Tracheal gas insufflation as a lung-protective strategy: physiologic, histologic, and biochemical markers

Tracheal gas insufflation as a lung-protective strategy: physiologic, histologic, and biochemical markers

Conventional mechanical ventilation in acute lung failure potentiates lung injury, which can be assessed by physiologic, histologic, and biochemical markers. Thus, new ventilation strategies are directed at reducing lung injury. Tracheal gas insufflation has been shown to reduce endotracheal tube pr...

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Veröffentlicht in:Pediatric critical care medicine 2005-01, Vol.6 (1), p.64-69
Hauptverfasser: Oliver, Rees E, Rozycki, Henry J, Greenspan, Jay S, Wolfson, Marla R, Shaffer, Thomas H
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Biomarkers
Gases
Insufflation
Liquid Ventilation
Lung - physiology
Lung Injury
Models, Animal
Pulmonary Gas Exchange
Rabbits
Respiration, Artificial - adverse effects
Respiration, Artificial - methods
Respiratory Dead Space
Respiratory Mechanics
Tidal Volume
Trachea - injuries
Trachea - physiology
Wounds and Injuries - prevention & control
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Zusammenfassung:Conventional mechanical ventilation in acute lung failure potentiates lung injury, which can be assessed by physiologic, histologic, and biochemical markers. Thus, new ventilation strategies are directed at reducing lung injury. Tracheal gas insufflation has been shown to reduce endotracheal tube prosthetic deadspace and peak inspiratory pressure during conventional mechanical ventilation. Our objective was to use physiologic, histologic, and biochemical markers to test the hypothesis that tracheal gas insufflation in acute lung injury is lung protective. Animal experiment. University setting. Juvenile rabbits (n = 12; 1.95 +/- 0.1 SE kg). Rabbits were anesthetized, instrumented, paralyzed, and ventilated with Fio(2) = 1.0. Lung injury was induced with repeated saline lavage (10 mL/kg per lavage until Pao(2)
ISSN:1529-7535
DOI:10.1097/01.PCC.0000149319.44979.CC