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VENTILATOR GRAPHICS

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Give a treatment, suction, change the HME, decrease It/increase flow, add PEEP ... with ringing (Bart Simpson hair)...you need to increase the rise time if this ... – PowerPoint PPT presentation

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Title: VENTILATOR GRAPHICS


1
VENTILATOR GRAPHICS
2
Purpose
  • Graphics are waveforms that reflect the
    patient-ventilator system and their interaction
  • Purpose of monitoring graphics includes
  • Monitors the patients disease status (C and Raw)
  • Calculates respiratory mechanics
  • Assesses patient response to therapy
  • Monitors ventilator function
  • Allows fine tuning of ventilator to decrease WOB
    and optimize ventilation
  • Allows user to interpret, evaluate, and
    troubleshoot ventilator and patients response to
    ventilator

3
Types of waveforms
  • Scalars plot pressure/volume/flow against
    timetime is the x axis
  • Loops plot pressure/volume/flow against each
    otherthere is no time component
  • Six basic waveforms
  • Rectangular AKA swuare wave
  • Descending ramp AKA decelerating ramp
  • Ascending ramp AKA accelerating ramp
  • Sinusoidal AKA sine wave
  • Exponential rising
  • Exponential decaying

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5
Types of waveforms seen
  • Pressure waveforms
  • Rectangular
  • Exponential rise
  • Sine
  • Volume waveforms
  • Ascending ramp
  • Sinusoidal
  • Flow waveforms
  • Rectangular
  • Sinusoidal
  • Ascending ramp
  • Descending ramp
  • Exponential decay

6
Pressure-Time Scalar
  • Machine-triggered breaths have no negative
    deflection at the start
  • Patient triggered breaths may have a negative
    deflection at the start if the breath is being
    pressure triggeredthe greater the patient effort
    to trigger the breath, the greater the negative
    deflection seenno deflection see with flow
    triggering
  • In volume modes, the shape will be exponential
    rise for mandatory breaths and sinusoidal for
    spontaneous breathsif PS is added to spontaneous
    breaths, then the waveform will be square on the
    spontaneous breaths
  • In pressure modes, the shape will be rectangular
    for mandatory breaths and sinusoidal for
    spontaneous breathsif PS added to the
    spontaneous breaths, they will be rectangular
    also
  • If PEEP is added, the baseline during expiration
    will be above zero
  • The area under the entire curve equals the Paw
    (mean airway pressure)

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8
Use of Pressure-Time Scalars
9
Volume-Time Scalar
  • Ascending ramp shape if a square wave flow
    pattern is usedsinusoidal if the sine wave flow
    pattern is usedexponential rise if the
    decelerating flow pattern is used
  • Plateaus at the peak of the curve in PC/PS
  • If the exhalation side of the curve doesnt
    return to baseline, it could be auto-PEEP or
    there could be a leak (eg-around ETT or through a
    chest tube)

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11
Use of Volume-Time Scalars
12
Flow-Time Scalars
  • No evidence supports one flow pattern over
    anotherthe square wave might distribute gas more
    evenly in patients with a unilateral lung
    dxdecelerating ramp may distribute gas more
    evenly because the high burst of flow at the
    beginning would pop alveoli open and allow for
    gas exchange during the entire breath
  • If expiratory flow doesnt return to baseline
    before the next breath starts, theres auto-PEEP
    present (air trapping is occurring)
  • Volume control on some vents allows you to select
    the flow pattern you want
  • All pressure breaths (PC, PS, PRVC, VS) will have
    a decelerating ramp flow pattern
  • CPAP has a sinusoidal flow pattern unless PS has
    been added

13
Use of Flow-Time Scalars
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15
Pressure-Volume Loops
  • Volume is plotted on the y axis and pressure on
    the x axis (can also be plotted the other way
    around)
  • Inspiratory curve is upward and expiratory curve
    is downward
  • Spontaneous breaths go clockwise and positive
    pressure breaths go counterclockwise
  • The bottom of the loop will be at the set PEEP
    level or be at 0 if theres no PEEP set
  • I starts and E ends at the bottom of the loopI
    ends and E starts at the top of the loop
  • The loop is almost square in PC/PS because of
    pressure limiting during I

