Your search keyword '"Kakigi R"' showing total 29 results

1. A new method for measuring the conduction velocities of Ab-, Ad- and C-fibers following electric and CO2 laser stimulation in humans

Author

Tran, T. D., Lam, K., Hoshiyama, M., and Kakigi, R.

Published

2001

2. A first comparison of the human multifocal visual evoked magnetic field and visual evoked potential

Author

Wang, L., Barber, C., Kakigi, R., Kaneoke, Y., Okusa, T., and Wen, Y.

Published

2001

3. The dynamic processes for word and picture encoding in the human brain as revealed by magnetoencephalography

Author

Wang, Y., Sakuma, K., and Kakigi, R.

Published

2000

4. Perception of apparent motion is related to the neural activity in the human extrastriate cortex as measured by magnetoencephalography

Author

Kawakami, O., Kaneoke, Y., and Kakigi, R.

Published

2000

5. Peripheral nerve conduction recorded by a micro gradiometer system (micro-SQUID) in humans

Author

Hoshiyama, M., Kakigi, R., and Nagata, O.

Published

1999

6. Somatosensory evoked magnetic fields after mechanical stimulation of the scalp in humans

Author

Hoshiyama, M., Kakigi, R., Koyama, S., and Kitamura, Y.

Published

1995

7. Pain-related magnetic fields following painful CO~2 laser stimulation in man

Author

Kakigi, R., Koyama, S., Hoshiyama, M., and Kitamura, Y.

Published

1995

8. Remote effects on corticospinal excitability during motor execution and motor imagery.

Author

Shironouchi F, Ohtaka C, Mizuguchi N, Kato K, Kakigi R, and Nakata H

Subjects

Evoked Potentials, Motor, Female, Foot physiology, Functional Laterality, Hand physiology, Humans, Transcranial Magnetic Stimulation, Young Adult, Executive Function, Imagination, Movement, Muscle, Skeletal physiology, Pyramidal Tracts physiology

Abstract

We investigated the remote effect on corticospinal excitability of resting left and right hand muscles during motor execution and motor imagery when performing left or right foot plantar flexion. Fifteen right-handed subjects performed two conditions with three tasks: Condition (Motor Execution (ME) vs. Motor Imagery (MI)): Task (Control, Ipsilateral, and Contralateral). From the left and right first dorsal interosseous, motor evoked potentials (MEPs) elicited by a single-pulse transcranial magnetic stimulation (TMS) to the left or right primary motor cortices (M1) were recorded under all six trials. MEP amplitudes were significantly larger under the ME than MI condition, irrespective of hands and tasks. MEP amplitudes were also the largest during the Contralateral tasks, irrespective of the condition and hands. The correlation analysis showed that MEP amplitudes were significantly correlated between ME and MI conditions with both left and right hands. Our results indicate that the magnitude of the remote effect on corticospinal excitability of hand muscles differs between motor execution and motor imagery, and between ipsi- and contralateral limbs, when performing foot plantar flexion., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

9. Modulation of corticospinal excitability during positive and negative motor imageries.

Author

Yokota H, Mizuguchi N, Kakigi R, and Nakata H

Subjects

Biomechanical Phenomena physiology, Female, Humans, Rotation, Young Adult, Evoked Potentials, Motor physiology, Foot physiology, Imagination physiology, Motor Cortex physiology, Movement physiology, Pyramidal Tracts physiology

Abstract

We investigated corticospinal excitability during positive (execution) and negative (suppression) imageries for the right and left upper and lower limbs. In the Positive Imagery tasks, sixteen subjects were instructed to repeatedly imagine rotation of the index finger of the right or left hand, or the ankle of the right or left foot. In the Negative Imagery tasks, they were asked to imagine the suppression of movements for the index finger of the right or left hand, or the ankle of the right or left foot. A single-pulse transcranial magnetic stimulation was delivered over the left hand primary motor cortex, and motor evoked potentials (MEPs) were recorded from the right first dorsal interosseous (FDI) muscle under all conditions. The MEP amplitudes of the FDI were significantly larger in the Positive and Negative Imagery tasks than in the resting control task during motor imagery of the right hand, left hand, and left foot, but not during that of right foot. Our results indicate that imageries of suppressing hand and foot movements enhanced corticospinal excitability., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

