The present study investigated the role of the postinjection interval in determining the functional consequences of acute ethanol administration in the CNS. Regional cerebral blood flow (RCBF) was determined by the [14C]iodoantipyrine method in 33 brain structures of ethanol-naive Sprague-Dawley rats. In the first experiment, changes in RCBF were assessed 5 and 15 min after a 0.8 g/kg (i.p.) dose of ethanol or water. Five minutes after treatment, rates of RCBF were increased in the motor cortex, agranular insular cortex, and the olfactory tubercle compared to water controls. No significant differences compared to control were found at the 15-min time point, despite the continued presence of ethanol in the blood. Experiment 2 tested whether blood ethanol level was the sole determinant of this response to ethanol by comparing animals with the same blood ethanol level at the 5- and 15-min time points. Greater rates of RCBF were found at 5 min postinjection compared to 15 min, in the motor cortex, agranular insular cortex, caudate/putamen, cerebellum, and the lateral septum. These data demonstrate that the rates of cerebral blood flow are increased in regionally discrete portions of the rat brain shortly after ethanol administration. Furthermore, blood ethanol level is not the exclusive factor governing this functional response.