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1Department of Pediatrics, Stanford University School of Medicine, Stanford, California 94305; 2Department of Pediatrics, University of Utah School of Medicine, Salt Lake City, Utah 84132; and 3Department of Pediatrics, University of Wisconsin School of Medicine, Madison, Wisconsin 53705
Submitted 18 November 2002 ; accepted in final form 26 February 2003
Chronic lung injury from prolonged mechanical ventilation after premature
birth inhibits the normal postnatal decrease in pulmonary vascular resistance
(PVR) and leads to structural abnormalities of the lung circulation in newborn
sheep. Compared with normal lambs born at term, chronically ventilated preterm
lambs have increased pulmonary arterial smooth muscle and elastin, fewer lung
microvessels, and reduced abundance of endothelial nitric oxide synthase.
These abnormalities may contribute to impaired respiratory gas exchange that
often exists in infants with chronic lung disease (CLD). Nitric oxide
inhalation (iNO) reduces PVR in human infants and lambs with persistent
pulmonary hypertension. We wondered whether iNO might have a similar effect in
lambs with CLD. We therefore studied the effect of iNO on PVR in lambs that
were delivered prematurely at 
125 days of gestation (term = 147 days) and
mechanically ventilated for 3 wk. All of the lambs had chronically implanted
catheters for measurement of pulmonary vascular pressures and blood flow.
During week 2 of mechanical ventilation, iNO at 15 parts/million for
1 h decreased PVR by 20% in 12 lambs with evolving CLD. When the same
study was repeated in eight lambs at the end of week 3, iNO had no
significant effect on PVR. To see whether this loss of iNO effect on PVR might
reflect dysfunction of lung vascular smooth muscle, we infused
8-bromo-guanosine 3',5'-cyclic monophosphate (cGMP; 150 µg
· kg-1 · min-1 iv)
for 15–30 min in four of these lambs at the end of week 3. PVR
consistently decreased by 30–35%. Lung immunohistochemistry and
immunoblot analysis of excised pulmonary arteries from lambs with CLD,
compared with control term lambs, showed decreased soluble guanylate cyclase
(sGC). These results suggest that loss of pulmonary vascular responsiveness to
iNO in preterm lambs with CLD results from impaired signaling, possibly
related to deficient or defective activation of sGC, the intermediary enzyme
through which iNO induces increased vascular smooth muscle cell cGMP and
resultant vasodilation.
neonatal lung injury; bronchopulmonary dysplasia; inhaled nitric oxide; pulmonary circulation; soluble guanylate cyclase; pulmonary vascular resistance; newborn sheep
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