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Care of the Patient with a Pacemaker

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Provides repetitive electrical stimuli to the heart muscle in order to control the heart rate ... If hairy chest, clip hair instead of shave to avoid nicks ... – PowerPoint PPT presentation

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Title: Care of the Patient with a Pacemaker


1
Care of the Patient with a Pacemaker
  • Becca Maddox
  • NURS 2205
  • Spring 2002

2
Pacemakers
  • Provides repetitive electrical stimuli to the
    heart muscle in order to control the heart rate
  • Can be temporary or permanent
  • Consist of a pulse generator and electrodes
    (leads)

3
Temporary Pacemakers
  • Types
  • Transcutaneous external pacemaker
  • Epicardial pacemaker
  • Transthoracic thoracic pacemaker
  • Transvenous endocardial pacemaker

4
Temporary Pacemakers
  • Indications
  • Conduction disorders
  • Rate disorders
  • Prophylaxis

5
Temporary Pacemakers
  • Components
  • Pulse generator
  • Leads
  • External
  • Epicardial
  • Transthoracic
  • Transvenous

6
Temporary Pacemakers
  • Pacing systems
  • Unipolar
  • Bipolar
  • Pacing cables
  • Black Negative, pacing terminal
  • Red Positive, ground terminal

7
Temporary Pacemakers
  • Insertion
  • External - applied emergently at the bedside
  • Epicardial - leads are placed by the cardiac
    surgeon in the operating room
  • Transthoracic - Usually attempted emergently, as
    a last resort, after other temporary pacing
    methods have failed. Physician inserts a
    pericardial needle through the subxyphoid area of
    the thorax into the right ventricle and advances
    the lead wire through the needle in order to
    achieve contact with the endocardium
  • Transvenous - May be inserted at the bedside,
    preferably under fluroscopy. Usually inserted
    into the subclavian or jugular vein, but can be
    inserted into the antecubital or femoral vein

8
Temporary Pacemakers
  • Settings
  • Rate
  • Fixed (Asynchronous)
  • Stimulus is provided at a preset rate
  • Rate is set greater than the patients inherent
    rate to avoid competition
  • Demand (Synchronous)
  • Stimulus is provided when the patients heart
    rate drops below at predetermined rate
  • Must have adequate sensing

9
Temporary Pacemakers
  • Sensitivity Threshold
  • Sensitivity
  • Set in millivolts (mV)
  • Allows pacemaker to detect the patients inherent
    R wave
  • Sense Indicator
  • Flashes when inherent R wave is detected
  • Senses if pacing is in the demand mode
  • Threshold
  • The minimum R wave amplitude needed to be
    detected by the pulse generator
  • Once the sensitivity threshold is determined, the
    sensitivity is set 2-3 times lower

10
Temporary Pacemakers
  • Stimulation Threshold
  • Output/mA
  • Stimulus current is measured in milliamperes (mA)
  • Adjusted based on the amount of current needed to
    elicit myocardial depolarization and contraction
  • variables - position of electrode contact with
    viable myocardial tissue level of energy
    delivered through wire presence of hypoxia,
    acidosis or electrolyte imbalances and other
    medications being used
  • Pace indicator
  • Flashes each time a pacing stimulus is generated
  • Does not necessarily indicate that a cardiac
    contraction occurred
  • Pacing Threshold
  • The minimum amount of mAs needed to achieve 100
    capture
  • The output is then doubled

11
Temporary Pacemakers
  • Pacing Modes
  • Atrial asynchronous pacing - atrial fixed pacing
  • Impulse initiated via the atria
  • Pathway similar to normal conduction
  • Can be initiated via epicardial atrial leads
  • Can result in competition
  • Used for asystole or symptomatic sinus
    bradycardia
  • Contraindicated for atrial fibrillation or
    flutter and for person with conduction delays

12
Temporary Pacemakers
  • Ventricular synchronous pacing - ventricular
    demand pacing
  • Impulse is sent to the ventricle when the
    patients inherent rate drops below the preset
    rate on the pulse generator
  • No harmony between atria and the ventricle
  • Used as a back up system for sinus bradycardia,
    heart blocks, atrial fibrillation/atrial flutter
    with SVR, junctional rhythm

