Matching of blood flow to metabolic rate during recovery from moderate exercise in humans.

It is unclear whether measurement of limb or conduit artery blood flow during recovery from exercise provides an accurate representation of flow to the muscle capillaries where gas exchange occurs. To investigate this, we: (a) examined the kinetic responses of femoral artery blood flow (QFA), estimated muscle capillary blood flow (Qcap) and estimated muscle oxygen uptake (VO2m) following cessation of exercise; and (b) compared these responses to verify the adequacy of O2 delivery during recovery. Pulmonary VO2 (VO2p) was measured breath by breath, QFA was measured using Doppler ultrasonography, and deoxy-haemoglobin/myoglobin (deoxy-[Hb/Mb]) was estimated by near-infrared spectroscopy over the rectus femoris in nine healthy subjects during a series of transitions from moderate knee-extension exercise to rest. The time course of Qcap was estimated by rearranging the Fick equation [i.e. Qcap(t) alpha VO2m(t)/deoxy-[Hb/Mb](t)], using the primary component of Vo2p to represent VO2m and deoxy-[Hb/Mb] as a surrogate for arteriovenous O2 difference. There were no significant differences among the overall kinetics of VO2m (tau, 31.4+/-8.2 s), QFA [mean response time (MRT), 34.5+/-20.4 s] and Qcap (MRT, 31.7+/-14.7 s). The VO2m kinetics were also significantly correlated (P<0.05) with those of both QFA and Qcap. Both QFA and Qcap appear to be coupled with VO2m during recovery from moderate knee-extension exercise, such that extraction falls (thus cellular energetic state is not further compromised) throughout recovery.