The results of investigations of the neuromuscular system in man using
a SQUID magnetometer with a second-order gradiometer detector are pre
sented. After electrical stimulation of the tibial nerve in the hollow
of the knee and the triggering of a monosynaptic proprioceptic reflex
(Hoffmann-(H-)reflex), the biomagnetic field was recorded from the do
rsal surface of the lower leg (soleus muscle of the m. triceps surae).
The results obtained indicate that, over and beyond the data provided
by electromyography, diagnostic information is provided on the state
of the neuronal reflex pathways including muscle effector function. Th
e biomagnetic field was evaluated in terms of latency, intensity, comp
osition, characteristic behaviour and site of generation of the signal
. In the geometry used, this noninvasive measuring technique can be em
ployed for offline observation of the spread of excitation through the
muscle, as demonstrated by the response obtained following supramaxim
al stimulation of the supply nerve.