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Sleep. 2004 Mar 15;27(2):194-201.

Long-term intermittent hypoxia in mice: protracted hypersomnolence with oxidative injury to sleep-wake brain regions.

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Center for Sleep & Respiratory Neurobiology, University of Pennsylvania School of Medicine, Philadelphia, PA 19104, USA.



This study was designed to test the hypothesis that long-term intermittent hypoxia (LTIH), modeling the hypoxia-reoxygenation events of sleep apnea, results in oxidative neural injury, including wake-promoting neural groups, and that this injury contributes to residual impaired maintenance of wakefulness.


Sleep times and oxidative-injury parameters were compared for mice exposed to LTIH and mice exposed to sham LTIH.


Adult male C57BL/6J mice were studied.


Mice were exposed to LTIH or sham LTIH in the lights-on period daily for 8 weeks. Electrophysiologic sleep-wake recordings and oxidative-injury measures were performed either immediately or 2 weeks following LTIH exposures.


At both intervals, total sleep time per 24 hours in LTIH-exposed mice was increased by more than 2 hours, (P<.01). Mean sleep latency was reduced in LTIH-exposed mice relative to sham LTIH mice (8.9 +/- 1.0 minutes vs 12.7 +/- 0.5 minutes, respectively, P<.01). Oxidative injury was present 2 weeks following LTIH in wake-promoting regions of the basal forebrain and brainstem: elevated isoprostane 8,12-iso-IPF2alpha-VI, 22%, P<.05; increased protein carbonylation, 50%, P<.05, increased nitration, 200%, P<.05, and induction of antioxidant enzymes glutathione reductase and methionine sulfoxide reductase A, P<.01.


Exposure to LTIH results in an array of significant oxidative injuries in sleep-wake regions of the brain, and these biochemical changes are associated with marked hypersomnolence and increased susceptibility to short-term sleep loss. The residual forebrain redox alterations in wake-promoting brain regions may contribute to persistent sleepiness in a prevalent disorder, obstructive sleep apnea.

[Indexed for MEDLINE]

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