Injection of prostaglandin F2alpha into the bronchial artery in sheep increases the pulmonary vascular permeability to protein.

Lung injury and oedema following smoke inhalation are associated with eicosanoid release and the injury is heavily influenced by the tracheobronchial circulation. We hypothesized that injection of a vasoactive eicosanoid, prostaglandin F2alpha (PGF2alpha), into the tracheobronchial circulation would induce a permeability leak in that circulation as measured in lung lymph flow and protein content. PGF2alpha when injected into the bronchial artery increased lung lymph flow, protein content and lymph protein flux (protein times flow).

Combined smoke inhalation and scald burn in the rat.

The combination of burn injury with smoke inhalation from fires significantly increases mortality. The mechanism of increased mortality is poorly understood but has been associated with multiple organ dysfunction syndrome, including cardiac dysfunction. Impaired cardiac function correlates with decreased survival in burn patients.

Interactions of lung stretch, hyperoxia, and MIP-2 production in ventilator-induced lung injury.

The use of positive pressure mechanical ventilation can cause ventilator-induced lung injury (VILI). We hypothesized that hyperoxia in combination with large tidal volumes (VT) would accentuate noncardiogenic edema and neutrophil infiltration in VILI and be dependent on stretch-induced macrophage inflammatory protein-2 (MIP-2) production. In rats ventilated with VT 20 ml/kg, there was pulmonary edema formation that was significantly increased by hyperoxia.

Aquaporin channels may modulate ventilator-induced lung injury.

Adult Respiratory Distress Syndrome is a disease with functional lung heterogeneity and thus a ventilator-delivered breath may over-distend non-involved areas. In rats we examined ventilator-delivered tidal volume (TV) breaths of 7 and 20 ml/kg on lung water as evidence of lung injury. We examined the role of aquaporins on ventilator-induced lung injury (VILI) by infusing HgCl(2) which inhibits aquaporins by binding cysteine.

Ligation of the bronchial artery in sheep attenuates early pulmonary changes following exposure to smoke.

Smoke inhalation can produce acute pulmonary edema. Previous studies have shown that the bronchial arteries are important in acute pulmonary edema occurring after inhalation of a synthetic smoke containing acrolein, a common smoke toxin. We hypothesized that inhalation of smoke from burning cotton, known to contain acrolein, would produce in sheep acute pulmonary edema that was mediated by the bronchial circulation.