Tihomir V. Ilić scite author profile

Paired transcranial magnetic stimulation has greatly advanced our understanding of the mechanisms which control excitability in human motor cortex. While it is clear that paired‐pulse excitability depends on the exact interstimulus interval (ISI) between the first (S1) and second stimulus (S2), relatively little is known about the effects of the intensities of S1 and S2, and the effects of manipulating neurotransmission through the GABAA receptor. When recording the motor evoked potential (MEP) from the resting abductor digiti minimi (ADM) muscle, using a fixed ISI of 1.5 ms, and expressing the interaction between S1 and S2 as MEPS1+S2/(MEPS1+ MEPS2), then a systematic variation of the intensities of S1 and S2 revealed short‐interval intracortical facilitation (SICF) if S1 and S2 were approximately equal to MEP threshold (RMT), or if S1 > RMT and S2 < RMT. In contrast, short‐interval intracortical inhibition (SICI) occurred if S1 < RMT and S2 > RMT. Contraction of the ADM left SICI unchanged but reduced SICF. The GABAA receptor agonist diazepam increased SICI and reduced SICF in the resting ADM while diazepam had no effect during ADM contraction. Surface EMG and single motor unit recordings revealed that during ADM contraction SICI onset was at the I3‐wave latency of S2, whereas SICF typically ‘jumped up’ by one I‐wave and started with the I2‐wave latency of S2. Findings suggest that SICI is mediated through a low‐threshold GABAA receptor‐dependent inhibitory pathway and summation of IPSP from S1 and EPSP from S2 at the corticospinal neurone. In contrast, SICF originates through non‐synaptic facilitation at the initial axon segment of interneurones along a high‐threshold excitatory pathway.

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Pharmacological Modulation of Plasticity in the Human Motor Cortex

Ziemann

Meintzschel

Korchounov

et al. 2006

Neurorehabil Neural Repair

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Ischemic cerebral stroke is the leading cause of long-term disability among adults in industrialized countries. One fundamental but still not sufficiently solved question is how to improve disability after stroke. Here, evidence will be reviewed on how pharmacological treatment modulates plasticity and learning in the intact human motor cortex. It will be argued that these data may be useful for advancing the concepts of pharmacotherapy for recovery after stroke.

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Subtle hemispheric asymmetry of motor cortical inhibitory tone

Ilić

2004

Clinical Neurophysiology

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Opportunities for Guided Multichannel Non-invasive Transcranial Current Stimulation in Poststroke Rehabilitation

Otal¹,

Dutta

Foerster³

et al. 2016

Front. Neurol.

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Stroke is a leading cause of serious long-term disability worldwide. Functional outcome depends on stroke location, severity, and early intervention. Conventional rehabilitation strategies have limited effectiveness, and new treatments still fail to keep pace, in part due to a lack of understanding of the different stages in brain recovery and the vast heterogeneity in the poststroke population. Innovative methodologies for restorative neurorehabilitation are required to reduce long-term disability and socioeconomic burden. Neuroplasticity is involved in poststroke functional disturbances and also during rehabilitation. Tackling poststroke neuroplasticity by non-invasive brain stimulation is regarded as promising, but efficacy might be limited because of rather uniform application across patients despite individual heterogeneity of lesions, symptoms, and other factors. Transcranial direct current stimulation (tDCS) induces and modulates neuroplasticity, and has been shown to be able to improve motor and cognitive functions. tDCS is suited to improve poststroke rehabilitation outcomes, but effect sizes are often moderate and suffer from variability. Indeed, the location, extent, and pattern of functional network connectivity disruption should be considered when determining the optimal location sites for tDCS therapies. Here, we present potential opportunities for neuroimaging-guided tDCS-based rehabilitation strategies after stroke that could be personalized. We introduce innovative multimodal intervention protocols based on multichannel tDCS montages, neuroimaging methods, and real-time closed-loop systems to guide therapy. This might help to overcome current treatment limitations in poststroke rehabilitation and increase our general understanding of adaptive neuroplasticity leading to neural reorganization after stroke.

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Short latency afferent inhibition and facilitation in patients with writer's cramp

et al. 2004

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Patients with writer's cramp (WC) show abnormalities of sensorimotor integration possibly contributing to their motor deficit. We studied sensorimotor integration by determining short-latency afferent inhibition (SAI) in 12 WC patients and 10 age-matched healthy controls. A conditioning electrical median nerve stimulus was followed 14 to 36 msec later by transcranial magnetic stimulation of the contralateral primary motor cortex, and motor evoked potentials (MEP) were recorded from the relaxed or contracting abductor pollicis brevis muscle (APB). SAI was normal in WC but during APB relaxation SAI was followed by abnormal MEP facilitation, which was absent during APB contraction and in the controls. These findings suggest that somatosensory short-latency inhibitory input into the primary motor cortex is normal in WC, whereas a later excitatory input, which very likely reflects the long-latency reflex II, is exaggerated.

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Tihomir V. Ilić

Short‐interval paired‐pulse inhibition and facilitation of human motor cortex: the dimension of stimulus intensity

Pharmacological Modulation of Plasticity in the Human Motor Cortex

Subtle hemispheric asymmetry of motor cortical inhibitory tone

Opportunities for Guided Multichannel Non-invasive Transcranial Current Stimulation in Poststroke Rehabilitation

Short latency afferent inhibition and facilitation in patients with writer's cramp

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