Diferencia entre revisiones de «High frequency oscillation ventilation»
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===Background=== | ===Background=== | ||
*High Frequency Oscillation Ventilation (HFOV) is an alternative method for mechanical ventilation in difficult to oxygenate in critically ill ARDS patients. | *High Frequency Oscillation Ventilation (HFOV) is an alternative method for mechanical ventilation in difficult to oxygenate in critically ill [[ARDS]] patients. | ||
*Studied in patients with PaO2/FiO2 < 200 | *Studied in patients with PaO2/FiO2 < 200 | ||
*Goal is to maintain alveolar recruitment for adequate gas exchange and decrease lung injury/atelectrauma | *Goal is to maintain alveolar recruitment for adequate gas exchange and decrease lung injury/atelectrauma | ||
** Low tidal volumes based around mean airway pressures to keep alveoli open | ** Low tidal volumes based around mean airway pressures to keep alveoli open | ||
** Delivered at high frequency | ** Delivered at high frequency | ||
* Pros | |||
** Limits VILI | |||
** May improve oxygenation when ECMO not available | |||
* Cons | |||
** No difference or likely to cause harm in adult ARDS patients | |||
** Requires heavy sedation | |||
** Increase mean airway pressures may result in more hemodynamic instability | |||
* See [https://www.wikijournalclub.org/wiki/OSCILLATE Oscillate] trial | * See [https://www.wikijournalclub.org/wiki/OSCILLATE Oscillate] trial | ||
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* Inspiratory time | * Inspiratory time | ||
* Amplitude of oscillations | * Amplitude of oscillations | ||
Revisión del 19:10 22 jun 2016
Background
- High Frequency Oscillation Ventilation (HFOV) is an alternative method for mechanical ventilation in difficult to oxygenate in critically ill ARDS patients.
- Studied in patients with PaO2/FiO2 < 200
- Goal is to maintain alveolar recruitment for adequate gas exchange and decrease lung injury/atelectrauma
- Low tidal volumes based around mean airway pressures to keep alveoli open
- Delivered at high frequency
- Pros
- Limits VILI
- May improve oxygenation when ECMO not available
- Cons
- No difference or likely to cause harm in adult ARDS patients
- Requires heavy sedation
- Increase mean airway pressures may result in more hemodynamic instability
- See Oscillate trial
Procedure
Ventilator protocol from the Oscillate trial
- Set FiO2 at 100%
- Recruitment maneuver of 40 cmH2O PEEP for 40 seconds
- I:E time of 1:2
- Initiate high frequency ventilation -> 3-15 Hz
- VT minimized to keep pH >7.25
- Goal of 1-4 ml/Kg
- Maintain mean airway pressure of 30 cmH2O with pressure adjusted to maintain a PaO2 of 55-80 mmHg
- Reversion to standard ventilation of mean airway pressure was ≤24 cmH2O for 12 hours or anytime when ≤20 cmH2O
- Re-initiation of HFOV if FIO2 >0.4 or PEEP >14 cmH2O for >1 hour in the subsequent 48 hours
Targets
- pH>7.25
- SpO2 >88% or PaO2 >55mmHg
Oxygenation altered by:
- FiO2
- Mean airway pressures
Ventilation altered by:
- Frequency
- Inspiratory time
- Amplitude of oscillations