10. Effects of task repetition on event-related potentials in somatosensory Go/No-go paradigm.

Author

Nakata H, Sakamoto K, and Kakigi R

Subjects

Adult, Electric Stimulation, Electroencephalography, Female, Humans, Male, Middle Aged, Photic Stimulation, Reaction Time, Choice Behavior, Evoked Potentials, Somatosensory, Task Performance and Analysis

Abstract

We investigated the effects of task repetition on the N140 and P300 components of event-related potentials (ERPs) in somatosensory Go/No-go paradigms. A Go or No-go stimulus was presented to the second or fifth digit of the left hand, respectively, at the same probability, and subjects had to respond by pushing a button with their right thumb as quickly as possible only after the presentation of a Go stimulus. The condition comprised seven sessions of recordings, and subjects were allowed to relax for five minutes after one session. The behavioral data for the reaction time (RT), standard deviation of RT, and error rates showed the absence of an effect by task repetition. In ERP waveforms, the amplitudes of N140 and P300 decreased with task repetition, and the latency of P300 was delayed by task repetition. There was no significant effect of task repetition on the peak latency of N140. Changes in amplitude and latency values in N140 and P300 during Go/No-go paradigms reflected changes in the neural activation of response execution and inhibition processing with task repetition., (Copyright © 2015 Elsevier Ireland Ltd. All rights reserved.)

Published

2015

11. Cortical responses to C-fiber stimulation by intra-epidermal electrical stimulation: an MEG study.

Author

Motogi J, Kodaira M, Muragaki Y, Inui K, and Kakigi R

Subjects

Adult, Brain Mapping, Electric Stimulation, Female, Foot innervation, Humans, Magnetoencephalography, Male, Middle Aged, Reaction Time, Sensory Thresholds, Somatosensory Cortex physiology, Cerebral Cortex physiology, Epidermis innervation, Nerve Fibers, Unmyelinated physiology

Abstract

Intra-epidermal electric stimulation (IES) is an alternative to laser stimulation for selective activation of cutaneous Aδ-fibers. IES is based on the fact that nociceptive fiber terminals are located in the epidermis, whereas receptors of other fibers end deep in the dermis. IES can selectively stimulate C-fibers if the electrode structure and stimulation parameters are carefully selected. However, stable selective stimulation of C-fibers using IES has proven difficult and cannot currently be used in clinical settings. The purpose of the present study was to determine if IES performed using a modified electrode reliably stimulates C-fibers. Magnetoencephalographic responses to IES to the foot were measured in seven healthy subjects. IES elicited somatosensory evoked fields in all subjects. The mean peak latency was 1,327 ± 116 ms in the opercular region contralateral to the stimulated side, 1,318 ± 90 ms in the opercular region ipsilateral to the stimulated side, and 1350 ± 139 ms in the primary somatosensory cortex. These results indicate that IES performed using the modified electrode can selectively stimulate C-fibers and may be a useful tool for pain research as well as clinical evaluation of peripheral small fiber function., (Copyright © 2014 Elsevier Ireland Ltd. All rights reserved.)

Published

2014

12. Steady-state visual-evoked response to upright and inverted geometrical faces: a magnetoencephalography study.

Author

Tsuruhara A, Inui K, and Kakigi R

Subjects

Adult, Brain physiology, Electroencephalography methods, Female, Humans, Male, Middle Aged, Photic Stimulation methods, Reaction Time physiology, Evoked Potentials, Visual, Face physiology, Magnetoencephalography methods, Pattern Recognition, Visual physiology

