This study was designed to compare the effect of fluid percussion brain injury (FPI) on the hypotensive cerebrovascular response in newborn and juvenile pigs as a function of time postinsult and to determine the role of endothelin-1 (ET-1) in any age-dependent differences in hypotensive cerebrovascular regulation after injury. Ten minutes of hypotension (10-15 ml blood/kg) decreased mean arterial blood pressure uniformly in both groups (~45%). In the newborn, hypotensive pial artery dilation (PAD) was blunted within 1 h, remained diminished for at least 72 h, but was resolved within 168 h postinjury (66 ± 4, 69 ± 4, 71 ± 4, and 64 ± 4% inhibition at 1, 4, 8, and 72 h post-FPI). During normotension, regional cerebral blood flow (rCBF) was decreased by FPI, and hypotension further reduced the already decremented rCBF for at least 72 h. Cerebrospinal fluid (CSF) ET-1 was increased from 26 ± 4 to 206 ± 25 pg/ml within 72 h post-FPI, whereas an ET-1 antagonist partially restored impaired hypotensive PAD and altered hypotensive rCBF. In contrast, hypotensive PAD and altered CBF were only inhibited for 4 h post-FPI in the juvenile (56 ± 3 and 34 ± 4% inhibition at 1 and 4 h post-FPI). CSF ET-1 was only increased from 27 ± 4 to 67 ± 9 pg/ml at 4 h, whereas the concentration returned to preinjury value by 8 h post-FPI. ET-1 antagonism similarly partially restored impaired hypotensive PAD and altered hypotensive rCBF. These data show that FPI disturbs cerebral autoregulation during hypotension both to a greater magnitude and for a longer duration in the newborn than in the juvenile. These data suggest that the greater FPI-induced ET-1 release in the newborn could contribute to age-dependent differences in impaired hypotensive cerebral autoregulation after FPI.