Associative plasticity in the human motor cortex is enhanced by concurrently targeting separate muscle representations with excitatory and inhibitory protocols

Paired associative stimulation (PAS) induces changes in the excitability of human sensorimotor cortex that outlast the procedure. PAS typically involves repeatedly pairing stimulation of a peripheral nerve that innervates an intrinsic hand muscle with transcranial magnetic stimulation over the representation of that muscle in the primary motor cortex. Depending on the timing of the stimuli (interstimulus interval of 25 or 10 ms), PAS leads to either an increase (PAS₂₅) or a decrease (PAS₁₀) in excitability. Both protocols, however, have been associated with an increase in excitability of nearby muscle representations not specifically targeted by PAS. Based on these spillover effects, we hypothesized that an additive, excitability-enhancing effect of PAS₂₅ applied to one muscle representation may be produced by simultaneously applying PAS₂₅ or PAS₁₀ to a nearby representation. In different experiments prototypical PAS₂₅ targeting the left thumb representation [abductor pollicis brevis (APB)] was combined with either PAS₂₅ or PAS₁₀ applied to the left little finger representation [abductor digiti minimi (ADM)] or, in a control experiment, with PAS₁₀ also targeting the APB. In an additional control experiment PAS₁₀ targeted both representations. The plasticity effects were quantified by measuring the amplitude of motor evoked potentials (MEPs) recorded before and after PAS. As expected, prototypical PAS₂₅ was associated with an increase in MEP amplitude in the APB muscle. This effect was enhanced when PAS also targeted the ADM representation but only when a different interstimulus timing (PAS₁₀) was used. These results suggest that PAS-induced plasticity is modified by concurrently targeting separate motor cortical representations with excitatory and inhibitory protocols.

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