Long latency response in soleus muscle evoked by magnetic stimulation at the foramen magnum.

We performed magnetic stimulation at the level of foramen magnum in healthy subjects to evaluate the long latency response in lower limb muscle. Subjects assumed an upright stance and we recorded electromyographic activities in soleus muscle. A late response at the onset latency of approximately 40 ms was elicited. The late response wasn't induced in other lower limb muscles; anterior tibial muscle, quadriceps femoris muscle, and biceps femoris muscle. Additionally, magnetic stimulation to foot motor cortex, basal occiput and cervical nerve roots did not evoke the response with latency of 40 ms. These results reveal the late response in soleus muscle that has not been previously reported. We speculate that it is involved with the long-loop reflex.

Transcranial magnetic stimulation over the cerebellum evokes late potential in the soleus muscle.

Transcranial magnetic stimulation (TMS) with a double cone coil placed over the left lateral side of the basal occiput was able to elicit late electromyographic (EMG) responses at the bilateral soleus muscles (SOL) averaged over 30 stimulation events, with a mean latency of approximately 100 ms. These EMG responses were detected using a low frequency bandpass filter with 0.05 Hz magnetic stimulation on ten healthy subjects in standing posture. As magnetic stimulation over the left basal occiput with a double cone coil can stimulate cerebellar structure, this late response seems to be conducted from the cerebellar structure to the SOL via an as yet unknown descending pathway. Here, we report new late EMG responses in relation to cerebellum or cerebellum related structures.