Abstract
Somatosensory evoked potentials (SEPs) were recorded from the scalp in man to magnetic stimulation of various skeletal muscles. The potentials consisted of several components, the earliest of which decreased in latency as the stimulated site moved rostrally, ranging from 46 msec for stimulation of the gastrocnemius, to 14 msec for stimulation of the deltoid. Experiments were performed to distinguish the mechanisms by which magnetic stimulation of the muscle was effective in evoking these cerebral potentials. For the gastrocnemius, the intensity of the magnetic stimulus needed for evoking cerebral potentials was less than that required for activating mixed or sensory nerves in proximity to the muscle belly (eg, posterior tibial nerve in the popliteal fossa, sural nerve at the ankle). Vibration of the muscle or passive lengthening of the muscle, procedures which activate muscle spindles, were accompanied by a significant attenuation of the potentials evoked by magnetic stimulation of the muscle. Anesthesia of the skin underlying the stimulating coil had no effect on the latency or amplitude of the early components of the magnetically evoked potentials, whereas electrically evoked potentials from skin electrodes were abolished. Thus, the cerebral potentials accompanying magnetic stimulation of the muscle appear to be due to activation of muscle afferents. We suggest that magnetic stimulation of muscle can provide a relatively simple method for quantifying the function of muscle afferents originating from a wide variety of skeletal musculature.
Highlights
Somatosensory evoked potentials (SEPs) were recorded from the scalp in man to magnetic stimulation of various skeletal muscles
We suggest that magnetic stimulation of muscle can provide a relatively simple method for quantifying the function of muscle afferents originating from a wide variety of skeletal musculature Key words: SEPs magnetic stimulation muscle afferent somatosensory evoked potentials
For both types of stimulation, there was a linear correlation between body height and latency of the initial positive component (P40 for magnetic stimulation of the gastrocnemius, and P37 for posterior tibia1 nerve (PTN) electrical stimulation, Fig. 2)
Summary
Somatosensory evoked potentials (SEPs) were recorded from the scalp in man to magnetic stimulation of various skeletal muscles. Experiments were performed to distinguish the mechanisms by which magnetic stimulation of the muscle was effective in evoking these cerebral potentials. We suggest that magnetic stimulation of muscle can provide a relatively simple method for quantifying the function of muscle afferents originating from a wide variety of skeletal musculature Key words: SEPs magnetic stimulation muscle afferent somatosensory evoked potentials. Natural forms of somatosensory stimulation, such as cutaneous deformation by mechanical tap23,24,3o2r air-puff,21muscle afferent activation by muscle or tendon tap,'* pain fiber activation by laser heating of kin,^.^ tem erature receptor activation by sudden cooling" or by rapid warming,[8] have been used for evoking brain potentials as means of quantifying the function of sensory receptors, their afferent nerve fibers, and their specific central pathways
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