OBJECTIVE: We investigated the effect of hyperthermic pretreatment 24 hours
before hypoxic-ischemic on neuronal cell damage in 7-day-old mts.
METHODS: Newborn rats were separated on postnatal day 7 into two groups 1)
preheated (those exposed to 2 hours of hyperthermic pretreatment at 42-43C)
(n = 29), and 2) nonheated (n = 20). At 24 hours after the Il)hyperthermic
stress, rats from both groups were subjected to left carotid artery ligati
on followed by 2 hours of hypoxia (8% oxygen/92% nitrogen) at 33C. All rats
were killed 1 week after hypoxia-ischemia, and brains were extracted for h
istologic study. A different group of 7-day-old vats (n = 8) was placed in
the same hyperthermic environment as mentioned above for 2 hours, and 24 ho
urs after heat exposure brains were extracted for immunohistochemistry of h
eat-shock protein 70.
RESULTS: The fetal incidence of hypoxic-ischemic brain damage significantly
decreased in the preheated group (12 of 25 [48%] compared with the nonheat
ed group (17 of 20 [85%]; P < .03). The induction of immunoreactive heat-sh
ock protein 70 was observed mainly in glial and vascular endothelial cells
and, in a lesser amount, in neuronal cells of the cerebral cortex and hippo
campus.
CONCLUSION: Incidence of hypoxic-ischemia brain damage is consistently redu
ced by 2 hours of hyperthermic pretreatment in 7-day-old vats. Copyright (C
) 2000 by the Society for Gynecologic Investigation.