13
Temporary Pacemakers
  • AV sequential asynchronous pacing - dual
    chambered fixed rate pacing
  • Impulses sent to atria and ventricle at a
    predetermined rate and at a predetermined AV
    interval regardless of patients own rhythm
  • Normal conduction through the heart
  • Used for asystole, symptomatic sinus bradycardia,
    and for varying degrees of heart block to
    maintain AV conduction
  • AV sequential synchronous pacing - dual chambered
    demand pacing
  • Impulses sent to atria and ventricles when the
    patients rated drops below the preset rate on
    the pulse generator
  • Normal conduction through the heart
  • Used for asytole, symptomatic sinus bradycardia
    and heart block

14
Temporary Pacemakers
  • Special Considerations
  • External Transcutaneous Pacing
  • Cleanse skin with soap and water prior to
    applying patches
  • Avoid using flammable skin preps such as alcohol
    or tincture of benzoin
  • If hairy chest, clip hair instead of shave to
    avoid nicks
  • Select a lead that maximized the R-wave amplitude
  • Set pacemaker settings as prescribed or follow
    PP for the institution
  • May need analgesics or sedatives to minimize pain

15
Temporary Pacemakers
  • Epicardial pacing
  • Connect the negative pacing terminal to the
    epicardial lead electrode that is attached to the
    heart chamber to be paced
  • Connect the positive ground terminal to another
    epicardial lead electrode, subcutaneous pacing
    wire, subcutaneous needle or skin patch electrode
  • Determine sensitivity threshold and pacing
    threshold
  • Set pacemaker settings
  • Initiate pacing
  • Be sure to follow hospital PP for initiating and
    adjusting pacemaker settings

16
Temporary Pacemakers
  • Transthoracic pacing - usually a last resort
  • After emergency insertion is completed, assist
    with additional attempts to insert another type
    of temporary pacing or prepare family for
    insertion of a permanent pacemaker
  • Transvenous pacing
  • Obtaining pulmonary artery wedge pressures may be
    contraindicated if being paced via a pulmonary
    artery catheter
  • If initiated through antecubital or femoral vein,
    limit mobility of the extremity
  • Determine sensitivity and pacing thresholds
  • Set pacemaker settings
  • Initiate pacing
  • Follow hospital PP for initiating and adjusting
    pacemaker settings

17
Temporary Pacemakers
  • Troubleshooting
  • Failure to fire - cant see pacemaker spikes
    during periods of asystole or bradycardia
  • Loose connections in the pacing system
  • Failure of pacemaker battery or pulse generator
  • Fracture of the pacing lead wire
  • Lead wire dislodgement
  • Failure to capture - pacemaker spike is not
    followed by a P wave or QRS as appropriate
  • Loose connections in the pacing system
  • Increased pacing threshold
  • Fracture of the pacing lead wire
  • Lead wire dislodgement
  • Failure of pacemaker battery or pulse generator

18
Temporary Pacemakers
  • Undersensing - pacemaker fires with no regard to
    the patients own rhythm. Dangerous because it
    may lead to ventricular tachycardia and/or
    ventricular fibrillation
  • Inadequate QRS signal
  • Myocardial ischemia, fibrosis, electrolyte
    imbalances, bundle branch block, or a poorly
    positioned lead
  • Oversensing - pacemaker thinks it detects a QRS
    complex, inhibits itself and doesnt fire
  • Tall or peaked P waves or T waves
  • Myopotentials (electrical signals produced by
    skeletal muscle contraction as with shivering or
    seizures)

19
Temporary Pacemakers
  • Patient Management
  • ECG monitoring
  • Hemodynamic monitoring
  • Assess pacemaker function
  • Electrical safety
  • Reassess functioning after defibrillation
  • Pacing insertion site care
  • Assure pacemaker controls are protected from
    accidental adjustment
  • Provide information regarding pacemaker therapy
    to the patient and family

20
Permanent Pacemakers
  • Lead Placement
  • Epicardial
  • Usually placed during heart surgery
  • Leads placed in contact with epicardium
  • Pulse generator in a subcutaneous pocket in
    abdomen
  • Endocardial (Transvenous)
  • Most common
  • Pacing catheter inserted percutaneously via
    subclavian vein and advanced to the right atrium
    or apex of right ventricle
  • Leads placed in contact with endocardium
  • Pulse generator in subcutaneous pocket in the
    subclavian area

21
Permanent Pacemakers
  • Indications
  • Symptomatic bradycardia
  • Acquired atrioventricular block (including A-V
    block from an MI)
  • Chronic bifasicular or trifasicular block
  • Sinus node dysfunction, including sick sinus
    syndrome
  • Hypersensitive carotid sinus disease
  • Conduction system trauma (accident or cardiac
    surgery)
  • Congenital anomalies
  • Non reversible drug toxicities

