Modulation of Short-Latency Afferent Inhibition Depends on Digit and Task-Relevance

Asmussen, Michael J.; Zapallow, Christopher M.; Jacobs, Mark F.; Lee, Kevin G.H.; Tsang, Philemon; Nelson, Aimee J.

doi:10.1371/journal.pone.0104807

Cited by 31 publications

(29 citation statements)

References 32 publications

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“…Nonetheless, the attentional dissociation observed here is consistent with a differential functional role of afferent input to the PA and AP I-wave circuits. PA SAI is reduced during finger movement with the reduction onset occurring during the preparatory phase (Asmussen et al, 2013) and involved in the surround inhibition of muscles not involved in the planned movement (Voller et al, 2006; Asmussen et al, 2014) suggesting a role in spatial and temporal priming of actions. Again, very little research has investigated the functional significance of the AP circuit however, the selective sensitivity of AP SAI to our attention manipulation is consistent with a modulatory mechanism that provides a substrate for cognitive influence upon selected actions.…”

Section: Discussionmentioning

confidence: 99%

“…Further, the positive relationship between the N20-P25 somatosensory evoked potential (SEP) and magnitude of SAI suggests that at least part of the network mediating SAI is dependent upon thalamo-cortical projections to somatosensory cortex (Bailey et al, 2016). Although there is a strong relationship between somatosensory afference and SAI, SAI is a malleable phenomenon modulated by movement timing and the relevance of a muscle to voluntary movement (Voller et al, 2006; Asmussen et al, 2013; Asmussen et al, 2014). Central cholinergic involvement, in addition to GABA A , in the generation of SAI (Ziemann et al, 2014) makes it a potential method to probe the effect of cognition on motor cortex excitability through attention-related afferent modulation.…”

Section: Introductionmentioning

confidence: 99%

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Attention modulates specific motor cortical circuits recruited by transcranial magnetic stimulation

2017

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Skilled performance and acquisition is dependent upon afferent input to motor cortex. The present study used short-latency afferent inhibition (SAI) to probe how manipulation of sensory afference by attention affects different circuits projecting to pyramidal tract neurons in motor cortex. SAI was assessed in the first dorsal interosseous muscle while participants performed a low or high attention demanding visual detection task. SAI was evoked by preceding a suprathreshold transcranial magnetic stimulus with electrical stimulation of the median nerve at the wrist. To isolate different afferent intracortical circuits in motor cortex SAI was evoked using either posterior-anterior (PA) or anterior-posterior (PA) monophasic current. In an independent sample, somatosensory processing during the same attention demanding visual detection tasks was assessed using somatosensory evoked potentials (SEP) elicited by median nerve stimulation. SAI elicited by AP TMS was reduced under high compared to low visual attention demands. SAI elicited by PA TMS was not affected by visual attention demands. SEPs revealed that the high visual attention load reduced the fronto-central P20-N30 but not the contralateral parietal N20-P25 SEP component. P20-N30 reduction confirmed the visual attention task altered sensory afference. The current results offer further support that PA and AP TMS recruit different neuronal circuits. AP circuits may be one substrate by which cognitive strategies shape sensorimotor processing during skilled movement by altering sensory processing in premotor areas.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Attention modulates specific motor cortical circuits recruited by transcranial magnetic stimulation

2017

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“…J Physiol 596.21 movement planning (Voller et al 2005(Voller et al , 2006Richardson et al 2008;Ni et al 2011;Asmussen et al 2013Asmussen et al , 2014Cho et al 2016). We recently reported that there is no significant relationship between afferent inhibition and tactile or motor performance (Turco et al 2018b).…”

Section: Functional Relevance Of Afferent Inhibitionmentioning

confidence: 99%

Effects of lorazepam and baclofen on short‐ and long‐latency afferent inhibition

Turco

El-Sayes

Locke

et al. 2018

The Journal of Physiology

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The afferent volley evoked by peripheral nerve stimulation has an inhibitory influence on transcranial magnetic stimulation induced motor evoked potentials. This phenomenon, known as afferent inhibition, occurs in two phases: short-latency afferent inhibition (SAI) and long-latency afferent inhibition (LAI). SAI exerts its inhibitory influence via cholinergic and GABAergic activity. The neurotransmitter receptors that mediate LAI remain unclear. The present study aimed to determine whether LAI is contributed by GABA and/or GABA receptor activity. In a double-blinded, placebo-controlled study, 2.5 mg of lorazepam (GABA agonist), 20 mg of baclofen (GABA agonist) and placebo were administered to 14 males (mean age 22.7 ± 1.9 years) in three separate sessions. SAI and LAI, evoked by stimulation of the median nerve and recorded from the first dorsal interosseous muscle, were quantified before and at the peak plasma concentration following drug ingestion. Results indicate that lorazepam reduced LAI by ∼40% and, in support of previous work, reduced SAI by ∼19%. However, neither SAI, nor LAI were altered by baclofen. In a follow-up double-blinded, placebo-controlled study, 10 returning participants received placebo or 40 mg of baclofen (double the dosage used in Experiment 1). The results obtained indicate that SAI and LAI were unchanged by baclofen. This is the first study to show that LAI is modulated by GABA receptor activity, similar to SAI, and that afferent inhibition does not appear to be a GABA mediated process.

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“…Indeed, alterations of SAI have been observed in association with cognitive deficits [46][47][48], movement preparation [49], modifications of cholinergic [48], GABAergic [50] and dopaminergic activity [51]. This may also account for the weak, although significant, correlation that we here report between SAI and PDGF-CSF.…”

Section: Discussionmentioning

confidence: 43%

PDGF Modulates Synaptic Excitability and Short-Latency Afferent Inhibition in Multiple Sclerosis

Mango

Nisticò

Furlan³

et al. 2018

Neurochem Res

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Maintenance of synaptic plasticity reserve is crucial to contrast clinical deterioration in MS and PDGF plays a key role in this phenomenon. Indeed, higher cerebrospinal fluid PDGF concentration correlates with improved clinical recovery after a relapse, and the amplitude of LTP-like cortical plasticity in relapsing-remitting MS patients. However, LTP-like cortical plasticity varies depending on the individual level of inhibitory cortical circuits. Aim of this study was to explore whether PDGF-CSF concentration correlates with inhibitory cortical circuits explored by means of transcranial magnetic stimulation in patients affected by relapsing-remitting MS. We further performed electrophysiological experiments evaluating GABAergic transmission in the experimental autoimmune encephalomyelitis (EAE) hippocampus. Our results reveal that increased CSF PDGF concentration correlates with decreased short afferent inhibition in the motor cortex in MS patients and decreased GABAergic activity in EAE. These findings show that PDGF affects GABAergic activity both in MS patients and in EAE hippocampus.

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Modulation of Short-Latency Afferent Inhibition Depends on Digit and Task-Relevance

Cited by 31 publications

References 32 publications

Attention modulates specific motor cortical circuits recruited by transcranial magnetic stimulation

Attention modulates specific motor cortical circuits recruited by transcranial magnetic stimulation

Effects of lorazepam and baclofen on short‐ and long‐latency afferent inhibition

PDGF Modulates Synaptic Excitability and Short-Latency Afferent Inhibition in Multiple Sclerosis

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