ARRHYTHMIA - WHAT YOU NEED TO KNOW FOR ACLS.
SMSRAZA
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36 slides
Sep 09, 2013
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About This Presentation
Common arrhythmia that one would encounter in cardiac arrest situation.
Slide Content
Arrhythmia : What you need to
know for ACLS?
Syed Raza
know for ACLS?
Syed Raza
Introduction
•Rhythm recognition is a key skill that one
needs to demonstrate during cardiac arrest
situation.
•This can be life saving.
•Early defibrillation
•Decision making on the right therapy
•Rhythm recognition is a key skill that one
needs to demonstrate during cardiac arrest
situation.
•This can be life saving.
•Early defibrillation
•Decision making on the right therapy
Lets Keep it Simple!
•Pulseless Rhythms
•Tachyarrhythmias
•Bradyarrhythmias
•Pulseless Rhythms
•Tachyarrhythmias
•Bradyarrhythmias
Pulse less Electrical Rhythm
Ventricular Fibrillation
•Uncoordinated contractions within the
ventricles of heart.
•Due to multiple cardiac cells that function as
pacemakers and discharge electrical impulses
in a chaotic manner.
•Reduced / No cardiac output : No pulse
•Will result in Asystole if not treated.
•Uncoordinated contractions within the
ventricles of heart.
•Due to multiple cardiac cells that function as
pacemakers and discharge electrical impulses
in a chaotic manner.
•Reduced / No cardiac output : No pulse
•Will result in Asystole if not treated.
•Commonest cause : Hypoxia /Ischemia
•Types : Fine and Coarse
•Types : Fine and Coarse
Therapy
Immediate Defibrillation
CPR
I/V Amiodarone after 3 shocks
Immediate Defibrillation
CPR
I/V Amiodarone after 3 shocks
Ventricular Tachycardia
•Broad Complex Tachycardia (QRS > 0.12s)
•Heart rate > 180 beats /mt
•Mono-morphic
•Poly-morphic / Torsade Pointe
•Pulse less vs with pulse
•Broad Complex Tachycardia (QRS > 0.12s)
•Heart rate > 180 beats /mt
•Mono-morphic
•Poly-morphic / Torsade Pointe
•Pulse less vs with pulse
Mono morphic VT
Poly morphic VT
• Torsade Pointes if Prolonged QT interval on
previous ECG
• Torsade Pointes if Prolonged QT interval on
previous ECG
Treatment
•Pulseless : Defibrillation
•With pulse : stable = Amiodarone
Unstable = DC Cardio version
•Pulseless : Defibrillation
•With pulse : stable = Amiodarone
Unstable = DC Cardio version
No Pulse !
Pulse Less Electrical Activity (PEA)
•Organized electrical activity but without a
pulse
•Usually has underlying treatable cause
•Hypovolumea and Hypoxia are the
commonest causes.
•If no underlying cause is identified, it will be
treated same as Asystole.
•Organized electrical activity but without a
pulse
•Usually has underlying treatable cause
•Hypovolumea and Hypoxia are the
commonest causes.
•If no underlying cause is identified, it will be
treated same as Asystole.
5 Hs and 5 Ts
5 Hs
Hypovolumia
Hypoxia
Hydrogen Ion (Acidosis)
Hyperkalemia
Hypokalemia
Hypoglycemia
5 Hs
Hypovolumia
Hypoxia
Hydrogen Ion (Acidosis)
Hyperkalemia
Hypokalemia
Hypoglycemia
5Ts
Toxins
Tension Pneumothorax
Tamponade
Thrombosis : Coronary
Thrombosis : Pulmonary
Trauma
Toxins
Tension Pneumothorax
Tamponade
Thrombosis : Coronary
Thrombosis : Pulmonary
Trauma
ASYSTOLE
Follow flat line protocol – check leads and gain
Not a true rhythm
State of no electrical activity
Terminal event
Very poor prognosis : ROSC extremely unlikely
Possible underlying cause : 5Hs and 5Ts
Treatment : CPR and Epinephrine
Follow flat line protocol – check leads and gain
Not a true rhythm
State of no electrical activity
Terminal event
Very poor prognosis : ROSC extremely unlikely
Possible underlying cause : 5Hs and 5Ts
Treatment : CPR and Epinephrine
First Degree AV Block
•PR interval is prolonged > 200ms
•No clinical significance if asymptomatic
•May lead to higher degree AV Block
•No clinical significance if asymptomatic
•May lead to higher degree AV Block
Second Degree AV Block
Mobitz Type 1
•Progressive prolongation of PR interval.