22
Permanent Pacemakers
  • Components
  • Pulse generator - consists of lithium batteries
    and electrical micro circuitry encased in
    titanium. Lithium batteries last about 5-10years,
    depending on how much the pacemaker is used
  • Lead wire - a catheter with electrodes at the
    tip. Ventricular wires are easier to secure than
    atrial wires
  • Electrode(s) - remember the negative electrode is
    the one that paces
  • Unipolar electrode - negative electrode at the
    tip of the wire is in contact with the heart, the
    metal casing around the pulse generator acts as
    the positive pole, creates a large spike on ECG
    paper
  • Bipolar electrode - negative electrode is at the
    tip and positive electrode is a few millimeters
    above it, creates a small spike on ECG paper

23
Permanent Pacemakers
  • Identification Code - 5 letters
  • 1st - Chamber(s) paced
  • 2nd - Chamber(s) sensed
  • 3rd - Response to sensing
  • 4th - Rate Modulation Programmability
  • 5th - Antitachycardia Pacing Function

24
Permanent Pacemakers
  • Types
  • Demand or synchronous - has a sensing circuit
    that monitors cardiac activity
  • All permanent pacers with a lead wire in the
    ventricle are this type to avoid pacing during
    ventricular repolarization
  • Fixed rate or asynchronous - does not have a
    sensing circuit

25
Permanent Pacemakers
  • Terminology
  • Heart rate - often expressed in milliseconds (ms)
    rather than beats per minute
  • Pacemaker timing
  • Escape interval - interval from last intrinsic
    beat to next paced beat
  • Pacing interval - interval from last paced beat
    to next paced beat
  • AV interval - corresponds to PR interval,
    programmed in milliseconds, usually set within
    the normal PR interval range (125 ms, 150 ms, 175
    ms, or 200 ms)

26
Permanent Pacemakers
  • Examples
  • Single Chamber VVI Pacemakers
  • Advantages - simple one lead system where the
    lead wire is placed in the right ventricle
  • Limitations - loss of AV synchrony, lack of rate
    variability
  • usually placed in patients who have chronic
    atrial fibrillation with SVR
  • VVIR pacers were developed to achieve rate
    variability - there is a sensor in the pulse
    generator that senses skeletal muscle activity

27
Permanent Pacemakers
  • Dual Chamber DDD Pacemakers
  • Advantages - two lead system with one lead wire
    in the atrium and one lead in the ventricle,
    capable of pacing the atria and ventricles,
    preserves AV synchrony,
  • Limitations -
  • Patients with atrial fibrillation or atrial
    flutter - it cant capture the atrium. Pacer is
    confused by the atrial activity. This will not
    cause harm to the patient, but will deplete the
    batteries faster. Should be reprogrammed.
  • Lack of rate variability - DDDR pacers were
    developed to achieve rate variability. As the
    sensor picks up skeletal muscle activity, the
    DDDR pacer will increase the atrial pacing rate.

28
Permanent Pacemakers
  • Programmable Features
  • Lower rate limit (LRL) - Atrial pacing will only
    occur at the LRL. Ventricular pacing can occur
    anywhere between the lower rate limit and the
    upper rate limit
  • AV interval
  • Upper rate limit (UPR) - the fastest rate at
    which the ventricles can be paced in response to
    atrial activity
  • VA interval - the length of time from an
    intrinsic or paced ventricular event to the next
    atrial event. This is not directly programmable
    but changes as other programmable parameters are
    changed. (LRL - AV interval)

29
Permanent Pacemakers
  • Modes of Operation
  • Patient in sinus rhythm - atrial and ventricular
    pacers are inhibited
  • Patient in atrial pacing only - atrial pacing
    occurs because patient cant initiate a sinus
    rate faster than the LRL of the pacer.
    Ventricular pacing is inhibited patient is able
    to conduct the impulse to the ventricles before
    the AV timer expires
  • Patient in ventricular pacing only - atrial pacer
    is inhibited because of patients ability to
    initiate a sinus impulse faster than the LRL.
    Ventricular pacer is triggered because patient is
    not able to get the impulse to the ventricles
    before the AV timer expires
  • Patient in AV pacing - atrial pacing occurs
    because of the patients inability to initiate a
    sinus impulse faster than the LRL and the
    ventricular pacer fires because the AV timer
    expires before impulse can travel to the
    ventricles

