机构地区:[1]Departments of Intensive Care and Medicine, Hopital du Sacré-Coeur, de Montréal Research Center, Université de Montréal [2]Department of Intensive Care, Centre Hospitalier Universitaire de Montréal, Université de Montréal [3]Department of Pharmacy, Université de Montréal, Hopital du Sacré-Coeur de Montréal Research Center [4]Department of Respiratory Care, Hopital du Sacré-Coeur de [5]Hopital du Sacré-Coeur, de Montréal Research Center, Université de Montréal
出 处:《World Journal of Critical Care Medicine》2017年第1期74-78,共5页世界重症医学杂志
摘 要:AIM To evaluate the safety and efficacy of inhaled milrinone in acute respiratory distress syndrome(ARDS).METHODS Open-label prospective cross-over pilot study where fifteen adult patients with hypoxemic failure meeting standard ARDS criteria and monitored with a pulmonary artery catheter were recruited in an academic 24-bed medico-surgical intensive care unit. Random sequential administration of i NO(20 ppm) or nebulized epoprostenol(10 μg/mL) was done in all patients. Thereafter, inhaled milrinone(1 mg/mL) alone followed by inhaled milrinone in association with inhaled nitric oxide(iN O) was administered. A jet nebulization device synchronized with the mechanical ventilation was use to administrate the epoprostenol and the milrinone. Hemodynamic measurements and partial pressure of arterial oxygen(PaO_2) were recorded before and after each inhaled therapyadministration.RESULTS The majority of ARDS were of pulmonary cause(n = 13) and pneumonia(n = 7) was the leading underlying initial disease. Other pulmonary causes of ARDS were: Post cardiopulmonary bypass(n = 2), smoke inhalation injury(n = 1), thoracic trauma and pulmonary contusions(n = 2) and aspiration(n = 1). Two patients had an extra pulmonary cause of ARDS: A polytrauma patient and an intra-abdominal abscess Inhaled nitric oxide, epoprostenol, inhaled milrinone and the combination of inhaled milrinone and i NO had no impact on systemic hemodynamics. No significant adverse events related to study medications were observed. The median increase of PaO 2 from baseline was 8.8 mmH g [interquartile range(IQR) = 16.3], 6.0 mm Hg(IQR = 18.4), 6 mm Hg(IQR = 15.8) and 9.2 mm Hg(IQR = 20.2) respectively with i NO, epoprostenol, inhaled milrinone, and i NO added to milrinone. Only i NO and the combination of inhaled milrinone and i NO had a statistically significant effect on PaO 2. CONCLUSION When comparing the effects of inhaled NO, milrinone and epoprostenol, only NO significantly improved oxygenation. Inhaled milrinone appeared safe but failed to improve oxygeAIM To evaluate the safety and efficacy of inhaled milrinone in acute respiratory distress syndrome(ARDS).METHODS Open-label prospective cross-over pilot study where fifteen adult patients with hypoxemic failure meeting standard ARDS criteria and monitored with a pulmonary artery catheter were recruited in an academic 24-bed medico-surgical intensive care unit. Random sequential administration of i NO(20 ppm) or nebulized epoprostenol(10 μg/mL) was done in all patients. Thereafter, inhaled milrinone(1 mg/mL) alone followed by inhaled milrinone in association with inhaled nitric oxide(iN O) was administered. A jet nebulization device synchronized with the mechanical ventilation was use to administrate the epoprostenol and the milrinone. Hemodynamic measurements and partial pressure of arterial oxygen(PaO_2) were recorded before and after each inhaled therapyadministration.RESULTS The majority of ARDS were of pulmonary cause(n = 13) and pneumonia(n = 7) was the leading underlying initial disease. Other pulmonary causes of ARDS were: Post cardiopulmonary bypass(n = 2), smoke inhalation injury(n = 1), thoracic trauma and pulmonary contusions(n = 2) and aspiration(n = 1). Two patients had an extra pulmonary cause of ARDS: A polytrauma patient and an intra-abdominal abscess Inhaled nitric oxide, epoprostenol, inhaled milrinone and the combination of inhaled milrinone and i NO had no impact on systemic hemodynamics. No significant adverse events related to study medications were observed. The median increase of PaO 2 from baseline was 8.8 mmH g [interquartile range(IQR) = 16.3], 6.0 mm Hg(IQR = 18.4), 6 mm Hg(IQR = 15.8) and 9.2 mm Hg(IQR = 20.2) respectively with i NO, epoprostenol, inhaled milrinone, and i NO added to milrinone. Only i NO and the combination of inhaled milrinone and i NO had a statistically significant effect on PaO 2. CONCLUSION When comparing the effects of inhaled NO, milrinone and epoprostenol, only NO significantly improved oxygenation. Inhaled milrinone appeared safe but failed to improve oxyge
关 键 词:Inhaled milrinone Nitric oxide Pulmonary hypertension HYPOXEMIA Acute respiratory distress syndrome PROSTACYCLIN
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