A new method for quantitative determination of cytochrome oxidase (C.O.) activity was applied to diencephalic structures of the limbic system that are closely connected anatomically, that is, the mammillary bodies (MB) and the anterior nucleus of the thalamus (AT). This method makes it possible to easily evaluate the oxidative metabolic capacity of brain regions, an index of their functionality. By using this technique, we studied the postnatal development of both structures in Wistar rats of 14, 21, 30, and 120 days of age. Furthermore, animals of 730 days were included in order to evaluate the effects of aging on C.O. activity of these structures. The results showed a significant increase in the C.O. activity of the subdivisions of the AT, its levels remaining constant until the adult age, with a significant decrease in its activity in aged animals. In the MB, only the increase in C.O. activity of the medial mammillary nucleus (pars medialis) was significant until the adult age. A decrease of C.O. values with aging was significant only in the lateral mammillary nucleus. These data suggest that there is a wide heterogeneity in the maturation and aging of brain oxidative metabolism in diencephalic structures.