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Basic Pulmonary Mechanics during Mechanical Ventilation. Points of Discussion. Basics , scalars and loops. Abnormalities. Air Leak Auto PEEP and air trapping Active Exhalation Inadequate insp flow Obstruction Trigger sensitivity Increased airway resistance Inadequate flow support
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Points of Discussion Basics , scalars and loops Abnormalities Air Leak Auto PEEP and air trapping Active Exhalation Inadequate insp flow Obstruction Trigger sensitivity Increased airway resistance Inadequate flow support Inadequate sensitivity Atelectasis Inadequate PEEP Over-distension • Equation of motion • Airway pressures • Compliance • Resistance • Pressure-Time • Flow-Time • Pressure-volume loop • Flow-volume loop • Work of breathing • Hysterexis
Spontaneous Breathing Exhalation Inspiration
Precondition of Inspiration Gas Flow Pa • Pa<Pb • Spontaneous breath • Pb>Pa • Mechanical ventilation Pa<Pb Pb
Spontaneous Inspiration Volume Change Pressure Difference Gas Flow
Mechanical Ventilation Pressure Difference Gas Flow Volume Change
Airway Resistance “The Feature of the Tube” D P R = D F Pressure Difference = Flow Rate x Resistance of the Tube
Compliance Volume D V D P Pressure D V C= D P Volume Change= Pressure Difference x Compliance of the Balloon
Tube + Spring Model Resistive Forces Elastic Forces
Basic Calculations dP = R x Flow + dV / C st Pressure Pplat PEEP time Cst = dV / (Pplat-PEEP) R = (PIP-Pplat) / Flow
Lung Mechanics transairway pressure transrespiratory pressure transthoracic pressure volume elastance = Dpressure / Dvolume resistance = Dpressure / Dflow flow
Pressure vs TimeSpontaneous Breath Expiration Paw (cm H20) Time (sec) Inspiration
Pressure vs TimeMechanical Breath Peak Inspiratory Pressure PIP PEEP Paw (cm H2O) Inspiration Expiration TI TE } Time (sec)
Spontaneous vs. Mechanical Mechanical Inspiration Paw (cm H2O) Spontaneous Expiration Expiration Inspiration Time (sec)
Assisted vs Controlled Assisted Controlled Pressure (cmH20) Time (sec)
Components of Inflation Pressure Pplateau (Palveolar) Begin Inspiration PIP } Transairway Pressure (PTA) Paw (cm H2O) Inspiratory Pause Expiration Time (sec) Begin Expiration
Exhalation Valve Opens Begin Inspiration Inflation Hold (seconds) Pplateau (Palveolar Paw (cm H2O) Time (sec) PIP } Transairway Pressure (PTA) Paw (cm H2O) Expiration Time (sec) Begin Expiration PIP Distending (Alveolar) Pressure Airway Resistance Expiration Begin Inspiration Begin Expiration
PIP vsPplat PIP High Raw Normal PIP PPlat PPlat Paw (cm H2O) Low Compliance PIP PIP PPlat High Flow PPlat Time (sec)
Mean Airway Pressure Lengthen Inspiratory Time Increase peak pressure Increase PEEP Increase Rate Increase Flow
Increasing Mean Airway Pressure 1. Increase flow 2. Increase peak pressure 3. Lengthen inspiratory time 4. Increase PEEP 5. Increase Rate
Flow vs Time Inspiration Time (sec) Flow (L/min) Expiration
Flow Patterns SQUARE DECELERATING ACCELERATING SINE
Flow Patterns and Effects of Volume ACCELERATING SINE DECELERATING SQUARE
Inspiratory Flow Pattern Total cycle time TCT Beginning of expiration exhalation valve opens Peak inspiratory flow rate PIFR Inspiration Inspiratory Time TI Expiratory Time TE Flow (L/min) Time (sec) Beginning of inspiration exhalation valve closes Expiration
Expiratory Flow Pattern Beginning of expiration exhalation valve opens Duration of expiratory flow Peak Expiratory Flow Rate PEFR Inspiration Expiratory time TE Time (sec) Flow (L/min) Expiration
Spontaneous Breath Inspiration Time (sec) Flow (L/min) Expiration
Mechanical vs Spontaneous Mechanical Spontaneous Inspiration Expiration
Increased Expiratory Resistance Flow Time Normal Resistance Increased Resistance
Response to Bronchodilator After Before Time (sec) Flow (L/min) Long TE PEFR Shorter TE Higher PEFR
Insufficient Expiratory Time Flow Time End-Expiratory Flow
Air Trapping Air Trapping Auto-PEEP Normal Patient Inspiration Time (sec) Flow (L/min) } Expiration
Excessive Secretions Normal Patient Inspiration Time (sec) Flow (L/min) Expiration
Air Leak (Flow Trigger, autotriggering) Inspiration Time (sec) Flow (L/min) Leak in LPM Expiration
Active Inspiration or Asynchrony Patient’s effort Normal Abnormal Time (sec) Flow (L/min)
Excessive Inspiratory Time Air Trapping Auto-PEEP Normal Patient Inspiration Increase WOB and “Fighting” of the ventilator Time (sec) Flow (L/min) } Expiration
Obstruction vs Active Expiration Obstruction Active Expiration Time (sec) Flow (L/min) Normal Abnormal
Trigger Sensitivity Sensitivity level Pressure Time Flow Time
Volume vs. Time Inspiratory Tidal Volume Volume (ml) Inspiration Expiration TI Time (sec)
Active Exhalation Volume (ml) Time (sec)
Inadequate Inspiratory Flow Adequate Flow Inadequate Flow Paw (cm H2O) Time (sec)
Air Leak Air Leak Volume (ml) Time (sec)
Air Leak Pressure Flow Expiratory flow area less than inspiratory flow area Expired volume Inspired volume Volume Leak
FRC and PV Loop Normal Compliance TLC VOLUME FRC FRC Negative Positive 0 DISTENDING PRESSURE
Components of Pressure-Volume Loop VT Expiration Volume (mL) Inspiration PIP Paw (cm H2O)
Pressure-Volume Loop(Type of Breath) E E Vol (ml) E I I I Paw (cm H2O) Spontaneous Controlled Assisted I: Inspiration E: Expiration
PEEP and P-V Loop VT PEEP PIP Volume (mL) Paw (cm H2O)
Inflection Points Upper Inflection Point Lower Inflection Point • Upper Inflection Point: Represents pressure resulting in regional overdistension • Lower Inflection Point: Represents minimal pressure for adequate alveolar recruitment Volume (mL) Pressure (cm H2O)
Decreased Compliance Normal Patient Volume(ml) Pressure (cm H2O)
Lung Compliance Changes and the P-V Loop Volume Targeted Ventilation Preset VT Increased Normal Decreased Volume (mL) Paw (cm H2O) PIP levels
Lung Compliance Changes and the P-V Loop VT levels Increased Normal Pressure Targeted Ventilation Decreased Volume (mL) Preset PIP Paw (cm H2O)