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Mechanical Ventilation 1

Shari McKeown, RRTRespiratory Services - VGH

Objectives

Describe indications for mcventDescribe types of breaths and modes of ventilationDescribe compliance and resistance and how this affects ventilationDescribe ventilator troubleshooting

Indications for McVent

Oxygenation abnormalitiesRefractory hypoxemiaNeed for positive end expiratory pressure (PEEP)Excessive work of breathing

Indications for McVent –cont’d

Ventilation abnormalitiesRespiratory muscle dysfunction

• Respiratory muscle fatigue• Chest wall abnormalities• Neuromuscular disease

Decreased ventilatory driveIncreased airway resistance and/or obstruction

Modes of Ventilation

ASV, APRV, AV, AutoMode, Bilevel, BiPAP, EPAP, Fluid Logic, HFJV, HFOV, IPPV, IPAP, MMV, NEEP, PAV, PCV+, PCIRV, PCSIMV, PRVS, PRVC, PV, VCIRV, IRV, VS, etc, etc, etc!!!

Types of Ventilator Modes

Mandatory Operator sets RROperator sets start, stop, and everything in betweenPatient can trigger extra mandatory breaths

SpontaneousPatient sets RRPatient controls start, stopPatient triggers all breaths

Types of Ventilator BreathsMandatory

Volume Breath• Flow set• Volume cycled

Pressure Breath• Pressure set• Time cycled

SpontaneousPressure supported breath

• Pressure set• Patient insp flow cycled

Choosing a Mode

Consider trial of NPPVDetermine patient needsIdentify goals

Adequate ventilation and oxygenationDecreased work of breathingPatient comfort and synchronyRemove vent asap

Spontaneous Ventilation

Continuous Positive Airway Pressure (CPAP)

No machine breaths deliveredAllows spontaneous breathing at elevated baseline pressurePatient has complete control over RR and tidal volume

Pressure SupportRR triggered by patientPreset level of inspiratory support delivered Cycles to expiration when inspiratory flow slows to preset levelVT depends on compliance, resistance, pressure level, and patient effort

Pressure Support – cont’dAdvantages

Patient comfortDecreased work of breathingMay enhance patient-ventilator synchrony

DisadvantagesVariable volumesInappropriate supportRelies on apnea backupLeaks may interfere with cycling

Assist-Control (Volume)Set RR, set tidal volume, insp pressure variablePatient triggers extra breaths with full tidal volumeAdvantages: guarantees minute ventilationDisadvantages: hyperventilation, hemodynamic effects, ‘breath stacking’

Assist-Control (Pressure)Set RR, set insp pressure, tidal volume variablePatient triggers extra breaths with full pressureAdvantages: limits pressureDisadvantages: hyperventilation, hemodynamic effects, ‘breath stacking’

Synchronized Intermittent Mandatory Ventilation (SIMV)

Mandatory breaths – volume or pressure breathsSpontaneous breaths – pressure support

SIMV – cont’d

AdvantagesLess hemodynamic effectsLess inappropriate hyperventilationGuarantees some minute ventilation

Disadvantages:Not physiological

Measurements

ComplianceResistancePeak airway pressurePlateau pressure

Compliance

Measures compliance of the lung and thoraxTidal volume / Plateau-PEEPUnits = ml/cmH20

Resistance

Measures airway resistanceLengthViscosityFlowRadius4

Peak-plateau / FlowrateUnits = cmH20/Lps

Peak and Plateau Pressures

Peak airway pressure reflectsBaseline (PEEP)Pressure due to compliance (L+T)Pressure due to resistance

Plateau pressure (breath hold) reflectsBaseline (PEEP)Pressure due to compliance (L+T)(alveolar distending pressure)

Waveform

Troubleshooting

Mechanical Ventilation 2

Fundamentals of Critical Care Support

Objectives

Initiation of mcventMonitoringImproving oxygenationImproving ventilationObstructive Lung DisordersRestrictive Lung DisordersPediatric considerations

Initiation of McVentChoose your modeSet minute ventilation for pH

RRVT (8-10 ml/kg)I:E

Set oxygenation for SpO2 or SaO2PEEPFiO2

Trigger level

Set sedation, analgesia, NM blockadeMonitors

ECG, SpO2, Vitals, ObservationAlarms

Hi/Low pressureLow volumeApnea

Humidification

Initiation cont’d

Initiation cont’d

EvaluationCXRPeak/plateauExhaled VT and RR(TOT)Patient-Ventilator synchronyAutopeepSpO2, ABGHemodynamics

Improving Oxygenation

FiO2Mean Airway Pressure

PEEP• Recruit lung• Improve compliance• Redistribute lung water/blood

Insp pressureInspiratory time

Goal Sp02 >92%, FiO2 <0.50

Improving Ventilation

Tidal VolumeWatch Plateau

Respiratory RateWatch for Autopeep

Goal pH = normal

Obstructive Lung Disorders

Asthma/COPDInflammationBronchoconstrictionInc. mucous prod/Dec. clearanceDecreased expiratory flowrates

• Autopeep• Hemodynamic compromise• Barotrauma

Obstructive Lung Disorders -Ventilator Strategies

Decrease RRSedation to decrease drive

Permissive HypercapniapH >7.25Contraindications Heads, Hearts

Plateau <30cmH20

Restrictive Lung Disorders

Intrapulmonary ARDSCHFPneumoniaFibrosis

ExtrapulmonaryObesityPregnancyAscites

Restrictive Lung Disorders –Ventilatory Strategies

IntrapulmonaryRecruit collapsed lung

• High PEEP• Increase TI

Prevent overdistension• Plateau <30cmH20• VT 4-6 ml/kg

Goal FiO2 <0.50?Extrapulmonary

Same as above, with Plateau <40cmH20

Pediatric Considerations

Infants (<5 kg)Time-cycled, pressure limited modesStart Peak pressure 18-20 cmH20TI .5-.6 secVT to chest expansion or 8 ml/kgPEEP 2-4

Pediatric Considerations –cont’d

ChildrenSIMV modeVT 8-10 ml/kgTI

• Infants - .5-.6 sec• Toddlers - .6-.8 sec• Older - .8-1.0 sec

RR < 18-20 Peep 5

Mechanical Ventilation