Acute overventilation does not cause lung damage in moderately hemorrhaged swine

Airway management is important in trauma and critically ill patients. Prolonged mechanical ventilation results in overventilation-induced lung barotrauma, but few studies have examined the consequence of acute (1 h or less) overventilation. We hypothesized that acute hyperventilation, as might inadv...

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Bibliographic Details
Published in:Journal of applied physiology (1985) 2021-05, Vol.130 (5), p.1337-1344
Main Authors: Blackburn, Megan B, Hudson, Ian L, Rodriguez, Cassandra, Wienandt, Nathan, Ryan, Kathy L
Format: Article
Language:English
Subjects:
Barotrauma
Blood
Cytokines
Edema
Euthanasia
Hemodynamics
Hemorrhage
Hyperventilation
IL-1β
Impact damage
Inflammation
Lungs
Mechanical ventilation
Side effects
Statistical methods
Swine
Tissues
Trauma
Ventilation
Ventilators
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Summary:Airway management is important in trauma and critically ill patients. Prolonged mechanical ventilation results in overventilation-induced lung barotrauma, but few studies have examined the consequence of acute (1 h or less) overventilation. We hypothesized that acute hyperventilation, as might inadvertently be performed in prehospital settings, would elevate systemic inflammation and cause lung damage. Female Yorkshire pigs (40-50 kg, = 10/group) were anesthetized, instrumented for hemodynamic measurements and blood sampling, and underwent a 25% controlled hemorrhage followed by 1 h of ) spontaneous breathing, ) "normal" bag ventilation (4.8 L·min volume, ∼400 mL tidal volume, 12 breaths/minute), ) bag hyperventilation (9 L·min volume, ∼750 mL tidal volume, 12 breaths/minute), ) maximum hyperventilation (15 L·min volume, ∼750 mL tidal volume, 20 breaths/minute), or ) mechanical ventilation. Pigs then regained consciousness and recovered for 24 h, followed by euthanasia and collection of blood and tissue samples. No level of manual ventilation had any significant impact on hemodynamic variables. Blood markers of tissue damage and plasma cytokines were not statistically different between groups with the exception of a transient increase in IL-1β; all values returned to baseline by 24 h. On pathological review, severity and distribution of lung edema or other gross pathologies were not significantly different between groups. These data indicate hyperventilation causes no adverse effects, to include inflammation and tissue damage, and that acute overventilation, as could be seen in the prehospital phase of trauma care, does not produce evidence of adverse effects on the lungs following moderate hemorrhage. Appropriate airway management is essential in trauma and critically ill patients. Prolonged mechanical ventilation can result in overventilation-induced lung barotrauma, but few studies have examined the consequence of acute overventilation. We investigated the outcome of hemorrhage followed by 1 h of overventilation in swine. We found that acute overventilation, as could be seen in the prehospital phase of trauma care, does not produce evidence of adverse effects on otherwise healthy lungs following moderate hemorrhage.
ISSN:8750-7587
1522-1601
DOI:10.1152/japplphysiol.01048.2020