S. Velikova scite author profile

Shortly after the application of weak transcranial direct current stimulation (tDCS) to the animal and human brain, changes in corticospinal excitability, which mainly depend on polarity, duration and current density of the stimulation protocol, have been reported. In humans, anodal tDCS has been reported to enhance motor-evoked potentials (MEPs) elicited by transcranial brain stimulation while cathodal tDCS has been shown to decrease them. Here we investigated the effects produced by tDCS on mice motor cortex. MEPs evoked by transcranial electric stimulation were recorded from forelimbs of 12 C57BL/6 mice, under sevofluorane anaesthesia, before and after (0, 5 and 10 min) anodal and cathodal tDCS (tDCS duration 10 min). With respect to sham condition stimulation (anaesthesia), MEP size was significantly increased immediately after anodal tDCS, and was reduced after cathodal tDCS (approximately 20% vs. sham). Both effects declined towards basal levels in the following 10 min. Although the site and mechanisms of action of tDCS need to be more clearly identified, the directionality of effects of tDCS on mice MEPs is consistent with previous findings in humans. The feasibility of tDCS in mice suggests the potential applicability of this technique to assess the potential therapeutic options of brain polarization in animal models of neurological and neuropsychiatric diseases.

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Action observation and motor imagery in performance of complex movements: Evidence from EEG and kinematics analysis

Gonzalez-Rosa¹,

Natali²,

Tettamanti³

et al. 2015

Behavioural Brain Research

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HIGHLIGHTS• The role of motor imagery (MI) and action observation (AO) methods was examined.• We analyzed brain correlates underlying learning of a complex coordination task.• Different activation patterns related to EEG spectral bands were elicited by AO and MI.• AO showed a more efficient activation of cortical resources during task execution.• AO may be more effective than MI in promoting early motor learning. ABSTRACTMotor imagery (MI) and action observation (AO) are considered effective cognitive tools for motor learning, but little work directly compared their cortical activation correlate in relation with subsequent performance. We compared AO and MI in promoting early learning of a complex four-limb, hand-foot coordination task, using electroencephalographic (EEG) and kinematic analysis. Thirty healthy subjects were randomly assigned into three groups to perform a training period in which AO watched a video of the task, MI had to imagine it, and Control (C) was involved in a distracting computation task. Subjects were then asked to actually perform the motor task with kinematic measurement of error time with respect to the correct motor performance. EEG was recorded during baseline, training and task execution, with task-related power (TRPow) calculation for sensorimotor (alpha and beta) rhythms reactive with respect to rest. During training, the AO group had a stronger alpha desynchronization than the MI and C over frontocentral and bilateral parietal areas. However, during task execution, AO group had greater beta synchronization over bilateral parietal regions than MI and C groups. This beta synchrony furthermore demonstrated the strongest association with kinematic errors, which was also significantly lower in AO than in MI. These data suggest that sensorimotor activation elicited by action observation enhanced motor learning according to motor performance, corresponding to a more efficient activation of cortical resources during task execution. Action observation may be more effective than motor imagery in promoting early learning of a new complex coordination task.

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Deep Repetitive Transcranial Magnetic Stimulation With H-coil on Lower Limb Motor Function in Chronic Stroke: A Pilot Study

Chieffo

Prezzo²,

Houdayer

et al. 2014

Archives of Physical Medicine and Rehabilitation

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Flash visual evoked potentials in mice can be modulated by transcranial direct current stimulation

et al. 2011

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Cognitive impairment and EEG background activity in adults with Down's syndrome: A topographic study

Velikova¹,

Magnani

Arcari

et al. 2011

Hum. Brain Mapp.

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Action-related semantic content and negation polarity modulate motor areas during sentence reading: An event-related desynchronization study

et al. 2012

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Involvement of cortico-subcortical circuits in normoacousic chronic tinnitus: A source localization EEG study

Houdayer¹,

Teggi²,

Velikova³

et al. 2015

Clinical Neurophysiology

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HIGHLIGHTS• We used sLORETA to study the cerebral activity in normoacousic tinnitus sufferers.• EEG sources were decreased in left temporal and inferior parietal gyri in patients.• Cortico-thalamo-cortical circuits can be involved without thalamic deafferentation. ABSTRACTObjective: To better characterize brain circuits dysfunctions in normoacousic tinnitus sufferers. Methods: 17 normoacousic chronic, unilateral high-pitched tinnitus sufferers (6 females, 43.6 ± 9.8 y.o, disease duration 22 ±35 months) underwent a 29-channel resting-state electroencephalography (EEG -5 min opened-eyes, 5 min closed-eyes) and auditory oddball paradigm for event-related potentials analyses (ERPs -NI, P2 and P300). Cortical 3D distribution of current source density was computed with sLORETA. Results were compared with 17 controls (9 females, 45.7 ± 15.1 y.o). Results: Eyes opened, tinnitus sufferers had lower alpha and beta sources in the left inferior parietal lobule. Eyes closed, tinnitus sufferers had decreased alpha sources in the left inferior temporal and post-central gyri, and low gamma sources in the left middle temporal gyrus. EEG data did not correlate with tinnitus sufferers' clinical features. Subjects with tinnitus had shorter Nl and P2 latencies. P300 did not differ between groups. sLORETA solutions showed decreased sources of these ERPs in the left inferior temporal gyrus in the tinnitus group. Conclusions: We showed cortico-thalamo-cortical involvements in normoacousic tinnitus with hyperexcitability of the left auditory cortex and inferior temporal gyrus. Significance: This might reflect processes of maladaptive cortical plasticity and memory consolidation. Further validation is needed to establish the value of this tool in customizing therapeutic approach.

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S. Velikova

Dysfunctional brain circuitry in obsessive–compulsive disorder: Source and coherence analysis of EEG rhythms

Brain transcranial direct current stimulation modulates motor excitability in mice

Action observation and motor imagery in performance of complex movements: Evidence from EEG and kinematics analysis

Deep Repetitive Transcranial Magnetic Stimulation With H-coil on Lower Limb Motor Function in Chronic Stroke: A Pilot Study

Flash visual evoked potentials in mice can be modulated by transcranial direct current stimulation

Cognitive impairment and EEG background activity in adults with Down's syndrome: A topographic study

Action-related semantic content and negation polarity modulate motor areas during sentence reading: An event-related desynchronization study

Involvement of cortico-subcortical circuits in normoacousic chronic tinnitus: A source localization EEG study

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