Your search keyword '"Sotaro Shimada"' showing total 65 results

1. Neural Mechanism of Musical Pleasure Induced by Prediction Errors: An EEG Study

Author

Fuyu Ueno and Sotaro Shimada

Subjects

music cognition, EEG, IDyOM, emotion, reward, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background/Objectives: Musical pleasure is considered to be induced by prediction errors (surprise), as suggested in neuroimaging studies. However, the role of temporal changes in musical features in reward processing remains unclear. Utilizing the Information Dynamics of Music (IDyOM) model, a statistical model that calculates musical surprise based on prediction errors in melody and harmony, we investigated whether brain activities associated with musical pleasure, particularly in the θ, β, and γ bands, are induced by prediction errors, similar to those observed during monetary rewards. Methods: We used the IDyOM model to calculate the information content (IC) of surprise for melody and harmony in 70 musical pieces across six genres; eight pieces with varying IC values were selected. Electroencephalographic data were recorded during listening to the pieces, continuously evaluating the participants’ subjective pleasure on a 1–4 scale. Time–frequency analysis of electroencephalographic data was conducted, followed by general linear model analysis to fit the power-value time course in each frequency band to the time courses of subjective pleasure and IC for melody and harmony. Results: Significant positive fits were observed in the β and γ bands in the frontal region with both subjective pleasure and IC for melody and harmony. No significant fit was observed in the θ band. Both subjective pleasure and IC are associated with increased β and γ band power in the frontal regions. Conclusions: β and γ oscillatory activities in the frontal regions are strongly associated with musical rewards induced by prediction errors, similar to brain activity observed during monetary rewards.

Published

2024

2. Inter-Subject EEG Synchronization during a Cooperative Motor Task in a Shared Mixed-Reality Environment

Author

Yutaro Ogawa and Sotaro Shimada

Subjects

inter-brain synchronization, electroencephalograph (EEG), hyperscanning, shared MR environment, cooperation, Electronic computers. Computer science, QA75.5-76.95

Abstract

Mixed-reality (MR) environments, in which virtual objects are overlaid on the real environment and shared with peers by wearing a transparent optical head-mounted display, are considered to be well suited for collaborative work. However, no studies have been conducted to provide neuroscientific evidence of its effectiveness. In contrast, inter-brain synchronization has been repeatedly observed in cooperative tasks and can be used as an index of the quality of cooperation. In this study, we used electroencephalography (EEG) to simultaneously measure the brain activity of pairs of participants, a technique known as hyperscanning, during a cooperative motor task to investigate whether inter-brain synchronization would be also observed in a shared MR environment. The participants were presented with virtual building blocks to grasp and build up an object cooperatively with a partner or individually. We found that inter-brain synchronization in the cooperative condition was stronger than that in the individual condition (F(1, 15) = 4.70, p < 0.05). In addition, there was a significant correlation between task performance and inter-brain synchronization in the cooperative condition (rs = 0.523, p < 0.05). Therefore, the shared MR environment was sufficiently effective to evoke inter-brain synchronization, which reflects the quality of cooperation. This study offers a promising neuroscientific method to objectively measure the effectiveness of MR technology.

Published

2023

3. Inter-subject correlations of EEG reflect subjective arousal and acoustic features of music

Author

Fuyu Ueno and Sotaro Shimada

Subjects

inter-subject correlation, EEG, music listening, emotion, clustering, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

