MEASUREMENT OF FIBER PENNATION USING ULTRASOUND IN THE HUMAN QUADRICEPS INVIVO

Real-time ultrasound scanning was used to measure the angles of fibre pennation of vastus lateralis (VL) and vastus intermedius (VI) of the human quadriceps (n = 12) in vivo. The maximum isometric force and cross-sectional area of the quadriceps were also measured. With the knee at right-angles the mean fibre angles for VL and VI respectively were 0.133 (0.021) rad [7.6-degrees (1.2-degrees)] and 0.143 (0.028) rad [8.2-degrees (1.6-degrees)] [mean (SD)], which is within the range of angles measured on cadavers. The mean angle decreased in going from the contracted [VL, 0.244 rad (14-degrees); VI, 0.279 rad (16-degrees)] to the stretched [VL, 0.105 rad (6-degrees); VI, 0.122 rad (7-degrees)] position. There was a significant positive correlation between fibre angle and muscle cross-sectional area but no relationship between fibre angle and force per cross-sectional area. No increase in fibre angle was detected after 3 months strength training. We conclude that ultrasound can be used to measure pennation angles of superficial muscle groups but we could not demonstrate a relationship between pennation and force-generating capacity.