Inhaled nitric oxide in neonatal and pediatric acute respiratory distress syndrome: dose response, prolonged inhalation, and weaning.

OBJECTIVE: Inhaled nitric oxide is a potent and selective pulmonary artery vasodilator. We studied the effects of nitric oxide inhalation in neonatal and pediatric acute respiratory distress syndrome (ARDS) patients with respect to dosage, prolonged inhalation, and weaning. DESIGN: Prospective, open-label study. SETTING: Neonatal and pediatric intensive care units of a level three university hospital. PATIENTS: Seventeen patients with severe ARDS (1 day to 6 yrs of age [mean 1.75]; oxygenation index of > 20 cm H2O/torr) were enrolled. INTERVENTIONS: To identify the optimal dosage for continuous nitric oxide inhalation, doses between 1 and 80 parts per million (ppm) of nitric oxide were tested after the patients had stabilized. Daily withdrawals of nitric oxide were made, according to predetermined criteria. MEASUREMENTS AND MAIN RESULTS: Nine neonatal and eight pediatric ARDS patients (mean Pediatric Risk of Mortality score 28.4 +/- 6.1; mortality risk 54 +/- 15%) were studied. The following variables changed within 24 hrs of nitric oxide inhalation: mean oxygenation index decreased by 56% (from 34 +/- 12 to 15 +/- 7 cm H2O/torr, p = .0004); alveolar-arterial O2 gradient decreased by 31% (from 579 +/- 71 to 399 +/- 102 torr (77.2 +/- 9.5 to 53.2 +/- 13.6 kPa), p = .0004); and mean systemic arterial pressure increased by 15% (from 49 +/- 10 to 57 +/- 12 mm Hg, p = .0029). The optimal dose of nitric oxide was 20 ppm in neonates (with additional persistent pulmonary hypertension of the newborn) and 10 ppm in pediatric patients. Prolonged inhalation (4 to 21 days) was associated with continuous improvement of oxygenation. An oxygenation index of < 5 cm H2O/torr predicted successful withdrawal, with a sensitivity of 75% and a specificity of 89%. None of the patients had to be rescued with extracorporeal membrane oxygenation and 16 of the 17 patients survived. CONCLUSIONS: Inhaled nitric oxide enhances pulmonary gas exchange, with concomitant hemodynamic stabilization, in neonatal and pediatric ARDS. Best effective doses were 10 ppm of nitric oxide in pediatric ARDS and 20 ppm in neonates. Treatment should be continued until an oxygenation index of < or = 5 cm H2O/torr is achieved. Effects on outcome need verification in larger controlled trials.

Bayesian forecasting of serum gentamicin concentrations in intensive care patients.

This study retrospectively evaluated the predictive performance of a 1-compartment Bayesian forecasting program in adult intensive care unit (ICU) patients with stable renal function. A comparison was made of the reliability of 3 sets of population-based parameter estimates and 2 serum concentration monitoring strategies. A larger mean error for prediction of peak gentamicin concentrations was seen with literature-derived parameters than when ICU population-based parameter estimates were used. Bias and precision improved when non-steady-state peak and trough concentrations were used to predict those at steady-state; the addition of steady-state values did not provide additional information for predictions once non-steady-state feedback concentrations were incorporated. The addition of 4 serial gentamicin concentrations obtained at both non-steady-state and steady-state did not noticeably improve the predictive performance. The results demonstrate that initial ICU pharmacokinetic parameter estimates for a 1-compartment Bayesian model provide accurate prediction of steady-state gentamicin concentrations. Prediction bias and precision showed the greatest improvement when non-steady-state gentamicin concentrations were used to determine individualised pharmacokinetic parameters.

Systemic production of prostacyclin and thromboxane A2 does not correlate with patency of the ductus arteriosus in very low birth weight infants.

Urinary excretion of prostacyclin and thromboxane metabolites (2,3-dinor-6-ketoprostaglandin F1 alpha, thromboxane B2, and 2,3-dinor-thromboxane B2) as indices of systemic biosynthesis was prospectively determined in nine premature infants during the first 10 days of life, by gas chromatography-mass spectrometry. The patients ranged in gestational age from 27 to 29 weeks and in birth weight from 720 to 980 gm. Four infants developed symptomatic patent ductus arteriosus (PDA). Excretion of all metabolites exceeded adult values on the basis of body surface area at birth, reached a maximum on the fourth day of life, was related to urine output, and did not distinguish patients with and without symptomatic PDA. We conclude that neither circulating prostacyclin nor thromboxane A2 contribute significantly to the pathophysiology of symptomatic PDA in very low birth weight infants.