[en] The developing mammalian brain is highly susceptible to environmental teratogenic insults, because of its long-lasting sensitive period extending from the beginning of embryonic organogenesis to the postnatal infantile period, the great vulnerability of undifferentiated neural cells to wide range of environmental agents including ionizing radiation, and the lack of further reproductive capacity of neurons. Disturbances in the production of neurons, and their migration to the cerebral and cerebellar cortices, give rise to malformations of the brain, such as an absent corpus callosum, disorganized cortical architecture, abnormal fissuring of the cerebral and cerebellar hemispheres, heterotopic cortical gray matter, ectopic cerebellar granule cells, microcephaly, etc. The critical developmental stage for the induction of histogenetic disorders of the cerebral cortex in humans is 8 weeks of pregnancy and following some weeks. This corresponds to day 13 of pregnancy for mice and day 15 for rats, i.e., the ventricular cells of fetal telencephalon are most susceptible to radiation-induced cell death in this stage of development. The lowest doses of X- and gamma-radiations which induce detectable biological effects in rats and mice are around 0.02 Gy in increasing acute cell death. Reduced brain weight and abnormal dendritic arborization are induced by 0.25 Gy and more. Histological abnormalities are produced by 0.5 Gy and more, and microcephaly and cerebellar malformations are by 1 Gy and more. (author)