BackgroundResearch on music-induced emotion and brain activity is constantly expanding. Although studies using inter-subject correlation (ISC), a collectively shared brain activity analysis method, have been conducted, whether ISC during music listening represents the music preferences of a large population remains uncertain; additionally, it remains unclear which factors influence ISC during music listening. Therefore, here, we aimed to investigate whether the ISCs of electroencephalography (EEG) during music listening represent a preference for music reflecting engagement or interest of a large population in music.MethodsFirst, we selected 21 pieces of music from the Billboard Japan Hot 100 chart of 2017, which served as an indicator of preference reflecting the engagement and interest of a large population. To ensure even representation, we chose one piece for every fifth song on the chart, spanning from highly popular music to less popular ones. Next, we recorded EEG signals while the subjects listened to the selected music, and they were asked to evaluate four aspects (preference, enjoyment, frequency of listening, and arousal) for each song. Subsequently, we conducted ISC analysis by utilizing the first three principal components of EEG, which were highly correlated across subjects and extracted through correlated component analysis (CorrCA). We then explored whether music with high preferences that reflected the engagement and interest of large population had high ISC values. Additionally, we employed cluster analysis on all 21 pieces of music, utilizing the first three principal components of EEG, to investigate the impact of emotions and musical characteristics on EEG ISC during music listening.ResultsA significant distinction was noted between the mean ISC values of the 10 higher-ranked pieces of music compared to the 10 lower-ranked pieces of music [t(542) = −1.97, p = 0.0025]. This finding suggests that ISC values may correspond preferences reflecting engagement or interest of a large population. Furthermore, we found that significant variations were observed in the first three principal component values among the three clusters identified through cluster analysis, along with significant differences in arousal levels. Moreover, the characteristics of the music (tonality and tempo) differed among the three clusters. This indicates that the principal components, which exhibit high correlation among subjects and were employed in calculating ISC values, represent both subjects’ arousal levels and specific characteristics of the music.ConclusionSubjects’ arousal values during music listening and music characteristics (tonality and tempo) affect ISC values, which represent the interest of a large population in music.

Published

2023

4. Multisensory and Sensorimotor Integration in the Embodied Self: Relationship between Self-Body Recognition and the Mirror Neuron System

Author

Sotaro Shimada

Subjects

sense of ownership, sense of agency, rubber hand illusion, robot hand illusion, full body illusion, mirror neuron system, Chemical technology, TP1-1185

Abstract

The embodied self is rooted in the self-body in the “here and now”. The senses of self-ownership and self-agency have been proposed as the basis of the sense of embodied self, and many experimental studies have been conducted on this subject. This review summarizes the experimental research on the embodied self that has been conducted over the past 20 years, mainly from the perspective of multisensory integration and sensorimotor integration regarding the self-body. Furthermore, the phenomenon of back projection, in which changes in an external object (e.g., a rubber hand) with which one has a sense of ownership have an inverse influence on the sensation and movement of one’s own body, is discussed. This postulates that the self-body illusion is not merely an illusion caused by multisensory and/or sensorimotor integration, but is the incorporation of an external object into the self-body representation in the brain. As an extension of this fact, we will also review research on the mirror neuron system, which is considered to be the neural basis of recognition of others, and discuss how the neural basis of self-body recognition and the mirror neuron system can be regarded as essentially the same.

Published

2022

5. Influence of Stochastic Resonance on Manual Dexterity in Children With Developmental Coordination Disorder: A Double-Blind Interventional Study

Author

Satoshi Nobusako, Michihiro Osumi, Atsushi Matsuo, Emi Furukawa, Takaki Maeda, Sotaro Shimada, Akio Nakai, and Shu Morioka

Subjects

children, developmental coordination disorder, double-blind study, manual dexterity, stochastic resonance, subthreshold vibrotactile noise stimulation, Neurology. Diseases of the nervous system, RC346-429

Abstract

Background: There is increasing evidence that the stochastic resonance (SR) phenomenon provided by subthreshold mechanical noise stimulation improves the sensory-motor system. However, the effect of SR on children with developmental coordination disorder (DCD) is unclear. The purpose of this study was to assess whether SR activated by subthreshold vibrotactile noise stimulation of the wrist influences manual dexterity in children with DCD.Methods: A double-blind interventional study was conducted. Participants were 30 children (age: 9.3 ± 1.44 years, range 6–11 years; 27 male, three female; 25 right-handed, five left-handed) meeting DCD diagnostic criteria in DSM-5. The manual dexterity test was administered the day before SR intervention (baseline-data). SR was elicited using subthreshold vibrotactile noise stimulation at 60% of the vibrotactile threshold measured at the wrist. SR was delivered two times and the manual dexterity test was administered during each SR stimulation block (SR-on condition) and after each SR stimulation block (SR-off), for a total of four measurements. Target outcomes were the component score, the standard score, and the percentile score of the manual dexterity test.Results: The manual dexterity test scores in the SR-on condition were significantly improved compared to scores at the baseline and in the SR-off condition (p < 0.001).Conclusions: The present study showed that subthreshold noise stimulation eliciting SR significantly improved manual dexterity outcomes in children with DCD during stimulation but not after stimulation. Future studies will need to investigate the carry-over effects of SR stimulation.