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18
Abnormal PV Loops
  • If an imaginary line is drawn down the middle of
    the loop, the area to the right represents
    inspiratory resistance/WOB and the area to the
    left represents expiratory resistance/WOB (just
    the opposite for spont breaths- I is to the left
    and E is to the right)
  • The more vertical the loop lays, the lower the
    lung C, the more horizontal it lays, the higher
    the lung C
  • The fatter the loop, the higher the airway
    resistanceyou can tell if its I or E resistance
    by looking at whether the right or left side
    bulges out more
  • A bird beak at the top of the loop represents
    over-distension
  • A pig tail at the bottom indicates patient
    triggeringthe bigger the pig tail, the higher
    the patient WOB to trigger the breath
  • The loop wont meet at the bottom with
    airtrapping or leaks

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20
Use of PV Loops
21
Flow-Volume Loops
  • Flow is plotted on the y axis and volume on the x
    axis
  • Inspiration is above the horizontal line and
    expiration is below (some vents reverse this and
    I is below while E is above)
  • The shape of the insp flow curve will match
    whats set on the ventilator
  • The shape of the exp flow curve represents
    passive exhalationits long and more drawn out
    in patients with less recoil
  • Can be used to determine the PIF, PEF, and Vt
  • Looks circular with spontaneous breaths
  • Looks squared but set at an angle with PC/PS
    breaths

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23
Abnormal FV Loops
  • The expiratory curve scoops with high
    expiratory resistance
  • If the patient is air trapping or has a leak, the
    loop will not meet at the left side where I
    starts/E ends
  • If water/secretions are building up in the airway
    or circuit, the loop becomes very jagged

24
Use of FV Loops
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26
Air Trapping (auto-PEEP)
  • Causes
  • increased exp resistance (either in the airways
    or in the circuit)
  • Insufficient expiratory time
  • Early collapse of unstable alveoli/airways during
    exhalation
  • How to ID it on the graphics
  • Pressure time while performing an expiratory
    hold, the waveform rises above baseline
  • Flow-time the exp flow doesnt return to
    baseline before the next breath begins
  • Volume-time the exp portion doesnt return to
    baseline
  • FV Loop the loop doesnt meet at the baseline
  • PV Loop the loop doesnt meet at the baseline
  • How to Fix
  • ID the cause and resolve
  • Give a treatment, suction, change the HME,
    decrease It/increase flow, add PEEP

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28
Airway Resistance Changes
  • Causes
  • Bronchospasm
  • Damp or blocked expiratory valve/filter
  • ETT problems (too small, kinked, obstructed,
    patient biting)
  • High flow
  • Secretion build-up
  • Water in the HME

29
Airway Resistance Changes
  • How to ID
  • Pressure-time the PIP increases but the plateau
    stays the same
  • Volume-time it takes longer for the exp curve
    to reach the baseline
  • Flow-time it takes longer for the exp curve to
    reach baseline and the exp flow rate is reduced
  • FV loop decreased exp flow with a scoop in the
    exp curve
  • PV loop the loop will be fatterif it bulges to
    the right, its insp resistance and to the left
    its exp
  • How to fix
  • ID cause and fix it
  • Give a tx, sx, drain water, change HME, change
    ETT, add a bite block, decrease PF rate, change
    exp filter

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31
Compliance Changes
  • Decreased compliance
  • Causes
  • ARDS
  • Atelectasis
  • Abdominal distension
  • CHF
  • Consolidation
  • Fibrosis
  • Hyperinflation
  • Pneumothorax
  • Pleural effusion
  • Just about every pulm dx there is
  • How to ID it
  • Pressure-time the PIP and plateau both increase
  • PV loop lays more horizontal

32
Compliance changes
  • Increased compliance
  • Causes
  • emphysema
  • Surfactant therapy
  • How to ID it
  • Pressure-time PIP and plateau both decrease
  • PV loop stands more vertical (upright)

33
Active Exhalation
  • Causes
  • Patient is exhaling below FRC due to air trapping
    (vol dumping)
  • Pain
  • Positional change
  • Equipement calibration problem
  • How to ID it
  • Volume-time exp waveform goes below the
    baseline
  • PV loop exp loop goes past the zero point
  • FV loop exp part goes past the zero point
  • How to fix it
  • Reduce air-trapping
  • Calibrate equipment
  • Relieve pain

