Abstract
The aim of this study was to explore the primary afferent depolarization mechanism, to determine whether the soleus transspinal evoked potential (TEP), elicited through transcutaneous spinal cord stimulation over the L1-L2 level, is modulated by presynaptic inhibition and heteronymous facilitation, similar to the Hoffmann (H) reflex, elicited by posterior tibial nerve stimulation. Twenty subjects participated in two experiments. Experiment 1 assessed D(1) and D(2) inhibition by conditioning the H reflex and TEP with peroneal nerve stimulation at different interstimulus intervals (ISIs; ranging from 1 to 200 ms). Experiment 2 examined heteronymous facilitation of responses using femoral nerve conditioning stimulation (ISIs ranging from -1 to -10 ms). Conditioned responses (H(PSI) or TEP(PSI) and H(FAC) or TEP(FAC)) were compared with unconditioned ones (H(TEST) or TEP(TEST)). Concerning D(1) and D(2) inhibition, results did not reveal any significant difference between the two responses (p = 0.89 and p = 0.51 for D(1) and D(2), respectively). Inhibition was observed at all ISIs for D(1) and at the 100 and 200 ms ISIs for D(2). Facilitation patterns were also comparable between the two responses. Moreover, a negative correlation was observed between the modulation of soleus TEP and tibialis anterior TEP (conditioning muscle during inhibition), whereas a positive correlation was obtained between soleus TEP and quadriceps TEP (conditioning muscle during facilitation). The similar modulations between the two responses suggest that TEP can be an alternative to the H reflex for studying spinal circuits, with the advantage of offering insight into the activity of multiple lower-limb muscles.