Published

2021

6. Functional Connectivity Between Motor and Mid-Frontal Areas During Vicarious Reward Revealed via EEG Time-Frequency Analysis

Author

Tsukasa Inomata, Takuro Zama, and Sotaro Shimada

Subjects

EEG, phase synchronization, cross-frequency coupling, beta oscillatory activity, BOA, vicarious reward, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Vicarious reward is a phenomenon in which an individual feels as if he/she has received a reward as the result of watching someone else receive a reward. In this study, we used electroencephalography to investigate brain activity while participants watched a preferred player win a competitive game (Rock-Paper-Scissors game). In the experimental task, movie clips showed right hand of the two players and played Rock-Paper-Scissors game. We asked participants to explicitly support or “cheer” for a specific player, and then examined brain activity associated with vicarious reward. For the observed hand movement, previous findings showed that the event-related desynchronization of mu band (8–14 Hz) appeared at the contra-lateral central electrode to the observed hand (If someone sees the right-hand movement, the left central electrode shows the event-related desynchronization of mu-band). During observation of the player, we detected event-related desynchronization of mu band activity in the contra-lateral central electrode as well as mid-frontal beta band (15–22 Hz) activation when the preferred player won. Furthermore, functional connectivity analysis revealed a strong phase synchronization between the contra-lateral central electrode and mid-frontal electrode in the mu band when participants received the vicarious reward. Cross-frequency coupling analysis revealed functional integration between the mu and beta bands at mid-frontal electrode. These results indicate the interaction of mu band observed at contra-lateral electrode and beta band observed at mid-frontal electrode coupling, suggesting a link between the mirror neuron system and the reward system during vicarious reward.

Published

2019

7. Sensorimotor and Posterior Brain Activations During the Observation of Illusory Embodied Fake Hand Movement

Author

Satoshi Shibuya, Satoshi Unenaka, Takuro Zama, Sotaro Shimada, and Yukari Ohki

Subjects

body ownership, delayed visual feedback, independent component analysis, electroencephalography, mu-rhythm desynchronization, alpha-rhythm desynchronization, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

In the rubber hand illusion (RHI), the subject recognizes a fake hand as his or her own. We recently found that the observation of embodied fake hand movement elicited mu-rhythm (8–13 Hz) desynchronization on electroencephalography (EEG), suggesting brain activation in the sensorimotor regions. However, it is known that mu-rhythm desynchronization during action observation is confounded with occipital alpha-rhythm desynchronization, which is modulated by attention. This study examined the independence of brain activities in the sensorimotor and occipital regions relating to the movement observation under the RHI. The invisible participant’s left and fake right hands were stroked simultaneously, which was interrupted by unexpected fake hand movements. A mirror-reversed image of the fake hand was shown on a monitor in front of the participant with a delay of 80, 280, or 480 ms. Illusion strength decreased as a function of the delay. EEG independent component analysis (ICA) and ICA clustering revealed six clusters with observation-induced desynchronization of 8–13 Hz frequency band. In the right sensorimotor cluster, mu-rhythm desynchronization was the greatest under the 80-ms delay, while alpha-rhythm desynchronization of the occipital clusters did not show delay-dependence. These results suggest that brain activation in the sensorimotor areas (i.e., mu-rhythm desynchronization) induced by embodied fake hand movement is independent of that in the occipital areas (alpha-rhythm desynchronization).

Published

2019

8. Simultaneous EEG-NIRS Measurement of the Inferior Parietal Lobule During a Reaching Task With Delayed Visual Feedback

Author

Takuro Zama, Yoshiyuki Takahashi, and Sotaro Shimada

Subjects

electroencephalography, near-infrared spectroscopy, simultaneous measurement, psychophysiological interaction, event-related (de)synchronization, inferior parietal lobule, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

