Hemispheric Lateralization of Event-Related Brain Potentials in Different Processing Phases during Unimanual Finger Movements (original) (raw)
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Cerebral potentials preceding voluntary bilateral simultaneous finger movements were investigated in 19 right-handed young adult subjects, and were compared with unilateral right-sided finger m n the same experiment. With bilateral movements, the Bereitschaftspotential (BP) was not symmetrical or larger over the dominant hemisphere, but surprisingly, it was larger over the minor hemisphere. The BP averaged -3.66 microV (S.D. 1.96) over the left precentral region and -4.82 microV (S.D. 3.73) over the right precentral region in this condition. The difference was significant at 2P less than 0.01. This difference was pronounced in precentral leads but very small and almost missing in parietal leads. The pre-motion positivity (PMP) was well developed and even larger with bilateral than with unilateral (right-sides) movements. At the vertex it averaged +1.33 microV (S.D.4.16) with bilateral movements and only +0.15 microV (S.D. 1.42) with right-sided unilateral movements (2P less than 0.0...
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The aim of this study was to determine whether there is a correlation of latency and amplitude of P300 cognitive potential and the degree of lateralization of brain hemispheres. The study included 60 subjects whose age was between 45 and 56 years. Bioelectric brain activity was recorded using argentum chloride (AgCl) electrodes that were placed at central line of the scalp (over Fz and Cz regions) according to the international 10-20 standard. P300 was generated using "oddball" paradigm with randomized stimuli: A frequent 1000 Hz tone with an occurrence of 80 % and a 2000 Hz tone (target) with a 20 % occurrence. The measurement is done with the right hand (first recording) and left hand (second recording). All subjects in this study were tested for usage lateralization and showed that they are right-handed. Based on the results of gestural lateralization subjects are divided in three groups. In the group with high degree of lateralization latencies of P300 were significantly lower when dominant hand was used in comparison to non-dominant hand, on Fz electrode (t = 4,162, p<0,01) and Cz electrode (t = 5,302, p<0,01 (p<0.01) and amplitudes of P300 were significantly higher, on Fz electrode (t=-2,725, p<0,05), on Cz electrode (t=2,527, p<0,05). However, there were no statistically significant differences (p>0.05) for latencies and amplitudes of P300 between dominant and non-dominant hand for the group of subjects with weak and average degree of lateralization. In both subject groups, significantly faster RT was measured when dominant hand was used. The P300 cognitive potential and reaction time can contribute to the study of indicators of the functional hemispheric asymmetry of the brain.
The effects of alteration of effector and side of movement on movement-related cortical potentials
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The amplitude of the movement-related cortical potential (MRCP) preceding self-paced voluntary movements is larger if subjects alter between flexions of two fingers compared with repetitive movements of the same finger. However, earlier studies were confined to alternating movements between limbs only and therefore could not differentiate effects of between-limbs from within-limb alteration. The present study was designed to examine effects of alteration of finger (from index to middle, and vice versa) and hand (from left to right, and vice versa) independently from each other. MRCPs were recorded in 20 right-handed healthy young subjects with electrodes placed at Fp1, Fp2, F7, F3, F4, F8, T7, C5, C3, C1, C2, C4, C6, T8, P7, P3, P4, P8, O1 and O2. Subjects made self-paced flexion movements with the index or middle finger of each hand by pressing one out of 4 response buttons. In the alternating conditions, subjects pressed two buttons in a strictly alternating fashion. Every finger was combined with every other finger, arriving at a total of 6 alternating conditions. In the 4 regular conditions, subjects pressed a particular button repetitively across trials. The results show the following: (1) MRCPs over contralateral sensorimotor areas are higher if subjects change the side of movement than if the movements are done with the same hand repeatedly. (2) MRCPs over lateral parietal areas are higher for ipsilateral than contralateral movements in the regular conditions but also increase contralaterally after a change of the side of movement. (3) Any change of side or finger is associated with a widespread increase of negativity over the left hemisphere.
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The neuronal correlates of handedness are still poorly understood. Here we used event-related functional magnetic resonance imaging to investigate the impact of handedness on neuronal activation of the primary sensorimotor cortex, supplementary motor area and dorsal premotor cortex during simple unilateral and bilateral finger movements. In 16 right-handed and 16 left-handed individuals, we mapped changes in regional neuronal activity while participants responded to four symbolic cues presented in a pseudorandom order. According to pre-specified cues, they pressed a button with their right, left or both index fingers or withheld a response. For unilateral right index finger button presses, reaction times, motor and premotor activity were the same for both right-and left-handers. Compared with right-handers, left-handers had shorter reaction times with unilateral left index finger button presses, along with greater activation of the supplementary motor area and right frontal opercular cortex. Simultaneous bilateral compared with unilateral button presses led to a relative increase of activity in the right and left dorsal premotor cortex and the right primary sensorimotor cortex in right but not left-handers. Neither right nor left-handers showed any tendency during bilateral button presses towards faster responses with the dominant hand and the reaction times were equal in the two groups. Therefore, we conclude that the relative increase of activity in dorsal premotor and right primary sensorimotor cortices in right-handers represents a genuine difference in bimanual motor control related to handedness.
Hemispheric differences in the control of finger tapping
2020
The human brain is composed of two hemispheres. Even though most functions are represented in both, they differ in processing abilities, enabling the left hemisphere to speak and control learned motor sequences. One current hypothesis how the hemispheres differ is in their processing of relative frequencies of sensory stimuli (Ivry and Robertson, 1998; Flevaris et al., 2010). The Double-filtering-by- frequency (DFF) theory proposes that the left hemisphere has a pref- erence to process relative high frequencies and the right hemisphere relative low frequencies. The authors hypothesize that, hemispheric differences in sensory processing should transfer to the speech and motor domain. The goal of this thesis was to investigate frequency dependent hemispheric preferences for hand motor control. An fMRI and an MEG experiment were performed to answer the following questions: Is there a hemispheric preference for relative movement frequencies visible in behavioral measures? What are the c...
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Principal-components analysis was performed on a set of averaged evoked potentials in order to extract components of cerebral activity functionally related to hemisphere, handedness, processing task, and stimulus feature variables. Eight such components were isolated. Degree of dextrality, hemispheric differences, and cognitive operations in processing distinct stimulus characteristics were identified as reflected in functionally distinct components of brain activity.
Brain and Language, 1989
In two experiments, event-related potentials at left and right occipital, parietal, and temporal sites were studied in 16 left-handers (8 male, 8 female) and 16 right-handers (8 male, 8 female). Subjects displayed extreme handedness, had a normal writing hand position, reported no left-handed relatives, and reported no perinatal traumata. In Experiment 1, centrally presented words had to be read, and nonverbal stimuli had to be matched. Condition-dependent asymmetries were found for P340 and SW components. Word-reading elicited a N500 component, whereas figure-matching did not. In Experiment 2, words presented to either the left or right visual field had to be read. It was found that N160 measures were larger, and P240, P400, and SW measures were smaller to words presented in the contralateral visual field compared to words in the ipsilateral field. Sex affected these pathway effects. In both experiments, hand preference did not significantly influence the ERP results. 0
Bilateral representation of sequential finger movements in human cortical areas
Neuroscience Letters, 1999
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Electroencephalography and Clinical Neurophysiology, 1996
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PLoS ONE, 2013
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