Middle cerebral artery blood velocity and plasma catecholamines during exercise

During dynamic exercise, mean blood velocity (V_mean) in the middle cerebral artery (MCA) demonstrates a graded increase to work rate and reflects regional cerebral blood flow. At a high work rate, however, vasoactive levels of plasma catecholamines could mediate vasoconstriction of the MCA and thereby elevate V_mean at a given volume flow. To evaluate transcranial Doppler-determined V_mean at high plasma catecholamine levels, seven elite cyclists performed a maximal performance test on a bicycle ergometer. Results were compared with those elicited during five incremental exercise bouts and during rhythmic handgrip when plasma catecholamines are low. During rhythmic handgrip the V_mean was elevated by 21±3% (mean±SE), which was not statistically different from that established during moderate cycling. However, at the highest submaximal and maximal work intensities on the bicycle ergometer, V_mean increased by 31±3% and 48±4%, respectively, and this was significantly higher compared to handgrip (P<0.05). During maximal cycling, plasma adrenaline increased from 0.21±0.04 nmol L^-1 at rest to 4.18±1.46 nmol L^-1, and noradrenaline increased from 0.79±0.08 to 12.70±1.79 nmol L^-1. These levels were 12- to 16-fold higher than those during rhythmic handgrip (adrenaline: 0.34±0.03 nmol L^-1; noradrenaline: 0.78±0.05 nmol L^-1). The increase in V_mean during intense ergometer cycling conforms to some middle cerebral artery constriction elicited by plasma catecholamines. Such an influence is unlikely during rhythmic handgrip compared with low intensity cycling.