OBJECTIVES: Inhaled nitric oxide has been shown to be a selective pulmonary vasodilator, leading to reduced pulmonary arterial pressure and improved ventilation/perfusion ratio in the acute respiratory distress syndrome. This local pulmonary vasodilation theoretically can be achieved by the airway application of a short-acting vasodilator, such as prostacyclin. We hypothesized that nebulized prostacyclin has the same properties for selective pulmonary vasodilation as inhaled nitric oxide. DESIGN: Prospective, experimental study in sheep. SETTING: Investigational intensive care unit in a university hospital. SUBJECTS: Six adult ewes of the Merino breed. INTERVENTIONS: Sheep (n = 6) were surgically prepared for chronic study. After 5 days of recovery, the sheep had tracheostomies performed under anesthesia. Intubation with a modified Robert-Shaw tube allowed side-separated ventilation. The entire left lung was ventilated with pure nitrogen, whereas the right lung was ventilated with pure oxygen. Nitric oxide and prostacyclin were added in different concentrations to the nitrogen, with which the left lung was ventilated. MEASUREMENTS AND MAIN RESULTS: The blood flows to the left and right lungs were measured with ultrasonic flow probes on the common and left pulmonary artery. Measurements were taken after each compound had been administered for 10 mins at a predefined dose. Both inhaled nitric oxide and nebulized prostacyclin caused effective, selective, dose-dependent pulmonary vasodilation. Inhaled nitric oxide was able to abolish hypoxic pulmonary vasoconstriction when insufflated into the animals at a concentration of 50 ppm of nitrogen, but 100 ppm of nitric oxide had no further effect. Prostacyclin, at a dosage of 10 micrograms/min, showed maximum pulmonary vasodilation, which could not be further increased by doubling the dosage. However, prostacyclin produced less dilation than high doses of nitric oxide, and its maximum pulmonary vasodilation was comparable with that effect obtained under ventilation with 20 ppm of nitric oxide. CONCLUSIONS: Both drugs selectively dilated the pulmonary vasculature in ventilated alveoli. Prostacyclin nebulization is an excellent tool to reduce pulmonary hypertension and to improve the ventilation/perfusion ratio. Prostacyclin nebulization can be used without the highly sophisticated technical equipment that is needed for controlled nitric oxide inhalation, and may therefore become a new, noninvasive therapeutic approach for treatment of adult respiratory distress syndrome in hospitals that cannot provide nitric oxide inhalation.
OBJECTIVES: Inhaled nitric oxide has been shown to be a selective pulmonary vasodilator, leading to reduced pulmonary arterial pressure and improved ventilation/perfusion ratio in the acute respiratory distress syndrome. This local pulmonary vasodilation theoretically can be achieved by the airway application of a short-acting vasodilator, such as prostacyclin. We hypothesized that nebulized prostacyclin has the same properties for selective pulmonary vasodilation as inhaled nitric oxide. DESIGN: Prospective, experimental study in sheep. SETTING: Investigational intensive care unit in a university hospital. SUBJECTS: Six adult ewes of the Merino breed. INTERVENTIONS:Sheep (n = 6) were surgically prepared for chronic study. After 5 days of recovery, the sheep had tracheostomies performed under anesthesia. Intubation with a modified Robert-Shaw tube allowed side-separated ventilation. The entire left lung was ventilated with pure nitrogen, whereas the right lung was ventilated with pure oxygen. Nitric oxide and prostacyclin were added in different concentrations to the nitrogen, with which the left lung was ventilated. MEASUREMENTS AND MAIN RESULTS: The blood flows to the left and right lungs were measured with ultrasonic flow probes on the common and left pulmonary artery. Measurements were taken after each compound had been administered for 10 mins at a predefined dose. Both inhaled nitric oxide and nebulized prostacyclin caused effective, selective, dose-dependent pulmonary vasodilation. Inhaled nitric oxide was able to abolish hypoxic pulmonary vasoconstriction when insufflated into the animals at a concentration of 50 ppm of nitrogen, but 100 ppm of nitric oxide had no further effect. Prostacyclin, at a dosage of 10 micrograms/min, showed maximum pulmonary vasodilation, which could not be further increased by doubling the dosage. However, prostacyclin produced less dilation than high doses of nitric oxide, and its maximum pulmonary vasodilation was comparable with that effect obtained under ventilation with 20 ppm of nitric oxide. CONCLUSIONS: Both drugs selectively dilated the pulmonary vasculature in ventilated alveoli. Prostacyclin nebulization is an excellent tool to reduce pulmonary hypertension and to improve the ventilation/perfusion ratio. Prostacyclin nebulization can be used without the highly sophisticated technical equipment that is needed for controlled nitric oxide inhalation, and may therefore become a new, noninvasive therapeutic approach for treatment of adult respiratory distress syndrome in hospitals that cannot provide nitric oxide inhalation.