cardiac assist devices
DESCRIPTION
Cardiac Assist Devices. Wayne E. Ellis, Ph.D., CRNA. Types. Pacemakers AICDs VADs. History. First pacemaker implanted in 1958 First ICD implanted in 1980 Greater than 500,000 patients in the US population have pacemakers 115,000 implanted each year. Pacemakers Today. - PowerPoint PPT PresentationTRANSCRIPT
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Cardiac Assist Devices
Wayne E. Ellis, Ph.D., CRNA
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Types
Pacemakers
AICDs
VADs
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History
First pacemaker implanted in 1958 First ICD implanted in 1980 Greater than 500,000 patients in the US
population have pacemakers 115,000 implanted each year
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Pacemakers Today Single or dual chamber Multiple programmable features Adaptive rate pacing Programmable lead configuration
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Internal Cardiac Defibrillators (ICD)
Transvenous leads Multiprogrammable Incorporate all capabilities of
contemporary pacemakers Storage capacity
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Temporary Pacing Indications Routes = Transvenous, transcutaneous,
esophageal
Unstable bradydysrhythmias Atrioventricular heart block Unstable tachydysrhythmias
*Endpoint reached after resolution of the problem or permanent pacemaker implantation
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Permanent Pacing Indications
Chronic AVHB Chronic Bifascicular and Trifascicular Block AVHB after Acute MI Sinus Node Dysfunction Hypersensitive Carotid Sinus and Neurally
Mediated Syndromes Miscellaneous Pacing Indications
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Chronic AVHB Especially if symptomatic
Pacemaker most commonly indicated for: Type 2 2º
Block occurs within or below the Bundle of His 3º Heart Block
No communication between atria and ventricles
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Chronic Bifascicular and Trifascicular Block
Differentiation between uni, bi, and trifascicular block
Syncope common in patients with bifascicular block
Intermittent 3º heart block common
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AVHB after Acute MI Incidence of high grade AVHB higher Indications for pacemaker related to
intraventricular conduction defects rather than symptoms
Prognosis related to extent of heart damage
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Sinus Node Dysfunction Sinus bradycardia, sinus pause or arrest, or
sinoatrial block, chronotropic incompetence Often associated with paroxysmal SVTs
(bradycardia-tachycardia syndrome) May result from drug therapy Symptomatic? Often the primary indication for a pacemaker
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Hypersensitive Carotid Sinus Syndrome
• Syncope or presyncope due to an exaggerated response to carotid sinus stimulation
• Defined as asystole greater than 3 sec due to sinus arrest or AVHB, an abrupt reduction of BP, or both
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Neurally Mediated Syncope
10-40% of patients with syncope Triggering of a neural reflex Use of pacemakers is controversial since
often bradycardia occurs after hypotension
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Miscellaneous Hypertrophic Obstructive
Cardiomyopathy Dilated cardiomyopathy Cardiac transplantation Termination and prevention of
tachydysrhythmias Pacing in children and adolescents
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Indications for ICDs Cardiac arrest due to VT/VF not due to a
transient or reversible cause Spontaneous sustained VT Syncope with hemodynamically significant
sustained VT or VF NSVT with CAD, previous MI, LV dysfunction
and inducible VF or VT not suppressed by a class 1 antidysrhythmic
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Device Selection Temporary pacing (invasive vs.