34
Partial Obstruction
  • Causes
  • Suction catheter left in ETT
  • Tissue flap
  • Mucus plug
  • Water/secretions in the circuit or airway
  • How to ID It
  • Flow-volume flow is not steady and constant,
    but varies as the obst moves around
  • PV loop jagged instead of smooth
  • FV loop jagged with fluctuating flow
  • How to fix it
  • Pull catheter out of ETT
  • Suction
  • Drain water
  • Change HME
  • Move the ETT

35
Overdistension
  • Causes
  • Vt set too high (vol vent)
  • Pressure set too high (press vent)
  • Could occur in pressure vent with C or Raw
    changes
  • How to ID it
  • PV loop bird beak at the top of the loop
  • How to fix it
  • Reduce Vt (vol vent)
  • Reduce pressure (P vent)

36
Leaks
  • Causes
  • Expiratory leak air leak through a chest tube,
    BP fistula, ETT cuff leak, NG tube in trachea
  • Inspiratory leak loose connections, ventilator
    malfunction, faulty flow sensor
  • How to ID it
  • Pressure-time decreased PIP
  • Volume-time decreased Vtexp leaks keep exp Vt
    from returning to baseline
  • Flow-time PEF decreases
  • PV loop exp side doesnt return to the baseline
  • FV loop exp part doesnt return to baseline
  • How to fix it
  • ID source of leak and fix it
  • Do a leak test and make sure all connections are
    tight

37
Rate Asynchrony
  • Causes
  • Neurological injury/swelling
  • Air hunger
  • How to ID it
  • Pressure-time patient tries to inhale/exhale in
    the middle of the waveform, causing a dip in the
    pressure
  • Flow-time patient tries to inhale/exhale in the
    middle of the waveform, causing erratic
    flows/dips in the waveform
  • PV loop dips in the loop during either I or E,
    showing patient efforts to breathe
  • FL loop dips in the loop during either I or E,
    showing patient efforts to breathe
  • How to fix it if neurological, may need
    paralytic or sedative to reduce respiratory
    driveif air hunger, adjust settings (try
    increasing the flow rate/decreasing the It or
    increasing the set rate to capture the patient)
    or changing the mode - sometimes changing from
    partial to full support will solve the problem

38
Flow Asynchrony
  • Causesflow rate set incorrectly for the patient
    demands (volume vent onlyin pressure ventilation
    the flow is a function of the pressure setting
    and the patients lung characteristics you
    dont set it or have any control over it)
  • How to ID It
  • Pressure-time curve patient pulls off the
    pressure curve and it becomes concave
  • Pressure-volume loop the inspiratory side will
    scoop inward with a decrease in pressure
  • How to fix it increase the peak flow setting

39
Trigger Asynchrony
  • Causes sensitivity not set correctlypatient
    has to do excessive work to trigger a breath,
    autoPEEP
  • How to identify it
  • Pressure-time curve there will be a huge
    negative deflection before each pressure curve
    and/or negative pressure deflections that dont
    result in a breath delivery
  • Flow-time curve there will be a blip where the
    patient attempts to trigger
  • Pressure-volume loop there will be a large pig
    tail on the loop
  • How to fix it set sensitivity so that minimal
    effort is required to trigger the ventilator,
    eliminate the autoPEEP

40
Setting the Rise Time
  • The faster the flow valve opens, the faster the
    set pressure is reached in pressure modes
  • If the valve opens so fast that the flow is
    instantaneously delivered to the airway, you can
    get an overshoot in the pressure curve with
    ringing (Bart Simpson hair)you need to increase
    the rise time if this occurs this makes the
    flow valve open a bit more slowly
  • If the valve opens too slow, the pressure curve
    becomes rounded when it should be square in a
    pressure modethis will decrease Vt deliveryyou
    need to decrease the rise time if this occurs

41
Volume-Targeted Ventilation
42
Suggested Websites
  • www.adhb.govt.nz/newborn/TeachingResources/Ventila
    tion/RespiratoryFunctionMonitoringandGraphics.htm
  • www.rtmagazine.com/issues/articles/2002-02_04.asp
  • www.rcsw.org/Download/2006_RCSW_conf/Presentation
    20200620RCSW20Waveforms_in_ARDS20Dean20H.pdf
  • www.aarc.org/education/webcast/archives/waveforms/
    03.01.05/ppt256,1,Using the Ventilator To Probe
    Physiology Monitoring Graphics and Lung
    Mechanics During Mechanical Ventilation
  • www.brighamandwomens.org/respiratorytherapy/advmec
    ven2.ppt
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