Anne-Beate Solås scite author profile

We tested if reoxygenation with 100% O₂ was superior to 21% O₂ after combined cerebral hypoxemia-ischemia-hypercapnia (HIH) in newborn piglets. Twenty-eight piglets were randomized to reoxygenation with 100 or 21% O₂ following asphyxia. Asphyxia was induced by ventilation with 8% O₂, adding CO₂, and temporary occlusion of both common carotid arteries. After 20 min, reoxygenation-reperfusion was started with 21% O₂ (HIH 21% group, n = 13) or 100% O₂ (HIH 100% group, n = 11) for 30 min followed by 21% O₂. All piglets were observed for 2 h. We measured mean arterial blood pressure (MABP), changes in microcirculation in the cerebral cortex (laser Doppler), and extracellular concentrations of hypoxanthine in the cortex and amino acids in the striatum (microdialysis). We found significantly higher MABP and better restoration of microcirculation after reoxygenation with 100% compared with 21% O₂, but no differences in biochemical markers were found between the groups. This indicates that the brain tolerated reoxygenation with 21% as well as with 100% O₂ in the present model of experimental asphyxia in spite of the differences in MABP and cerebral microcirculation.

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Comparison of Short- and Long-Duration Oxygen Treatment after Cerebral Asphyxia in Newborn Piglets

Solås

Munkeby

Saugstad

2004

Pediatr Res

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We tested whether reoxygenation with 100% O(2) for 5 min after experimental asphyxia in newborn piglets was as efficient as 100% O(2) for 20 min compared with room air. Forty-one anesthetized piglets, 1-3 d old, were randomized to cerebral hypoxemia-ischemia-hypercapnia (HIH) or control (n = 5). HIH was achieved by ventilation with 8% O(2), temporary occlusion of the common carotid arteries, and adding of CO(2). After 25 min, reoxygenation-reperfusion was started with 100% O(2) for 20 min (group 1, n = 12), 100% O(2) for 5 min (group 2, n = 12), or 21% O(2) (group 3, n = 12). All piglets were observed for 2 h. During reoxygenation-reperfusion, significantly higher blood pressure and more complete restoration of microcirculation (laser Doppler flow) in the cerebral cortex was found in both groups reoxygenated with 100% O(2) compared with 21% O(2) (regional cerebral blood flow >or=100% versus 70% of baseline, p = 0.04). Reoxygenation with 100% O(2) for 5 min was as efficient as 20 min. Oxygen delivery in cortex was significantly higher in groups 1 and 2 compared with group 3 (p = 0.03), but there were no significant differences in cerebral metabolic rate for oxygen. In the striatum, no significant differences in flow or extracellular glutamate, glycerol, and lactate/pyruvate ratio were found between the groups. In conclusion, after experimental asphyxia, newborn piglets can be reoxygenated as efficiently with 100% O(2) for only 5 min as 100% O(2) for 20 min compared with room air.

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Anne-Beate Solås

Cerebral hypoxemia-ischemia and reoxygenation with 21% or 100% oxygen in newborn piglets: Effects on extracellular levels of excitatory amino acids and microcirculation

Reoxygenation with 100 or 21% Oxygen after Cerebral Hypoxemia-Ischemia-Hypercapnia in Newborn Piglets

Comparison of Short- and Long-Duration Oxygen Treatment after Cerebral Asphyxia in Newborn Piglets

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