Abstract

The face is one of the most important visual stimuli in human life, and inverted faces are known to elicit different brain responses than upright faces. This study analyzed steady-state visual-evoked magnetic fields (SSVEFs) in eleven healthy participants when they viewed upright and inverted geometrical faces presented at 6Hz. Steady-state visual-evoked responses are useful measurements and have the advantages of robustness and a high signal-to-noise ratio. Spectrum analysis revealed clear responses to both upright and inverted faces at the fundamental stimulation frequency (6 Hz) and harmonics, i.e. SSVEFs. No significant difference was observed in the SSVEF amplitude at 6 Hz between upright and inverted faces, which was different from the transient visual-evoked response, N170. On the other hand, SSVEFs were delayed with the inverted face in the right temporal area, which was similar to N170 and the results of previous steady-state visual-evoked potentials studies. These results suggest that different mechanisms underlie the larger amplitude and delayed latency observed with face inversion, though further studies are needed to fully elucidate these mechanisms. Our study revealed that SSVEFs, which have practical advantages for measurements, could provide novel findings in human face processing., (Copyright © 2014 Elsevier Ireland Ltd. All rights reserved.)

Published

2014

13. Effects of stimulus field size and coherence of visual motion on cortical responses in humans: an MEG study.

Author

Urakawa T, Inui K, and Kakigi R

Subjects

Female, Humans, Magnetoencephalography, Male, Brain Mapping, Cerebral Cortex physiology, Motion Perception physiology

Abstract

Among various kinds of visual motion, wide field coherent visual motion should have characteristic physiological significance regarding the relationship between the external world and us. To detect veridical visual motion in the surrounding environment, specific mechanisms are necessary to differentiate it from the wide field coherent motion due to one's own movement. To disclose whether and how the neural process of wide field coherent motion is different from that of other motions, we measured cortical responses to visual motions in humans using magnetoencephalography (MEG) manipulating both field size and coherence. Results showed that an increase in field size enhanced the response at sensors around the parieto-occipital area, and that the difference in activity between coherent and incoherent motion tended to be larger for the wide field. These findings suggest that wide field coherent and incoherent motion is detected differently at least in part in the parieto-occipital area, and suggest the neural process of wide field coherent motion could be pronouncedly tapped by a combination of field size and coherence., (Copyright © 2010 Elsevier Ireland Ltd. All rights reserved.)

Published

2011

14. Automatic cortical responses to sound movement: a magnetoencephalography study.

Author

Akiyama LF, Yamashiro K, Inui K, and Kakigi R

Subjects

Adult, Brain Mapping, Evoked Potentials, Auditory physiology, Female, Humans, Magnetoencephalography, Male, Middle Aged, Cerebral Cortex physiology, Sound Localization physiology

Abstract

The aim of the present study was to clarify what change detection process leads to the elicitation of the auditory change-sensitive N1ms using magnetoencephalography (MEG). We brought our attention to whether these N1ms would be elicited if physical changes to the stimulus are eliminated. For this purpose, sound movement (SM), which entails a very subtle change only to the manner of stimuli presentation, was used in the present study. SM presentation was achieved by inserting an interaural time difference to one ear. The results indicate that both SM and the onset of the control stimulus (ON) elicited MEG responses at the superior temporal gyrus (STG) of both hemispheres. ON-N1m peak latencies were significantly shorter than those of SM-N1m as well. Interestingly, the pre-event (ON or SM) length (PreEL) was a significant factor determining the amplitude of the STG activity. Due to these findings, we hypothesize that both ON and SM activate similar groups of neurons or even an identical group of neurons. In addition, since correlations between PreEL and ON/SM-N1m amplitude exist, it is suggestible that N1m is not merely a nonspecific automatic response to physical change, but rather a much more sophisticated change-sensitive response employing a memory mechanism., (Copyright © 2010 Elsevier Ireland Ltd. All rights reserved.)

Published

2011

15. Infant brain activity while viewing facial movement of point-light displays as measured by near-infrared spectroscopy (NIRS).