noninvasive) Permanent pacemaker ICD
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Pacemaker Characteristics
• Adaptive-rate pacemakers
•Single-pass lead Systems
• Programmable lead configuration
• Automatic Mode-Switching
• Unipolar vs. Bipolar electrode configuration
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ICD selection Antibradycardia pacing Antitachycardia pacing Synchronized or nonsynchronized shocks
for dysrhythmias Many of the other options incorporated
into pacemakers
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Approaches to Insertion
a. IV approach (endocardial lead)
b. Subcostal approach (epicardial or myocardial lead)
c. Noninvasive transcutaneous pacingAlternative to emergency transvenous pacing
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Mechanics
Provide the rhythm heart cannot produce
Either temporary or permanent
Consists of external or internal power
source and a lead to carry the current to
the heart muscle
Batteries provide the power source
Pacing lead is a coiled wire spring encased in silicone to insulate it from body fluids
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Unipolar Pacemaker
Lead has only one electrode that contacts the heart at its tip (+) pole
The power source is the (-) polePatient serves as the grounding sourcePatient’s body fluids provide the return
pathway for the electrical signalElectromagnetic interference occurs more
often in unipolar leads
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Unipolar Pacemaker
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Bipolar Pacemaker
If bipolar, there are two wires to the heart or one wire with two electrodes at its tip
Provides a built-in ground lead
Circuit is completed within the heart
Provides more contact with the endocardium; needs lower current to pace
Less chance for cautery interference
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Bipolar Pacemaker
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Indications
1. Sick sinus syndrome (Tachy-brady syndrome)
2. Symptomatic bradycardia
3. Atrial fibrillation
4. Hypersensitive carotid sinus syndrome
5. Second-degree heart block/Mobitz II
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Indications
6. Complete heart block
7. Sinus arrest/block
8. TachyarrhythmiasSupraventricular, ventricular
To overdrive the arrhythmia
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Atrial Fibrillation
* A fibrillating atrium cannot be paced
* Place a VVI
* Patient has no atrial kick
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Types
1. Asynchronous/Fixed Rate
2. Synchronous/Demand
3. Single/Dual ChamberSequential (A & V)
4. Programmable/nonprogrammable
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Asynchronous/Fixed Rate
Does not synchronize with intrinsic HR
Used safely in pts with no intrinsic
ventricular activity
If pt has vent. activity, it may compete
with pt’s own conduction system
VT may result (R-on-T phenomenon)
EX: VOO, AOO, DOO
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Synchronous/Demand
Contains two circuits * One forms impulses * One acts as a sensorWhen activated by an R wave, sensing circuit
either triggers or inhibits the pacing circuit
Called “Triggered” or “Inhibited” pacersMost frequently used pacer
Eliminates competition; Energy sparing
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Examples of Demand Pacemakers
DDI
VVI/VVT
AAI/AATDisadvantage: Pacemaker may be fooled by
interference and may not fire
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Dual Chamber: A-V Sequential
Facilitates a normal sequence between atrial and ventricular contraction
Provides atrial kick + ventricular pacing
Atrial contraction assures more complete ventricular filling than the ventricular
demand pacing unit
Increase CO 25-35% over ventricular pacing alone
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A-V Sequential
Disadvantage: More difficult to place
More expensive
Contraindication: Atrial fibrillation, SVT
Developed due to inadequacy of “pure atrial pacing”
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Single Chamber
Atrial
Ventricular
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“Pure Atrial Pacing”Used when SA node is diseased or
damaged but AV conduction system remains intact
Provides atrial kick
Atrial kick can add 15-30% to CO over a ventricular pacemaker
Electrode in atrium: stimulus produces a P wave
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Problems with Atrial Pacing
Electrode difficult to secure in atrium
Tends to float
Inability to achieve consistent atrial “demand” function
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Ventricular Pacemakers
If electrode is placed in right ventricle, stimulus produces a left BBB pattern
If electrode is placed in left ventricle, stimulus produces a right BBB pattern
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Programmability
Capacity to noninvasively alter one of several aspects of the function of a pacer
Desirable since pacer requirements for a person change over time
Most common programmed areasRate
Output
AV delay in dual chamber pacers
R wave sensitivity
Advantage: can overcome interference
caused by electrocautery
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3-Letter or 5-Letter Code
Devised to simplify the naming of
pacemaker generators
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First letter
Indicates the chamber being pacedA: Atrium
V: Ventricle
D: Dual (Both A and V)
O: None
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Second Letter
Indicates the chamber being sensedA: Atrium
V: Ventricle
D: Dual (Both A and V)
O: Asynchronous or does not apply
