J Trauma
-
Acute systemic inflammatory response to severe skin burn injury mediates burn-induced acute lung injury. Ulinastatin is potentially an effective intervention, because it attenuates the systemic inflammatory response induced by endotoxin and improves myocardial function during ischemic shock and reperfusion. ⋯ These results indicate that the inhibitory effects of ulinastatin on inflammatory mediator production, neutrophil activation, and microvascular permeability are associated with the recovery of pulmonary functions in severe burn-induced acute lung injury and suggest that ulinastatin may serve as a potential therapeutic administration in critical burn care.
-
Recent reports indicate that mortality after trauma center admission may be directly related to the rate of operative intervention after blunt solid organ injury. These findings bring into question the role of urgent splenectomy after blunt splenic injury (BSI). The purpose of this study was to determine the role of urgent splenectomy (defined as splenectomy within 6 hours of admission) in the management of BSI as well as the relationship between urgent splenectomy and in-hospital mortality. ⋯ Despite ongoing variation in the use of urgent splenectomy after BSI in adults, urgent splenectomy was not associated with in-hospital mortality.
-
Aquaporin (AQP) is a membrane protein that facilitates osmotic water transport. Aquaporin 5 (AQP5) expresses at type I alveolar epithelia of apical membrane that confers high osmotic water permeability. Osmosis or stretch challenge in alveoli significantly up-regulates AQP5 expression, which suggests that AQP5 may play a role in the maintenance of epithelia barrier function. Pseudomonas aeruginosa (PA), a leading gram-negative bacterial frequently isolated from ventilation-associated pneumonia patients, disrupts alveolar and airway epithelial cells and subsequently leads to blood dissemination. In this study, we hypothesized that AQP5 might be protective in acute lung injury induced by PA, and deletion of AQP5 might lead to aggravated lung injury. ⋯ Our data demonstrated that AQP5 plays a protective role in the maintenance of pulmonary barrier function against PA infection.