Although it is known that the vasculatures of the brain and the forearm are sensitive to changes in arterial Pco(2), previous investigations have not made direct comparisons of the sensitivities of cerebral blood flow (CBF) (middle cerebral artery blood velocity associated with maximum frequency of Doppler shift; Vp) and brachial blood flow (BBF) to hypercapnia. We compared the sensitivities of Vp and BBF to hypercapnia in humans. On the basis of the critical importance of the brain for the survival of the organism, we hypothesized that Vp would be more sensitive than BBF to hypercapnia. Nine healthy males (30.1 +/- 5.2 yr, mean +/- SD) participated. Euoxic hypercapnia (end-tidal Po(2) = 88 Torr, end-tidal Pco(2) = 9 Torr above resting) was achieved by using the technique of dynamic end-tidal forcing. Vp was measured by transcranial Doppler ultrasound as an index of CBF, whereas BBF was measured in the brachial artery by echo Doppler. Vp and BBF were measured during two 60-min trials of hypercapnia, each trial separated by 60 min. Since no differences in the responses were found between trials, data from both trials were averaged to make comparisons between Vp and BBF. During hypercapnia, Vp and BBF increased by 34 +/- 8 and 14 +/- 8%, respectively. Vp remained elevated throughout the hypercapnic period, but BBF returned to baseline levels by 60 min. The Vp CO(2) sensitivity was greater than BBF (4 +/- 1 vs. 2 +/- 1%/Torr; P < 0.05). Our findings confirm that Vp has a greater sensitivity than BBF in response to hypercapnia and show an adaptive response of BBF that is not evident in Vp.