Author

Ichikawa H, Kanazawa S, Yamaguchi MK, and Kakigi R

Subjects

Brain blood supply, Female, Functional Laterality, Hemodynamics, Humans, Infant, Male, Photic Stimulation, Spectroscopy, Near-Infrared, Brain physiology, Facial Expression, Motion Perception

Abstract

Adult observers can quickly identify specific actions performed by an invisible actor from the points of lights attached to the actor's head and major joints. Infants are also sensitive to biological motion and prefer to see it depicted by a dynamic point-light display. In detecting biological motion such as whole body and facial movements, neuroimaging studies have demonstrated the involvement of the occipitotemporal cortex, including the superior temporal sulcus (STS). In the present study, we used the point-light display technique and near-infrared spectroscopy (NIRS) to examine infant brain activity while viewing facial biological motion depicted in a point-light display. Dynamic facial point-light displays (PLD) were made from video recordings of three actors making a facial expression of surprise in a dark room. As in Bassili's study, about 80 luminous markers were scattered over the surface of the actor's faces. In the experiment, we measured infant's hemodynamic responses to these displays using NIRS. We hypothesized that infants would show different neural activity for upright and inverted PLD. The responses were compared to the baseline activation during the presentation of individual still images, which were frames extracted from the dynamic PLD. We found that the concentration of oxy-Hb increased in the right temporal area during the presentation of the upright PLD compared to that of the baseline period. This is the first study to demonstrate that infant's brain activity in face processing is induced only by the motion cue of facial movement depicted by dynamic PLD., ((c) 2010 Elsevier Ireland Ltd. All rights reserved.)

Published

2010

16. Characteristics of No-go-P300 component during somatosensory Go/No-go paradigms.

Author

Nakata H, Sakamoto K, and Kakigi R

Subjects

Adult, Electric Stimulation, Electroencephalography, Female, Functional Laterality, Humans, Male, Neuropsychological Tests, Young Adult, Brain physiology, Event-Related Potentials, P300, Evoked Potentials, Somatosensory, Executive Function physiology, Hand physiology, Perception physiology

Abstract

The present study investigated one of the characteristics of No-go-related brain activity during somatosensory Go/No-go paradigms, by manipulating the stimulus site and response hand. Somatosensory event-related potentials (ERPs) were recorded in ten right-handed subjects. Electrical stimulation was delivered to the second and fifth digit of one hand, and the subjects had to respond to a Go stimulus by pushing a button with the thumb contralateral to the stimulated side as quickly as possible. We focused on the peak amplitude and latency of Som-Go-P300 (P300 evoked by somatosensory Go stimuli) and Som-No-go-P300 (P300 evoked by somatosensory No-go stimuli) components. The amplitude of Som-No-go-P300, which is very similar to No-go-P300 components following visual and auditory stimulation, was significantly larger than that of Som-Go-P300 at fronto-central electrodes, indicating 'anteriorization' of the No-go-P300. The amplitude of Som-No-go-P300 was significantly larger in right than left hemispheres during right hand response conditions, but this difference was not found under left hand conditions. In addition, the difference in amplitude between Som-Go- and Som-No-go-P300, which is frequently described as 'the Go/No-go effect' on P300, was significant in the left hemisphere under right hand response conditions, whereas a significant effect was found in both the left and the right hemispheres under left hand response conditions. Our findings suggested that the anteriorization of No-go-P300 was independent of stimulus modalities such as visual, auditory, and somatosensory, and the amplitude of No-go-P300 and Go/No-go effects on P300 was affected by the response hand., (Copyright 2010 Elsevier Ireland Ltd. All rights reserved.)

Published

2010

17. Negative BOLD during tongue movement: a functional magnetic resonance imaging study.

Author

Sakamoto K, Nakata H, Perrucci MG, Del Gratta C, Kakigi R, and Romani GL

Subjects

Adult, Cerebral Cortex anatomy & histology, Female, Humans, Magnetic Resonance Imaging, Male, Movement, Young Adult, Cerebral Cortex blood supply, Oxygen blood, Tongue physiology

Abstract

The aim of this functional magnetic resonance imaging (fMRI) study was to evaluate negative blood oxygen level-dependent (BOLD) signals during voluntary tongue movement. Deactivated (Negative BOLD) regions included the posterior parietal cortex (PPC), precuneus, and middle temporal gyrus. Activated (Positive BOLD) regions included the primary somatosensory-motor area (SMI), inferior parietal lobule, medial frontal gyrus, superior temporal gyrus, insula, lentiform nucleus, and thalamus. The results were not consistent with previous studies involving unilateral hand and finger movements showing the deactivation of motor-related cortical areas including the ipsilateral MI. The areas of Negative BOLD in the PPC and precuneus might reflect specific neural networks relating to voluntary tongue movement.

