Time course of the effects of prenatal gamma irradiation on the dorsal lateral geniculate nucleus of Swiss mice

Abstract: A previous study reported that adult mice irradiated at the 16th embryonic day present a severe neuronal number reduction in the dorsal lateral geniculate thalamic nucleus. In the present study, we investigated the time course of the effects of prenatal irradiation on this thalamic nucleus. One day after irradiation, a great number of pyknotic figures were seen mainly in the cerebral proliferative zones. In the geniculate nucleus, only scattered pyknotic figures were identified. On the first week after birth, … Show more

“…Other researchers have suggested that cortical neurons will die later in development following prenatal irradiation due to a lack of sufficient synaptic connections (76). Additionally, nerve growth factor (NGF) production in mouse neurons has been shown to be reduced following irradiation (77). Because radiation interferes with the processes regulating normal cell death, exposure may induce apoptosis in neurons that would not have otherwise been removed from the growing brain and our underlying assumption may not be valid.…”

Final Technical Report

“…Other researchers have suggested that cortical neurons will die later in development following prenatal irradiation due to a lack of sufficient synaptic connections (76). Additionally, nerve growth factor (NGF) production in mouse neurons has been shown to be reduced following irradiation (77). Because radiation interferes with the processes regulating normal cell death, exposure may induce apoptosis in neurons that would not have otherwise been removed from the growing brain and our underlying assumption may not be valid.…”

Final Technical Report

Increased lateralization in rotational side preference in male mice rendered acallosal by prenatal gamma irradiation

Prenatal irradiation–induced brain neuropathology and cognitive impairment