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Third Letter
Indicates the generator’s response to a sensed signal/R wave
I: Inhibited
T: Triggered
D: Dual (T & I)
O: Asynchronous/ does not apply
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Fourth Letter
Indicates programming informationO: No programming
P: Programming only for output and/or rate
M: Multiprogrammable
C: Communicating
R: Rate modulation
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Fifth Letter
This letter indicates tachyarrhythmia functions
B: Bursts
N: Normal rate competition
S: Scanning
E: External
O: None
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Table of Pacer Codes
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Types of Pulse Generators
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Examples
AOO
A: Atrium is paced
O: No chamber is sensed
O: Asynchronous/does not apply
VOO
V: Ventricle is paced
O: No chamber is sensed
O: Asynchronous/does not apply
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Examples
VVI
V: Ventricle is the paced chamber
V: Ventricle is the sensed chamber
I: Inhibited response to a sensed signal
Thus, a synchronous generator that paces and senses in the ventricle
Inhibited if a sinus or escape beat occurs
Called a “demand” pacer
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ExamplesDVI
D: Both atrium and ventricle are paced
V: Ventricle is sensed
I: Response is inhibited to a sensed
ventricular signalFor A-V sequential pacing in which atria and
ventricles are paced. If a ventricular signal, generator won’t fire
Overridden by intrinsic HR if faster
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ExamplesDDD
Greatest flexibility in programming
Best approximates normal cardiac response to exercise
DOOMost apparent potential for serious ventricular
arrhythmias
VATVentricular paced, atrial sensed
Should have an atrial refractory period programmed in to prevent risk of arrhythmias induced by PACs from ectopic or retrograde conduction
AV interval is usually 150-250 milliseconds
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Other Information
Demand pacer can be momentarily converted to asynchronous mode by placing magnet externally over pulse generator in some pacers
Dual chamber pacers preferable for almost all patients except those with chronic atrial fibrillation (need a working conduction system)
Asynchronous pacer modes not generally used outside the OR
OR has multiple potential sources of electrical interference which may prevent normal function of demand pacers
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Other Information
VVI: Standard ventricular demand pacemaker
DVI: AV pacemaker with two pacing electrodes
Demand pacer may be overridden by intrinsic HR if more rapid
Demand pacer can be momentarily converted to asynchronous mode by placing magnet externally over pulse generator
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Sensing
Ability of device to detect intrinsic cardiac activity
Undersensing: failure to sense
Oversensing: too sensitive to activity
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Undersensing: Failure to sense
Pacer fails to detect an intrinsic rhythm
Paces unnecessarily
Patient may feel “extra beats”
If an unneeded pacer spike falls in the latter portion of T wave, dangerous tachyarrhythmias or V fib may occur (R on T)
TX: Increase sensitivity of pacer
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Oversensing
Pacer interprets noncardiac electrical signals as originating in the heart
Detects extraneous signals such as those produced by electrical equipment or the activity of skeletal muscles (tensing, flexing of chest muscles, SUX)
Inhibits itself from pacing as it would a true heart beat
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Oversensing
On ECG: pauses longer than the normal pacing interval are present
Often, electrical artifact is seen
Deprived of pacing, the patient suffers CO, feels dizzy/light-headed
Most often due to sensitivity being programmed too high
TX: Reduce sensitivity
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Capture
Depolarization of atria and/or ventricles in response to a pacing stimulus
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Noncapture/Failure to Capture
Pacer’s electrical stimulus (pacing) fails to depolarize (capture) the heart
There is no “failure to pace”Pacing is simply unsuccessful at stimulating a
contractionECG shows pacer spikes but no cardiac
response CO occursTX: threshold/output strength or duration
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Pacer Failure
A. Earlyelectrode displacement/breakage
B. Failure > 6 monthsPremature battery depletion
Faulty pulse generator
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Pacer Malfunctions per ECG
Failure to capture
Failure to sense
Runaway pacemaker
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Pacer Malfunction SX
1. Vertigo/Syncope*Worsens with exercise
2. Unusual fatigue
3. Low B/P/ peripheral pulses
4. Cyanosis
5. Jugular vein distention
6. Oliguria
7. Dyspnea/Orthopnea
8. Altered mental status
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EKG Evaluation
Capture: Should be 1:1
(spike:EKG complex/pulse)
*Not helpful if patient’s HR is >
pacer rate if synchronous type
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EKG Evaluation
Proper function of demand pacerConfirmed by seeing captured beats on EKG
when pacer is converted to asynchronous mode
Place external converter magnet over generator
Do not use magnet unless recommended
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CAPTURE
Output: amt of current (mAmps) needed to get an impulse