We investigated whether the inferior parietal lobule (IPL) responds in real-time to multisensory inconsistency during movement. The IPL is thought to be involved in both the detection of inconsistencies in multisensory information obtained during movement and that obtained during self-other discrimination. However, because of the limited temporal resolution of conventional neuroimaging techniques, it is difficult to distinguish IPL activity during movement from that during self-other discrimination. We simultaneously conducted electroencephalography (EEG) and near-infrared spectroscopy (NIRS) with the goal of examining IPL activity with a high spatiotemporal resolution during single reaching movements. Under a visual feedback-delay condition, gamma event-related synchronization (γ-ERS), i.e., an increase in gamma (31–47 Hz) EEG power occurred during reaching movements. This γ-ERS is considered to reflect processing of information about prediction errors. To integrate this temporal information with spatial information from the NIRS signals, we developed a new analysis technique that enabled estimation of the regions that show a hemodynamic response characterized by EEG fluctuation present in the visual feedback-delay condition. As a result, IPL activity was explained by γ-ERS specific to visual feedback delay during movements. Thus, we succeeded in demonstrating real-time activation of the IPL in response to multisensory inconsistency. However, we did not find any correlation between either IPL activity or γ-ERS with the sense of agency. Therefore, our results suggest that while the IPL is influenced by prediction error signals, it does not engage in direct processing underlying the conscious experience of making a movement, which is the foundation of self-other discrimination.

Published

2019

9. Subthreshold Vibrotactile Noise Stimulation Immediately Improves Manual Dexterity in a Child With Developmental Coordination Disorder: A Single-Case Study

Author

Satoshi Nobusako, Michihiro Osumi, Atsushi Matsuo, Emi Furukawa, Takaki Maeda, Sotaro Shimada, Akio Nakai, and Shu Morioka

Subjects

delayed visual feedback detection task, DCD, manual dexterity, sensory-dependence, stochastic resonance (SR), temporal order judgment (TOJ) task, Neurology. Diseases of the nervous system, RC346-429

Abstract

Developmental coordination disorder (DCD) is the most common childhood movement disorder. It is characterized by clumsiness of fine and gross motor skills in developing children. Children with DCD have low ability to effectively use tactile information for movements, instead relying on visual information. In addition, children with DCD have deficits in visuo-motor temporal integration, which is important in motor control. These traits subsequently lead to clumsiness of movements. Conversely, however, imperceptible vibrotactile noise stimulation (at 60%-intensity of the sensory threshold) to the wrist provides stochastic resonance (SR) phenomenon to the body, improving the sensory and motor systems. However, the effects of SR have not yet been validated in children with DCD. Thus, we conducted a single case study of a 10-year-old boy with a diagnosis of DCD to investigate the effect of SR on visual dependence, visuo-motor temporal integration, and manual dexterity. SR was provided by vibrotactile noise stimulation (at an intensity of 60% of the sensory threshold) to the wrist. Changes in manual dexterity (during the SR on- and off-conditions) were measured using the manual dexterity test of the Movement Assessment Battery for Children-2nd edition. The point of subjective equality measured by visual or tactile temporal order judgment task served as a quantitative indicator reflecting specific sensory dependence. The delay detection threshold and steepness of delay detection probability curve, which were measured using the delayed visual feedback detection task, were used as quantitative indicators of visuo-motor temporal integration. The results demonstrated alleviated visual dependence and improved visuo-motor temporal integration during the SR on-conditions rather than the SR off-conditions. Most importantly, manual dexterity during the SR on-conditions was significantly improved compared to that during the SR off-conditions. Thus, the present results highlighted that SR could contribute to improving poor movement in children with DCD. However, since this was a single case study, a future interventional study with a large sample size is needed to determine the effectiveness of SR for children with DCD.

Published

2019

10. The relationship and difference between delay detection ability and judgment of sense of agency.

Author

Michihiro Osumi, Satoshi Nobusako, Takuro Zama, Naho Yokotani, Sotaro Shimada, Takaki Maeda, and Shu Morioka

Subjects

Medicine, Science

Abstract

Judgment of agency involves the comparison of motor intention and proprioceptive/visual feedback, in addition to a range of cognitive factors. However, few studies have experimentally examined the differences or correlations between delay detection ability and judgment of agency. Thus, the present study investigated the relationship between delay detection ability and agency judgment using the delay detection task and the agency attribution task. Fifty-eight participants performed the delay detection and agency attribution tasks, and the time windows of each measure were analyzed using logistic curve fitting. The results revealed that the time window of judgment of agency was significantly longer than that of delay detection, and there was a slight correlation between the time windows in each task. The results supported a two-step model of agency, suggesting that judgment of agency involved not only comparison of multisensory information but also several cognitive factors. The study firstly revealed the model in psychophysical experiments.

