Abstract

Inhaled nitric oxide (NO) has been reported to improve oxygenation in severe respiratory disease, possibly by decreasing ventilation-perfusion mismatching. However, an optimal dose of NO has not been defined and excessive NO could reduce efficacy by increasing perfusion in non-ventilated areas. We examined the effect of increasing doses of inhaled NO on PaO2& PaCO2 in patients with severe respiratory disease, hypothesizing that low dose NO would be as effective in improving oxygenation as the higher doses. Methods: Mechanically ventilated infants and children with primary, acute severe respiratory failure were eligible for study if they required a PEEP ≥ 10 cmH2O and a FiO2≥50% to maintain a PaO2≥80 or had a PaO2/FiO2≤150. NO was given through the ventilator at 1, 5, 10 and 20 parts per million (PPM). An arterial blood gas was obtained before NO (base) and at each dose after 15 min of stability. Ventilator settings were unchanged during the study. Statistical analysis used a repeated measures ANOVA and Tukey's protected T-test. Results: 13 patients (ages 1 mo-13 y) were evaluated. NO significantly increased PaO2 (p=0.038) and reduced PaCO2 (p=0.0056). An effect (p 0.05) in the response for any of the doses. The% change from baseline for all doses was similar (p>0.05) for both PaO2 & PaCO2. Conclusions: In agreement with previous reports, inhaled NO improved oxygenation in acute, severe respiratory disease in infants and children. However, NO also significantly improved ventilation. NO at 5 PPM was as effective as the higher doses; this may be important in minimizing toxicity. Inhaled NO may be a useful adjunct in the treatment of ventilated patients with severe lung disease. Table

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