Published

2009

18. Negative BOLD effect on somato-motor inhibitory processing: an fMRI study.

Author

Nakata H, Sakamoto K, Ferretti A, Gianni Perrucci M, Del Gratta C, Kakigi R, and Luca Romani G

Subjects

Adult, Female, Humans, Image Interpretation, Computer-Assisted, Male, Young Adult, Brain physiology, Brain Mapping, Magnetic Resonance Imaging, Psychomotor Performance physiology

Abstract

Inhibiting inappropriate behavior and thoughts in the current context is an essential ability for humans, but the neural mechanisms for response inhibitory processing are a matter of continuous debate. The aim of this event-related functional magnetic resonance imaging (fMRI) study was to evaluate the negative blood oxygen level dependent (BOLD) effect on inhibitory processing during go/no-go paradigms. Fifteen subjects performed two different types of somatosensory go/no-go paradigm: (1) button press and (2) count. Go and no-go stimuli were presented with an even probability. We observed a common negative activation during Movement No-go and Count No-go trials in the right SFG, corresponding to BA 8. These findings suggest that the right SFG region was responsible for the negative BOLD effect on inhibitory processing, which was independent of the required response mode. We hypothesized several possible explanations for the deactivation of the SFG during no-go trials.

Published

2009

19. Human brain activation in response to olfactory stimulation by intravenous administration of odorants.

Author

Miyanari A, Kaneoke Y, Noguchi Y, Honda M, Sadato N, Sagara Y, and Kakigi R

Subjects

Adult, Cerebrovascular Circulation drug effects, Data Interpretation, Statistical, Frontal Lobe blood supply, Frontal Lobe drug effects, Fursultiamin administration & dosage, Humans, Injections, Intravenous, Magnetic Resonance Imaging, Male, Olfactory Pathways blood supply, Olfactory Pathways drug effects, Population, Stimulation, Chemical, Thiamine administration & dosage, Thiamine pharmacology, Brain drug effects, Fursultiamin pharmacology, Smell drug effects, Thiamine analogs & derivatives

Abstract

To identify the BOLD effects related to olfaction in humans, we recorded functional magnetic resonance imaging (fMRI) scans in response intravenously instilled thiamine propyl disulfide (TPD) and thiamine tetrahydrofurfuryl disulfide monohydrochloride (TTFD). TPD and TTFD evoked a strong and weak odor sensation, respectively. Since we did not spray the odor stimuli directly, this method is expected to reduce the effect caused by direct stimulation of the trigeminal nerve. For the analysis of fMRI data, statistical parametric mapping (SPM2) was employed and the areas significantly activated during olfactory processing were located. Both strong and weak odorants induced brain activities mainly in the orbitofrontal gyrus (Brodmann's area: BA 11) in the left hemisphere. TPD (a strong odorant) induced activity in the subthalamic nucleus in the left hemisphere and the precentral gyrus (BA 6) and insula in the right hemisphere. TTFD (a weak odorant) induced activity in the superior frontal gyrus (BA 11) in the right hemisphere. In both circumstances, there was an increase in blood flow at the secondary olfactory cortex (SOC) but not the primary olfactory cortex (POC), probably due to a habituation effect in the POC. From the present results, we found brain activity in not only odor-specific regions but also regions whose levels of activity were changed by an intensity difference of odor stimuli.

