S and intervention
  • Weak or absent pulses
  • Low cardiac output? hypotension, conscious
    change, angina, heart failure or organ perfusion?
  • Intervention
  • Evaluation of consciousness, respiration and
    circulation
  • If pulseless? immediate defibrillation
  • Unstable Pt ventricular rate gt 150 beat/min
    with S/S hypotension, SOB, chest pain or
    alternated consciousness? immediate synchronized
    cardioversion
  • Stable Pt with wide-complex VT and no signs of
    heart failure
  • Monomorphic
  • Polymorphic
  • Chronic, recurrent episodes of VT unresponsive to
    drug therapy? implantation cardioversion-defibrill
    ator (ICD)
  • Education

15
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16
Torsades De Pointes
  • Rapid ventricular rate 250350 beat/min
  • Character QRS complex change back and forth,
    with amplitude of each successive complex
    gradually increasing and decreasing
  • DDx ventricular flutter rapid, regular,
    repetitive beating of ventricle? single
    ventricular focus firing at a rapid rate of
    250350 beat/min? smooth and sine-waveappearance

17
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18
Torsades De Pointes
  • French term meaning "twisting of the points
  • torsade de pointes occurs in the setting of
    delayed ventricular repolarization, evidenced by
    prolongation of the QT intervals or the presence
    of prominent U waves.
  • Drugs
  • Quinidine and related antiarrhythmic agents
    (disopyramide and procainamide),
  • Sotalol, amiodarone (less commonly),
  • Psychotropic agents (phenothiazines and tricyclic
    antidepressants)
  • Terfenadine, and others
  • Electrolyte imbalances, including hypokalemia,
    hypomagnesemia, and less commonly, hypocalcemia,
    which prolong repolarization
  • Miscellaneous factors such as severe
    bradyarrhythmias, liquid protein diets, and
    hereditary long-QT syndromes

From Goldberger Clinical Electrocardiography A
Simplified Approach, 6th ed.
19
Torsades De Pointes
  • This ventricular tachycardia is often caused by
    drugs conventionally recommended for the
    treatment of arrhythmias.
  • Tx
  • Removing or correcting causative factors such as
    drug toxicity, electrolyte imbalance, or
    underlying bradycardia.
  • In emergency settings a temporary pacemaker may
    be inserted to accomplish "overdrive" suppression
    of the arrhythmia by increasing the underlying
    heart rate and thereby decreasing ventricular
    repolarization time.
  • Intravenous magnesium sulfate has proved highly
    useful for suppressing this arrhythmia.
  • Drug therapy with isoproterenol or bretylium has
    been used in selected cases.
  • Sustained episodes of torsade de pointes?
    attempted cardioversion

20
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21
What is QTc?
  • The QT interval varies with the heart rate
  • Longer when the heart is beating slower and
    shorter when the heart beats faster
  • The QT interval is "corrected" through the use of
    a mathematical formula to what it would be if the
    heart rate was 60 beats per minute (bpm).
  • Many correction formulas have been proposed and
    tested however, the formulas most commonly in
    use are the Bazett, the Fridericia, and the
    Hodges correction formulas.
  • Bazett?(QTcQT/RR1/2).
  • Fridericia? QTcQT/RR0.33
  • Hodges? QT (QTc) QT 1.75 (rate - 60)
  • The Bazett Formula is usually programmed into the
    machine that measures your ECG and the QTc value
    is part of the information printed on the ECG.
  • For men the QTc lt 420 msec and for women the QTc
    lt 440 msec.
  • QTc values higher than normal are associated with
    increased risk of serious heart rhythm
    abnormalities (Torsades de Pointes).

22
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23
Ventricular fibrillation
  • VF?chaotic, disorganized pattern of electrical
    activity? multiple ectopic pacemaker? no cardiac
    output? sudden cardiac death
  • Cause
  • CAD
  • Myocardial ischemia
  • MI
  • Untreated VT
  • Underlying heart disease
  • Acid-base imbalance
  • Electric shock
  • Severe hypothermia
  • Drug toxicity (digoxin, quinidine and
    procainamide)
  • Electrolyte imbalance (??K, ?Ca)
  • Completely ineffective contraction, cardiac
    output0 ? ventricular standstill and death

24
ECG
  • Ventricular rhythm no pattern or regularity
  • P wave, QRS complex, PR interval, T wave cant
    be determined
  • Coarse fibrillatory wave greater chance of
    successful electrical cardioversion than small
    amplitude

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26
S/S and intervention
  • Full cardiac arrest, unresponsive, undetectable
    BP
  • Intervention
  • Access VF, confirm
  • Immediate defibrillation is the most effective Tx
  • CPR until defibrillator arrives
  • Drug epi or vasopressin (for persistent VF)
  • Antiarrhythmia agent amiodarone,lidocaine and Mg
  • AED- automated external defibrillator?
    out-of-hospital setting
  • Rapid recognition of the problem and
    defibrillation
  • Education, CPR

27
Asystole
  • AKA ventricular standstill
  • Result from a prolonged period of cardiac arrest
    without effective resuscitation
  • DDx with VF
  • Cause
  • Hypovolemia
  • MI(coronary thrombosis)
  • Severe electrolyte imbalance(??K)
  • Massive pulmonary embolism
  • Hypoxia
  • Drug overdose
  • Hypothermia
  • Cardiac tamponade
  • Tension pneumothorax
  • No electrical activity, no contraction? cardiac
    output0? no perfusion for vital organ

28
ECG
  • No electrical activity

29
Intervention
  • Immediate Tx CPR, oxygen and advanced airway
    control with intubation
  • Check more than one ECG lead to confirm asystole
  • IV Epi and atropine,vasopressin
  • Consider terminating resuscitation if persist
    asystole.

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31
From Surg Clin N Am 85 (2005) 11031114
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