Published

2019

11. Socially Anxious Tendencies Affect Impressions of Others’ Positive and Negative Emotional Gazes

Author

Yuki Tsuji and Sotaro Shimada

Subjects

social anxiety disorder, gaze perception, emotional gazes, impression, morphing, Psychology, BF1-990

Abstract

Socially anxious tendencies have potential to become social anxiety disorder (SAD), which is characterized by fear of social situations associated with being evaluated or embarrassed by others. In particular, others’ gazes induce social anxiety. People with SAD have a negative interpretation bias toward ambiguous emotions in others’ faces; however, negative interpretation bias toward ambiguous emotions in others’ gazes has not been fully investigated. We used an impression judgment task to examine negative interpretation bias toward others’ gazes among people with socially anxious tendencies. We generated emotionally ambiguous gazes (positive, negative, and neutral) using a morphing technique with 10% steps (neutral, 10–100% negative, and 10–100% positive). Participants (all male) were asked to judge whether the stimulus was positive or negative. Each participant’s level of social anxiety was examined using the Japanese version of the Social Phobia Inventory (SPIN-J), which measures three symptom dimensions: fear, avoidance, and physiological arousal. To examine the influence of socially anxious tendencies in the impression judgment task, we calculated the point of subjective equality (PSE) using a two-step logistic curve fitted to individual participant’s responses. The negative emotional intensity of the PSE became lower as the fear score became higher (p < 0.05). This result suggests individuals with a high tendency toward social anxiety tend to interpret subtle negative emotional gazes as a negative emotion and regard these gazes as a threat.

Published

2018

12. A Functional Near-Infrared Spectroscopy Study of State Anxiety and Auditory Working Memory Load

Author

Yi-Li Tseng, Chia-Feng Lu, Shih-Min Wu, Sotaro Shimada, Ting Huang, and Guan-Yi Lu

Subjects

functional near-infrared spectroscopy (fNIRS), auditory working memory, memory load, state anxiety, prefrontal cortex (PFC), Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Cognitive studies have suggested that anxiety is correlated with cognitive performance. Previous research has focused on the relationship between anxiety level and the perceptual load within the frontal region, such as the dorsolateral prefrontal and anterior cingulate cortices. High-anxious individuals are predicted to have worse performance on cognitively-demanding tasks requiring efficient cognitive processing. A few functional magnetic resonance imaging studies have specifically discussed the performance and brain activity involving working memory for high-anxious individuals. This topic has been further explored with electroencephalography, although these studies have mostly provided results involving visual face-related stimuli. In this study, we used auditory stimulation to manipulate the working memory load and attempted to interpret the deficiency of cognitive function in high-anxious participants or patients using functional near infrared spectroscopy (fNIRS). The fNIRS signals of 30 participants were measured while they were performing an auditory working memory task. For the auditory n-back task, there were three experimental conditions, including two n-back task conditions of stimuli memorization with different memory load and a condition of passive listening to the stimuli. Hemodynamic responses from frontal brain regions were recorded using a wireless fNIRS device. Brain activation from the ventrolateral and orbital prefrontal cortex were measured with signals filtered and artifacts removed. The fNIRS signals were then standardized with statistical testing and group analysis was performed. The results revealed that there were significantly stronger hemodynamic responses in the right ventrolateral and orbital prefrontal cortex when subjects were attending to the auditory working memory task with higher load. Furthermore, the right lateralization of the prefrontal cortex was negatively correlated with the level of state anxiety. This study revealed the possibility of incorporating fNIRS signals as an index to evaluate cognitive performance and mood states given its flexibility regarding portable applications compared to other neuroimaging techniques.

