Cimetidine does not prevent lung injury in newborn premature infants.

Animal studies have shown that induction of cytochrome P450 (CYP) in the lung by oxygen exposure may result in the release of free radical oxidants and arachidonic acid metabolites, which can cause lung injury that is reduced by treatment with cimetidine, a CYP inhibitor. To determine whether cimetidine would reduce lung injury in human infants at risk for chronic lung disease, we conducted a randomized clinical trial in which we administered either cimetidine or a placebo for 10 d beginning < 24 h after birth to 84 newborn infants weighing < or = 1250 g who were receiving O2 and mechanical ventilation. Cimetidine had no significant effect on severity of respiratory insufficiency assessed at 10 d postnatal age. F2-isoprostane levels (a marker of oxidant injury) in tracheal aspirates were significantly higher in the cimetidine group at 4 d and at 10 d. There were no significant differences between the groups in tracheal aspirate levels of inflammatory markers (leukotriene B4, IL-8, and nucleated cell count) or arachidonic acid metabolites. We conclude that cimetidine does not reduce lung injury in newborn premature infants receiving O2 and mechanical ventilation. It is possible that cimetidine was not an adequate CYP inhibitor in this context.

Inhaled nitric oxide attenuates hyperoxic lung injury in lambs.

Cytochrome P450 (CYP) inhibition with cimetidine reduces hyperoxic lung injury in young lambs. Nitric oxide (NO), also a CYP inhibitor, has been shown to either aggravate or protect against oxidant stress depending on experimental context. The objective of this study was to determine whether NO, like cimetidine, would protect young lambs against hyperoxic lung injury, and whether its effect was associated with CYP inhibition. Three groups of lambs were studied: 1) room air exposure, 2) >95% O2, and 3) >95% O2 plus inhaled NO. After 72 h, hyperoxia alone resulted in a significant increase in arterial P(CO2) and number of polymorphonuclear leukocytes in bronchoalveolar lavage (BAL), and a significant decrease in arterial/alveolar O2 tension (a/A). The addition of inhaled NO significantly decreased the hypercarbia and BAL polymorphonuclear cellular response associated with hyperoxia but had no beneficial effect on a/A ratio. There were no significant differences in F2-isoprostanes or isofurans (markers of lipid peroxidation) measured in BAL or lung tissue among study groups. No intergroup differences were detected in BAL epoxyeicosatrienoic acid levels (index of CYP activity). The results of this study indicate that hypercarbia and inflammation accompanying hyperoxic lung injury in young lambs can be attenuated by inhaled NO. However, this study provides no direct evidence that NO is inhibiting CYP-mediated oxidant lung injury.