The objective of the study was to investigate the amplitude and modulation
of the human soleus Hoffmann (H) reflex during walking and during running a
t different speeds.
2. EMGs were recorded with surface electrodes from the soleus, the medial a
nd lateral head of the gastrocnemius, the vastus lateralis and the anterior
tibial muscles. The EMGs and the soleus H reflex were recorded while walki
ng on a treadmill at 4.5 km h(-1) and during running at 8, 12 and 15 km h(-
1).
3. The amplitudes of the M wave and the Ii reflex were normalized to the am
plitude of a maximal M wave elicited by a supramaximal stimulus just after
the H reflex to compensate for movements of the recording and stimulus elec
trodes relative to the nerve and muscle fibres. The stimulus intensity was
set to produce M waves that had an amplitude near to 25% of the maximal M w
ave measured during the movements. As an alternative, the method of averagi
ng of sweeps in sixteen intervals of the gait cycle was applied to the data
. In this case the amplitude of the H reflex nias expressed relative to the
maximal M ware measured whilst in the standing position.
4. The amplitude of the H reflex was modulated during the gait cycle at all
speeds. During the stance phase the reflex was facilitated and during the
swing and flight phases it was suppressed. The size of the maximal M wave v
aried during the gait cycle and this variation was consistent for each subj
ect although different among subjects.
5. The peak amplitude of the H reflex increased significant,ly (P = 0.04) f
rom walking at 4 5 km h(-1) to running at 12 and 15 km h(-1) when using the
method of correcting for variations of the maximal M wave during the gait
cycle. The sweep averaging method showed a small but non-significant decrea
se (P = 0 3) from walking to running at 8 km h(-1) and a small decrease wit
h running speed (P = 0 3). The amplitude of the EMG increased from walking
to running and with running speed.
6. The relatively large H teflex recorded during the stance phase in runnin
g indicates that the stretch reflex may influence the muscle mechanics duri
ng the stance phase by contributing to the motor output and enhancing muscl
e stiffness.