Sensitivity: (millivolts); the lower the setting, the more sensitive
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Anesthesia for InsertionMAC
To provide comfort
To control dysrhythmias
To check for proper function/capture
Have external pacer/Isuprel/Atropine ready
Continuous ECG and peripheral pulse
Pulse ox with plethysmography to see perfusion of each complex
(EKG may become unreadable)
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Pacemaker Insertion
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Interference
Things which may modify pacer function:Sympathomimetic amines may increase
myocardial irritabilityQuinidine/Procainamide toxicity may cause
failure of cardiac capture K+, advanced ht disease, or fibrosis around
electrode may cause failure of cardiac capture
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Anesthesia for Pt with Pacemaker
a. Continuous ECG and peripheral pulse
b. Pulse ox with plethysmography to
see perfusion of each complex(EKG may become unreadable)
c. Defibrillator/crash cart available
d. External pacer available
e. External converter magnet available
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Anesthesia for Pt with Pacemaker
If using Succinylcholine, consider defasciculating dose of MR
Fasciculations may inhibit firing due to the skeletal muscle contractions picked up by generator as intrinsic R waves
Place ground pad far from generator but close to cautery tip
Cover pad well with conductive gel Minimizes detection of cautery current by pulse
generatorIf patient has a transvenous pacemaker, increased risk
of V. fib from microshock levels of electrical current
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Anesthesia for Pt with Pacemaker
Cautery may interfere with pacer:May inhibit triggering (pacer may sense
electrical activity and not fire)
May inadvertently reprogram
May induce arrhythmias secondary to current
May cause fixed-rate pacing
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Automatic
Implantable
Cardiac
Defibrillators
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AICD
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Parts of AICD
Pulse generator with batteries
and capacitors
Electrode or lead systemSurgically placed in or on
pericardium/myocardium
Monitors HR and rhythm
Delivers shock if VT or Vfib
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Placement of AICD
Pulse Generator
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AICD Indications
Risk for sudden cardiac death
caused by tachyarrhythmias (VT, Vfib)
Reduces death from 40% to 2% per year
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Defibrillator Codes
First letter: Shock ChamberA: atrium
V: ventricle
D: dual
O: none
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Defibrillator Codes
Second letter: Antitachycardia ChamberA: atrium
V: ventricle
D: dual
O: none
Third letter: Tachycardia DetectionE: EKG
H: Hemodynamics
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Defibrillator Codes
Fourth letter: Antibradycardia Pacing ChamberA: atrium
V: ventricle
D: dual
O: none
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Settings
Gives a shock at 0.1-30 joules Usually 25 joulesTakes 5-20 seconds to sense VT/VFTakes 5-15 seconds more to charge 2.5-10 second delay before next shock is
administeredTotal of 5 shocks, then pausesIf patient is touched, may feel a buzz or tingleIf CPR is needed, wear rubber gloves for
insulation
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Tiered Therapy
Ability of an implanted cardioverter defibrillator to deliver different types of therapies in an attempt to terminate ventricular tachyarrhythmias
EX of therapies:Anticardiac pacing
Cardioversion
Defibrillation
Antibradycardia pacing
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Anesthesia
MAC vs GeneralUsually general due to induction of VT/VF so
AICD can be checked for performance
Lead is placed in heart
Generator is placed in hip area or in upper chest
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VADs
Ventricular assist devicesImplantable pumps used for circulatory
support in pts with CHFBlood fills device through a cannulation site
in V or ADiaphragm pumps blood into aorta or PASet at predetermined rate (fixed) or
automatic (rate changes in response to venous return)
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Electromagnetic Interference on Pacers and AICDs
ElectrocauteryMay inhibit or trigger output
May revert it to asynchronous mode
May reprogram inappropriately
May induce Afib or Vfib
May burn at lead-tissue interface
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Electromagnetic Interference on Pacers and AICDs Defibrillation
May cause permanent damage to pulse generator
May burn at lead-tissue interface
Radiation TherapyMay damage metal oxide silicon circuitry
May reprogram inappropriately
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Electromagnetic Interference on Pacers and AICDs
PET/CT (Contraindicated)May damage metal oxide silicon circuitryMay reprogram inappropriately
MRI (Contraindicated)May physically move pulse generatorMay reprogram inappropriatelyMay give inappropriate shock to pt with AICD
PNSsMay cause inappropriate shock or inhibitionTest at highest output setting
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Deactivating a Pacemaker
Deactivate to prevent inappropriate firing or inhibition
Can be deactivated by a special programmer/wand or by a magnet placed over generator for 30 seconds
Put in asynchronous mode or place external pacer on patient
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If Pt has a Pacemaker/AICD
Not all models from a certain company behave the same way with magnet placement !
