HYPEROXIA EXACERBATES MICROVASCULAR LUNG INJURY FOLLOWING ACID ASPIRATION

Objectives: To examine the effects of an increase in ambient oxygen (O -2) concentrations on the extent of inflammatory pulmonary damage foll owing acid aspiration. Design: Prospective, controlled laboratory stud y. Settings: University-affiliated animal research facility. Subjects: Male, Long Evans rats weighing 250 to 300 g. Intervention: Rats were injured by instillation of 1.2 mL/kg normal saline solution/HCl, pH=1. 25 (acid), into the lungs via a tracheotomy. Animals were allowed to a waken and were exposed to 21%, 50%, or 98% O-2 for 0 to 5 h (n/group g reater than or equal to 10). In a separate set of experiments, injured rats exposed to 98% O-2 were treated with different doses of deferoxa mine, just prior to injury. Uninjured rats and rats injured with norma l saline solution, pH=5.3, were used as the control group. Measurement s: Injury was determined by assessing lung function (lung compliance a nd arterial blood gases) and alveolar-capillary wall integrity (wet/dr y weight, lung albumin permeability index [PI], and intrapulmonary hem orrhage [HI]). Results: Intrapulmonary instillation of acid increased PI, HI, and decreased static lung compliance compared to uninjured con trol animals. Increased ambient oxygen following acid aspiration decre ased lung compliance, 1.06+/-0.03 mL/kg/cm H2O, in oxygen-exposed lung s when compared to the lungs exposed to air, 1.26+/-0.04, following a low pH aspirate (p<0.05). An increase in protein leakage into the lung tissue was noted in oxygen-exposed animals, PI=1.33+/-0.10, vs air-ex posed rats, 0.89+/-0.07 (p<0.05). The hyperoxia-induced increase in lu ng injury was prevented by 30 mg/kg or higher deferoxamine treatment, 0.78+/-0.05 (p<0.05). Exposure of animals to 98% O-2 for 2 h was suffi cient to produce the same increase in microvascular protein leakage as 5-h exposure to O-2 following low pH aspirate. Conclusion: Hyperoxia increases acid aspiration-induced inflammatory microvascular lung inju ry. This appears to be mediated by production of reactive species of O -2.