Published

2007

20. Priority of face perception during subliminal stimulation using a new color-opponent flicker stimulation.

Author

Hoshiyama M, Kakigi R, Takeshima Y, Miki K, and Watanabe S

Subjects

Adult, Analysis of Variance, Female, Humans, Male, Photic Stimulation methods, Sensory Thresholds physiology, Color Perception physiology, Discrimination, Psychological physiology, Face, Flicker Fusion physiology, Pattern Recognition, Visual physiology, Subliminal Stimulation

Abstract

We developed a new method of color-opponent flicker (COF) stimulation, and investigated behavioral responses for object discrimination at the around threshold frequency of COF stimulation. Pairs of figures, a face, flower, the letter "G" and a random pattern, were drawn with a red and green checkerboard with a black mesh. COF stimulation was produced by presenting pairs of figures alternately (red-green-red-green-) at various frequencies (30-120 Hz). A discrimination task for objects during COF stimulation was performed by 16 healthy subjects. Threshold frequency of COF stimulation was between 50 and 75 Hz. The accuracy rate for face discrimination was significantly higher than those for other objects (p<0.01, ANOVA with Fisher's PLSD multiple comparisons test). The present COF stimulation technique could be useful to investigate subliminal processes of the visual system, and the present results indicate a higher sensitivity and selectivity for face discrimination than those for other objects.

Published

2006

21. The characteristics of the nogo-N140 component in somatosensory go/nogo tasks.

Author

Nakata H, Inui K, Wasaka T, Tamura Y, Kida T, and Kakigi R

Subjects

Acoustic Stimulation, Adult, Electric Stimulation, Electroencephalography, Female, Humans, Male, Photic Stimulation, Psychomotor Performance, Brain physiology, Evoked Potentials, Somatosensory

Abstract

Nogo-related brain potentials may not be dependent on sensory modalities but reflect common neural activities specific to the inhibitory process. Recent studies reported that nogo potentials were elicited by not only visual and auditory but also somatosensory stimulation. However, the characteristics of this nogo potential evoked by somatosensory stimulation have been unclear because of the small number of reports. In the present study, therefore, to determine the characteristics of this potential, the effects of stimulus site and response hand were investigated. Electrical stimulation was delivered to the second and fifth digit of one hand, and the subjects had to respond to a go stimulus by pushing a button with the thumb contralateral to the stimulated side as quickly as possible. The amplitudes of the nogo-N140 component (N140 evoked by the nogo stimuli), which is very similar to the nogo-N2 components following visual and auditory stimulation, were unrelated to the stimulated digits, the second and fifth digit of the left and right hand. However, differences between go and nogo ERPs were significantly larger in the hemisphere contralateral to the response hand than the ipsilateral hemisphere. This result was inconsistent with visual and auditory go/nogo studies showing a right-hemisphere dominance or bilateral activities in nogo trials. Therefore, nogo-N140 should be considered to reflect the inhibitory process especially in the hemisphere contralateral to the response hand and the sensory modality dependency of nogo potentials.

Published

2006

22. Interaction between auditory and visual stimulus relating to the vowel sounds in the auditory cortex in humans: a magnetoencephalographic study.

Author

Miki K, Watanabe S, and Kakigi R

Subjects

Adult, Auditory Cortex physiology, Brain Mapping, Female, Functional Laterality physiology, Humans, Magnetoencephalography methods, Male, Middle Aged, Motion, Reaction Time physiology, Speech physiology, Speech radiation effects, Acoustic Stimulation methods, Auditory Cortex radiation effects, Photic Stimulation methods, Sound

Abstract

We investigated the interaction between auditory and visual stimulus relating to the vowel sounds in the auditory cortex in humans, using magnetoencephalography. We compared the difference in the main component, M100 generated in the auditory cortex, in terms of peak latency, amplitude, dipole location and moment, following the vowel sound&#95;/a/&#95;between two conditions: (1) showing a face with closed mouth; and (2) showing the same face with mouth movement appearing to pronounce/a/using an apparent motion method. We found no significant difference in the M100 component between the two conditions within or between the right and left hemispheres. These findings indicated that the vowel sound perception in the auditory cortex, at least in the primary processing stage, was not affected by viewing mouth movement.