•Atrial impulse (P waves) may not be conducted
through AVN and gets blocked and hence no
QRS.
•No clinical significance unless symptomatic.
Mobitz Type 2
•Non prolongation and fixed PR interval.
•Non conducted p waves
•No ventricular activity -Drop beats / No QRS
Most times Infranodal
•Progressive prolongation of PR interval.
•Atrial impulse (P waves) may not be conducted
through AVN and gets blocked and hence no
QRS.
•No clinical significance unless symptomatic.
Mobitz Type 2
•Non prolongation and fixed PR interval.
•Non conducted p waves
•No ventricular activity -Drop beats / No QRS
Most times Infranodal
Third Degree AV Block (CHB)
P waves with a regular pp interval
QRS complexes with a regular RR interval
QRS complex may be narrow or wide (escape
rhythm)
No relationship between P waves and QRS
complexes.
QRS complexes with a regular RR interval
QRS complex may be narrow or wide (escape
rhythm)
No relationship between P waves and QRS
complexes.
Treatment
•Trans cutaneous or Trans Venous pacemaker
•Atropine (0.5 mg) may be tried
Epinephrine 0.5 -1 mg /kg bw
•Trans cutaneous or Trans Venous pacemaker
•Atropine (0.5 mg) may be tried
Epinephrine 0.5 -1 mg /kg bw
Atrial Fbrillation
•No p waves preceding QRS complexes as no
coordinated atrial contractility
•Irregular (variable) RR intervals
•No p waves preceding QRS complexes as no
coordinated atrial contractility
•Irregular (variable) RR intervals
Treatment
•Unstable : Synchronized DC Cardio version
•Stable : Rhythm Control vs Rate Control
• Rhythm : Amiodarone, Sotalol, Flecainide
•Rate control : Beta blocker, Calcium channel
blocker, Digoxin.
•Anticoagulant if indicated.
•Unstable : Synchronized DC Cardio version
•Stable : Rhythm Control vs Rate Control
• Rhythm : Amiodarone, Sotalol, Flecainide
•Rate control : Beta blocker, Calcium channel
blocker, Digoxin.
•Anticoagulant if indicated.
Atrial Flutter
•Atrial rate 250 – 350 /mt
•Saw Tooth Appearance
•Ventricular rate depends on Degree of AV
block
•Electrical foci usually in RA
•Atrial rate 250 – 350 /mt
•Saw Tooth Appearance
•Ventricular rate depends on Degree of AV
block
•Electrical foci usually in RA
Treatment
•Rate Control
•Rhythm Control
•Anti coagulant
•DCC if unstable
•Rate Control
•Rhythm Control
•Anti coagulant
•DCC if unstable
Supra Ventricular Tachycardia
•Broad term for various supra ventricular
arrhythmia
•Electrical impulses above the ventricular
electrical conducting system.
•Inverted p waves preceding or following qrs
complexes.
•Review old ECG – exclude WPW
•Broad term for various supra ventricular
arrhythmia
•Electrical impulses above the ventricular
electrical conducting system.
•Inverted p waves preceding or following qrs
complexes.
•Review old ECG – exclude WPW
Treatment
Vagal maneuver
Adenosine
•Drugs – Chemical Cardio version or Rate
control.
• Anti coagulant.
•If unstable : sync. DCC
Vagal maneuver
Adenosine
•Drugs – Chemical Cardio version or Rate
control.
• Anti coagulant.
•If unstable : sync. DCC
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