Calf and shin muscle oxygenation patterns and femoral artery blood flow during dynamic plantar flexion exercise in humans.

The effects of dynamic plantar flexion exercise [40, 60, and 80 contractions·min–1 (cpm)] on calf and shin muscle oxygenation patterns and common femoral artery blood flow (\( \dot Q_{{\rm fa}} \) ) were examined in six female subjects [mean age 21 (SD 1) years] who exercised for 1 min at 33% of their maximal voluntary contraction at ankle angles between 90° and 100°. Spatially resolved near-infrared spectroscopy was used to measure medial gastrocnemius, lateral soleus (synergist) and anterior tibialis (antagonist) muscle oxygen saturation (SO2, %). \( \dot Q_{{\rm fa}} \) was measured by ultrasound Doppler. The SO2 changed significantly only in the medial gastrocnemius and its decrease (up to about 30%) was independent of the contraction frequencies examined. The increase in \( \dot Q_{{\rm fa}} \) , at the end of exercise, was highest at 80 cpm. When the exercise at 60 cpm was prolonged until exhaustion [mean 2.7 (SD 1.1) min], medial gastrocnemius SO2 decreased, reaching its minimal value [mean 30 (SD 10)%] within the 1st min, and had partially recovered before the end of the exercise with concomitant increases in total haemoglobin content and \( \dot Q_{{\rm fa}} \) . These results suggest that the medial gastrocnemius is the muscle mostly involved in dynamic plantar flexion exercise and its oxygen demand with increases in contraction frequency and duration is associated with an up-stream increase in \( \dot Q_{{\rm fa}} \) .