Published

2004

23. Microneurographic study of C fiber discharges induced by CO2 laser stimulation in humans.

Author

Qiu Y, Fu Q, Wang X, Tran TD, Inui K, Iwase S, and Kakigi R

Subjects

Adult, Cerebral Cortex radiation effects, Electroencephalography methods, Evoked Potentials radiation effects, Humans, Male, Neural Conduction radiation effects, Peroneal Nerve physiology, Physical Stimulation methods, Reaction Time radiation effects, Skin innervation, Skin radiation effects, Carbon Dioxide chemistry, Lasers, Nerve Fibers, Unmyelinated radiation effects, Peroneal Nerve radiation effects

Abstract

We investigated C-fiber discharges and cerebral potentials evoked by weak CO(2) laser beams applied to a tiny skin area in five healthy subjects. Microneurography was performed from the peroneal nerve in the right popliteal area. Cerebral potentials were recorded from the Cz electrode referred to linked earlobes. The mean conduction velocity of five stable single units was 1.1+/-0.3 m/s. The mean latency of the positive peak of cerebral potentials was 1327.4+/-46.2 ms. These findings indicated that this new stimulation method selectively activated C-fiber nociceptors of the skin.

Published

2003

24. Magnetoencephalographic study of the cortical activity elicited by human voice.

Author

Gunji A, Koyama S, Ishii R, Levy D, Okamoto H, Kakigi R, and Pantev C

Subjects

Acoustic Stimulation, Adult, Brain Mapping, Female, Functional Laterality physiology, Humans, Male, Music, Auditory Cortex physiology, Magnetoencephalography, Voice physiology

Abstract

In an attempt to identify voice-specific neural activities in auditory cortex in humans, we recorded cortical magnetic responses. Volunteers were instructed to listen to vocal and instrumental sounds matched in fundamental-frequency, duration, temporal envelope and average root mean square power. The stimuli were sounds produced by four singers and four musical instruments at each of two fundamental frequencies: 220 Hz (musical note A3) and 261.9 Hz (C3). Two components of the evoked responses were analyzed, one at approximately 100 ms (N1m) and the other 400 ms after the stimulus onset (sustained field, SF). The source locations of equivalent current dipoles for both components were estimated around the Heschl's gyrus in both hemispheres. Compared with the instrumental sound, the source strength of the SF component for the voice was significantly larger.

Published

2003

25. Human cortical response to incoherent motion on a background of coherent motion.

Author

Lam K, Kaneoke Y, and Kakigi R

Subjects

Adult, Female, Humans, Magnetoencephalography, Male, Reaction Time, Visual Perception physiology, Cerebral Cortex physiology, Motion Perception physiology

Abstract

To investigate whether humans achieve a high sensitivity to coherent motion by excluding the response to incoherent motion, we measured the magnetoencephalographic response to the motion of randomly located dots one half of which moved coherently while the other half moved incoherently. The response was related to the faster motion of either coherent or incoherent motion though the observers saw both. All the estimated response sources were within the extrastriate area. The results indicate that incoherent motion is represented in the neural activity of the human extrastriate area even when the coherent motion is perceived at the same time. The fact that the neural activity for the slower coherent motion is not represented in the magnetic response suggests the existence of interaction between the neural activities for the two motions.

Published

2003

26. Central mechanisms for two-point discrimination in humans.

Author

Tamura Y, Hoshiyama M, Inui K, and Kakigi R

Subjects

Adult, Analysis of Variance, Electric Stimulation, Hand innervation, Humans, Male, Psychophysics, Reaction Time, Sensory Thresholds, Discrimination, Psychological physiology, Distance Perception physiology, Space Perception physiology

Abstract

We studied the cognitive mechanisms for two-point discrimination (TPD) in 11 normal subjects, using electrical pulses. We used six ball-shaped electrodes placed in line on the dorsal surface of the left hand, and two-point was stimulated by two electrodes randomly selected. We measured the reaction time for TPD and calculated the percentage of correct responses for each two-point stimulation. The subjects' response was significantly affected by the preceding stimuli as well as the distance of the stimuli: for a two-point stimulus condition, subjects tended to feel the stimuli as two-point when the distance between the stimuli was longer than that of preceding stimuli, whereas they felt the stimuli as one-point when the distance was shorter than that of the preceding stimuli. The present results indicate that the TPD process involved evaluation of the distance between the stimuli relatively to that of the preceding stimuli, as well as evaluation of absolute distance between the stimuli.

