Optimized ventilation power to avoid VILI

Optimized ventilation power to avoid VILI

The effort to minimize VILI risk must be multi-pronged. The need to adequately ventilate, a key determinant of hazardous power, is reduced by judicious permissive hypercapnia, reduction of innate oxygen demand, and by prone body positioning that promotes both efficient pulmonary gas exchange and hom...

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Veröffentlicht in:Journal of intensive care 2023-11, Vol.11 (1), p.1-57, Article 57
Hauptverfasser: Thornton, Lauren T, Marini, John J
Format: Artikel
Sprache:eng
Schlagworte:
Acute respiratory distress syndrome
ARDS
Artificial respiration
Causes of
Complications and side effects
Energy
Intensive care
Lung protection
Mechanical power
Mechanical ventilation
Methods
Risk factors
Ventilators
VILI
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Zusammenfassung:The effort to minimize VILI risk must be multi-pronged. The need to adequately ventilate, a key determinant of hazardous power, is reduced by judicious permissive hypercapnia, reduction of innate oxygen demand, and by prone body positioning that promotes both efficient pulmonary gas exchange and homogenous distributions of local stress. Modifiable ventilator-related determinants of lung protection include reductions of tidal volume, plateau pressure, driving pressure, PEEP, inspiratory flow amplitude and profile (using longer inspiration to expiration ratios), and ventilation frequency. Underappreciated conditional cofactors of importance to modulate the impact of local specific power may include lower vascular pressures and blood flows. Employed together, these measures modulate ventilation power with the intent to avoid VILI while achieving clinically acceptable targets for pulmonary gas exchange.
ISSN:2052-0492
2052-0492
DOI:10.1186/s40560-023-00706-y