For all generators, call manufacturer Most reliable method for determining magnet
response ! !
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Coding Patient
If patient codes, do not wait for AICD to workStart CPR & defibrillate immediatelyPerson giving CPR may feel slight buzz
A 30-joule shock is < 2 j on pt’s skin
External defibrillation will not harm AICDChange paddle placement if unsuccessful
attemptTry A-P paddle placement if A-Lat
unsuccessful
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Pts with Pacemakers/AICDs/VADs
Obtain information from patient regarding device
Ask how often patient is shocked/day
High or low K+ may render endothelial cells more or less refractory to pacing
A properly capturing pacemaker should also be confirmed by watching the EKG and palpating the patient’s pulse
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Anesthetic Considerations
Avoid Succinylcholine
Keep PNS as far from generator as possible
Have backup plan for device failure
Have method other than EKG for assessing circulation
Have magnet available in OR
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Electrocautery Use
Place grounding pad as far from generator as possible
Place grounding pad as near to surgical field as possible
Use bipolar electrocautery if possibleHave surgeon use short bursts of
electrocautery (<1 sec, 5-10 seconds apart)
Maintain lowest possible current
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Electrocautery Use
If cautery causes asystole, place magnet over control unit & change from inhibited to fixed mode
Change back afterwards
Be alert for R on T phenomenon
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Postoperative Considerations
Avoid shivering
Have device checked and reprogrammed if questions arise about its function
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Examples of Rhythms
SensingPatient’s own beat is sensed by pacemaker so does not fire
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Examples of Rhythms
UndersensingPacemaker doesn’t sense patient’s own beat and
fires (second last beat)
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Examples of Rhythms
OversensingPacemaker senses heart beat even though it isn’t beating.
Note the long pauses.
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Examples of Rhythms
Capture
Pacemaker output (spike) is followed by ventricular polarization (wide QRS).
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Examples of Rhythms
NoncapturePacer stimulus fails to cause myocardial depolarization
Pacer spike is present but no ECG waveform
Fires but fails to capture
Undersensing-Fails to sense
ECG
Pacer spikes after theQRS
Oversensing-Fails to fire
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Examples of Rhythms
100 % Atrial Paced Rhythm with 100% Capture
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Examples of Rhythms
100% Ventricular Paced Rhythm with 100% Capture
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Examples of Rhythms
100% Atrial and 100% Ventricular Paced Rhythm with 100% Capture
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Examples of Rhythms
50% Ventricular Paced Rhythm with 100% Capture
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Examples of Rhythms
25% Ventricular Paced Rhythm with 100% Capture (Note the sensing that occurs. Pacer senses intrinsic HR and doesn’t fire).
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Examples of Rhythms
AICD Shock of VTConverted to NSR
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Examples of Rhythms
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Examples of Rhythms
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Examples of Rhythms
DDD Pacemaker
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References
Moser SA, Crawford D, Thomas A. AICDs.CC Nurse. 1993;62-73.Nagelhaut JJ, Zaglaniczny KL. Nurse Anesthesia. Philadelphia: Saunders.1997.Ouellette, S. (2000). Anesthetic considerations in
patients with cardiac assist devices. CNRA, 23(2), 9-20.
Roth, J. (1994). Programmable and dual chamber pacemakers: An update. Progress in anes thesiology, 8, chapter 17. WB Saunders.