Published

2003

27. Structure of visual evoked magnetic field during sleep in humans.

Author

Okusa T and Kakigi R

Subjects

Adult, Brain Mapping, Electroencephalography, Female, Functional Laterality physiology, Humans, Male, Middle Aged, Photic Stimulation, Reaction Time physiology, Sleep Stages physiology, Wakefulness physiology, Evoked Potentials, Visual physiology, Magnetics, Sleep physiology, Visual Cortex physiology, Visual Pathways physiology

Abstract

To investigate the effects of sleep on the visual evoked magnetic fields (VEF), we recorded VEF following flash light stimulation in healthy adults during sleep. The awake VEF contained several components with approximate latencies of 40, 55, 65, 80, 100, 110, 150, and 180 ms. In contrast, the sleep VEF contained mainly three components with approximate latencies of 65, 100 and 115 ms. By comparing the magnetic components between the awake and sleep conditions based on similarities in the contour pattern of the isomagnetic field, three components for the sleep condition were found to be enhanced, those at 55, 80-100 and 100-110 ms in the awake VEF. Other components of the awake VEF may be reduced or disappear during sleep. This large change in the VEF during sleep suggests that some qualitative changes occur in the cortical visual processing, for example, a reduction in the inhibitory activities at works while awake.

Published

2002

28. Gaze direction affects face perception in humans.

Author

Watanabe S, Miki K, and Kakigi R

Subjects

Adult, Electroencephalography, Evoked Potentials, Female, Humans, Male, Temporal Lobe physiology, Face, Fixation, Ocular physiology, Visual Perception physiology

Abstract

We recorded event-related potentials (ERP) in response to images of faces with a straight gaze (straight eyes) and eyes averted (averted eyes). Peak latencies of ERP components showed no significant change between straight eyes and averted eyes, but amplitude for averted eyes, particularly when averted to the right, was significantly larger than that for straight eyes at the lateral temporal electrode of the right hemisphere. Single-unit recordings in monkeys and neuroimaging studies in humans have revealed activity in the lateral temporal region, mainly the superior temporal sulcus, and a clinical study demonstrated the importance of the right hemisphere when viewing gaze direction. This is the first systematic neurophysiological report to confirm these findings using ERP.

Published

2002

29. Conduction velocity of the spinothalamic tract in humans as assessed by CO(2) laser stimulation of C-fibers.

Author

Qiu Y, Inui K, Wang X, Tran TD, and Kakigi R

Subjects

Adult, Cervical Vertebrae, Evoked Potentials, Somatosensory physiology, Hot Temperature, Humans, Male, Mechanoreceptors physiology, Mechanoreceptors radiation effects, Nerve Fibers physiology, Nerve Fibers, Myelinated physiology, Nerve Fibers, Myelinated radiation effects, Neural Conduction physiology, Nociceptors physiology, Nociceptors radiation effects, Pain pathology, Physical Stimulation, Reaction Time physiology, Reaction Time radiation effects, Skin innervation, Skin radiation effects, Spinal Cord Injuries physiopathology, Spinothalamic Tracts physiology, Thoracic Vertebrae, Evoked Potentials, Somatosensory radiation effects, Lasers, Nerve Fibers radiation effects, Neural Conduction radiation effects, Pain physiopathology, Spinal Cord Injuries pathology, Spinothalamic Tracts radiation effects

Abstract

We measured the conduction velocity (CV) of C-fibers in the spinothalamic tract (STT) following stimulation with a CO(2) laser using a new method. We delivered non-painful laser pulses to tiny areas of the skin overlying the vertebral spinous processes at different levels from the 7(th) cervical (C7) to the 12(th) thoracic (T12), and recorded cerebral evoked potentials in 11 healthy men. We used the term "ultra-late laser evoked potentials" (ultra-late LEPs), since the peak latency was much longer than that for conventional LEPs related to Adelta-fibers following painful laser stimulation (late LEPs). The mean CV of C-fibers in the STT was 2.2+/-0.6 m/s, which was significantly lower than the CV of the Adelta-fibers (10.0+/-4.5 m/s). This technique is novel and simple, and should be useful as a diagnostic tool for assessing the level of spinal cord lesions.

Published

2001