Nitric oxide radicals produced in the rat brain subjected to ischemia-
hypoxia were trapped by the systemically administered diethyldithiocar
bamate and iron. The right hemisphere of the brain was then removed an
d frozen with liquid nitrogen, Three-dimensional spatial distribution
of the nitric oxide radicals in this hemisphere was performed using el
ectron paramagnetic resonance imaging techniques. The results suggest
that nitric oxide radicals were produced and trapped in the areas whic
h are known to have high nitric oxide synthase activity, such as pirif
orm cortex, hippocampus, hypothalamus, amygdala, and substantia nigra.
In this model, which did not interrupt the posterior circulation, the
production and trapping of nitric oxide in the cerebellum was relativ
ely weak.