Impaired Cognitive Performance in Mice Exposed to Prolonged Hyperoxia.

Abstract

Supplementation of oxygen at concentrations significantly above environmental level for prolonged periods may lead to hyperoxia and tissue toxicity. The mammalian brain undergoes structural and functional changes during adaptation to hypoxia and hyperoxia. In this study we investigated the effect of prolonged hyperoxic exposure on cognitive and motor performance in mice. Two-month-old male mice were placed in either hyperoxic (50% O2) or normoxic conditions for 3weeks. Cognitive function was measured using the Y-maze test. High alteration rate between the three arms of the maze is indicative of sustained memory and cognitive function. Motor function was measured using the grip strength and rotarod tests. In the rotarod test high speed and long latency are indicative of coordination and resistance. After 3weeks of exposure, hematocrit levels were significantly decreased in the hyperoxia group compared to normoxic control littermates (%, mean±SD, 37.8±1.3, n=15 vs. 49.9±5.1, n=15, p<0.05). In the Y-maze test, chronic hyperoxic exposure resulted in a statistically significant decrease in alteration rate compared to normoxic control (%, mean±SD, 53.4±9.9, n=30 vs. 61.2±9.5, n=15, p<0.05). The rotarod and grip strength tests did not show statistically significant changes between the two groups. Our data suggest that chronic hyperoxia may lead to decreased cognitive performance in adult mice, which may be secondary to structural and functional changes in the brain.