30
Permanent Pacemakers
  • Troubleshooting
  • Failure to capture
  • Reasons
  • Lead dislodgement
  • Lead fracture
  • Loose connections between pulse generator and
    lead wire
  • Fibrosis at the tip of the lead causing changes
    in the pacing threshold
  • Treatment
  • Obtain a chest x-ray to determine lead position
  • Reposition or replace lead if dislodged or
    fractured
  • Reprogram pacer if fibrosis is cause of failure
    to capture
  • SQ pocket may need to be reopened to check
    connections
  • Have atropine and external pacemaker at bedside
    in case patient develops a symptomatic bradycardia

31
Permanent Pacemakers
  • Failure to sense
  • Reasons
  • Electromagnetic interference
  • Lead fracture
  • Loose connections between the pulse generator and
    the lead wire
  • Battery failure
  • Treatment
  • Move away from magnetic field
  • Obtain a chest x-ray to determine lead position
  • Reposition or replace lead if dislodged or
    fractured
  • SQ pocket may need to be reopened to check
    connections
  • Replace generator if needed
  • If undersensing or oversensing and generator is
    programmable, need to reprogram

32
Permanent Pacemakers
  • Failure to fire
  • Reasons
  • Electromagnetic interference
  • Lead fracture
  • Loose connections between the pulse generator and
    the lead wire
  • Circuitry or battery failure
  • Treatment
  • Move away from magnetic field
  • Obtain a chest x-ray to determine lead position
  • Reposition or replace lead if dislodged or
    fractured
  • SQ pocket may need to be reopened to check
    connections
  • Replace generator if needed
  • Have atropine and external pacemaker at bedside
    in case patient develops a symptomatic
    bradycardia

33
Permanent Pacemakers
  • Patient Management
  • Pre-op
  • Avoid placing ECG monitoring electrodes over the
    right or left subclavian areas
  • Patient and family teaching
  • NPO after midnight
  • Where procedure will be done and about how long
    it will take
  • Pre-op medications - sedative and antibiotic
  • Local anesthesia rather than general

34
Permanent Pacemakers
  • Immediate Post-op
  • Patient and family teaching
  • Frequent vital signs
  • Bedrest up to 24 hours (depending on hospital)
  • Limited range of motion in the affected arm
    Administration of antibiotics
  • Pain at incision site
  • Encourage coughing and deep breathing

35
Permanent Pacemakers
  • Post-op Nursing Management
  • Document type of pacer and settings
  • Run an initial strip and then one at least every
    4 hours - more often if pacing in noted on
    monitor
  • Obtain a 12 lead ECG upon return
  • Observe for appropriate pacemaker functioning
  • Observe pressure dressing for signs of infection
  • Administer antibiotics as prescribed
  • Offer pain medicine at regular intervals

36
Permanent Pacemakers
  • Discharge Teaching
  • Watch insertion site for signs of infection
  • If sutures, they will be removed in one week. If
    steristrips, they will gradually fall off
  • Return to activities gradually
  • How to take a pulse
  • Transtelephonic monitoring of pacemaker function
  • Importance of follow-up visit
  • Life of batteries
  • New medications

37
Permanent Pacemakers
  • Pacemaker wallet identification card
  • Medic alert bracelet application
  • Avoid electromagnetic interference
  • all household appliances, including microwave
    ovens, are OK to use
  • avoid welding equipment power transmitters
    large generators radio, television, and radar
    towers - antennas at home are safe, but not CB
    and ham operator antennas
  • avoid leaning directly over any running engines
    or motors - can create magnetic fields
  • Bingo wands used in bingo halls and stereo
    speakers contain magnets. These devices should
    not come in contact with the pacemaker generator
    in the shoulder for any period or time

38
Permanent Pacemakers
  • avoid electrocautery and diathermy
  • no MRI scan performed for other medical
    conditions
  • inform other physician that they have a
    pacemaker, particularly dentists
  • have wallet card available at airport metal
    detectors. Need to inform them to be careful of
    hand-held wands as they may have magnets in them
    and should therefore not be held over the
    pacemaker generator for a long period of time

39
Permanent Pacemakers
  • Rhythm Strip Interpretation
  • If possible, find out what kind of pacemaker the
    patient has
  • Look for presence of an underlying rhythm
  • Look closely for the presence of a pacer spike
  • Look for the presence of P waves (intrinsic or
    paced) and their rate and relationship to the QRS
    complexes
  • Examine QRS complexes to determine if they are
    paced or intrinsic
  • If ventricular pacing, note whether each beat is
    preceded by a P wave (paced or intrinsic) and
    whether the AV(PR) interval is constant before
    the ventricular paced beats
  • Observe for fusion beats
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