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Early cerebral metabolic and electrophysiological recovery during controlled hypoxemic resuscitation in piglets

1998; American Physiological Society; Volume: 84; Issue: 4 Linguagem: Inglês

10.1152/jappl.1998.84.4.1208

8750-7587

Bjørn Aage Feet, Nikolai C. Brun, Lena Hellström‐Westas, Niels W. Svenningsen, Gorm Greisen, Ola Didrik Saugstad,

Neuroscience of respiration and sleep

We tested the hypothesis that controlled hypoxemic resuscitation improves early cerebral metabolic and electrophysiological recovery in hypoxic newborn piglets. Severely hypoxic anesthetized piglets were randomly divided into three resuscitation groups: hypoxemic, 21% O 2 , and 100% O 2 groups (8 in each group). The hypoxemic group was mechanically ventilated with 12–18% O 2 adjusted to achieve a cerebral venous O 2 saturation of 17–23% (baseline; 45 ± 1%). Base excess (BE) reached −22 ± 1 mM at the end of hypoxia. During a 2-h resuscitation period, no significant differences in time to recovery of electroencephalography (EEG), quality of EEG at recovery, or extracellular hypoxanthine concentrations in the cerebral cortex and striatum were found among the groups. BE and plasma hypoxanthine, however, normalized significantly more slowly during controlled hypoxemic resuscitation than during resuscitation with 21 or 100% O 2 . We conclude that early brain recovery during controlled hypoxemic resuscitation was as efficient as, but not superior to, recovery during resuscitation with 21 or 100% O 2 . The systemic metabolic recovery from hypoxia, however, was delayed during controlled hypoxemic resuscitation.