Published

2018

13. Distortion of Visuo-Motor Temporal Integration in Apraxia: Evidence From Delayed Visual Feedback Detection Tasks and Voxel-Based Lesion-Symptom Mapping

Author

Satoshi Nobusako, Rintaro Ishibashi, Yusaku Takamura, Emika Oda, Yukie Tanigashira, Masashi Kouno, Takanori Tominaga, Yurie Ishibashi, Hiroyuki Okuno, Kaori Nobusako, Takuro Zama, Michihiro Osumi, Sotaro Shimada, and Shu Morioka

Subjects

apraxia, delayed visual feedback detection, forward model, multisensory temporal integration, subtraction lesion analysis, visuo-motor temporal integration, Neurology. Diseases of the nervous system, RC346-429

Abstract

Limb apraxia is a higher brain dysfunction that typically occurs after left hemispheric stroke and its cause cannot be explained by sensory disturbance or motor paralysis. The comparison of motor signals and visual feedback to generate errors, i.e., visuo-motor integration, is important in motor control and motor learning, which may be impaired in apraxia. However, in apraxia after stroke, it is unknown whether there is a specific deficit in visuo-motor temporal integration compared to visuo-tactile and visuo-proprioceptive temporal integration. We examined the precision of visuo-motor temporal integration and sensory-sensory (visuo-tactile and visuo-proprioception) temporal integration in apraxia after stroke by using a delayed visual feedback detection task with three different conditions (tactile, passive movement, and active movement). The delay detection threshold and the probability curve for delay detection obtained in this task were quantitative indicators of the respective temporal integration functions. In addition, we performed subtraction and voxel-based lesion-symptom mapping to identify the brain lesions responsible for apraxia and deficits in visuo-motor temporal integration. The behavioral experiments showed that the delay detection threshold was extended and that the probability curve for delay detection was less steep in apraxic patients compared to controls (pseudo-apraxic patients and unaffected patients), only for the active movement condition, and not for the tactile and passive movement conditions. Furthermore, the severity of apraxia was significantly correlated with the delay detection threshold and the steepness of the probability curve in the active movement condition. These results indicated that multisensory (i.e., visual, tactile, and proprioception) feedback was normally temporally integrated, but motor prediction and visual feedback were not correctly temporally integrated in apraxic patients. That is, apraxic patients had difficulties with visuo-motor temporal integration. Lesion analyses revealed that both apraxia and the distortion of visuo-motor temporal integration were associated with lesions in the fronto-parietal motor network, including the left inferior parietal lobule and left inferior frontal gyrus. We suppose that damage to the left inferior fronto-parietal network could cause deficits in motor prediction for visuo-motor temporal integration, but not for sensory-sensory (visuo-tactile and visuo-proprioception) temporal integration, leading to the distortion of visuo-motor temporal integration in patients with apraxia.

Published

2018

14. Manual Dexterity Is a Strong Predictor of Visuo-Motor Temporal Integration in Children

Author

Satoshi Nobusako, Ayami Sakai, Taeko Tsujimoto, Takashi Shuto, Yuki Nishi, Daiki Asano, Emi Furukawa, Takuro Zama, Michihiro Osumi, Sotaro Shimada, Shu Morioka, and Akio Nakai

Subjects

children, delayed visual feedback detection, developmental change, internal model, manual dexterity, visuo-motor temporal integration, Psychology, BF1-990

Abstract

Although visuo-motor temporal integration in children is suggested to be related to motor control and motor learning, its relevance is still unclear. On the other hand, visuo-motor temporal integration ability undergoes developmental changes with age. In the current correlational study, we measured manual dexterity and visuo-motor temporal integration ability in 132 children with typical development (age, 4–15 years) and investigated the relationship between the two functions. The Movement Assessment Battery for Children-2nd edition was used as an indicator of manual dexterity. The delay detection threshold (DDT) and steepness of the probability curve for delay detection, which was measured by the delayed visual feedback detection task for self-generated movement, were used as indices of the visuo-motor temporal integration ability. The results indicated significant correlations between manual dexterity/age and DDT/steepness of the probability curve for delay detection. In addition, hierarchical multiple regression analysis showed that both manual dexterity and age significantly contributed to visuo-motor temporal integration, indicating a better fit than when only age was employed as an independent variable. Importantly, there was no interaction effect between age and manual dexterity. These findings were the first to suggest that manual dexterity is a significant predictor of visuo-motor temporal integration ability in children, regardless of age. The present study validated the important relationship between visuo-motor temporal integration and manual dexterity in children. Considering the limitations of the current study, including the non-homogeneous sample, further studies are still warranted to validate the results.

Published

2018

15. Deficits in Visuo-Motor Temporal Integration Impacts Manual Dexterity in Probable Developmental Coordination Disorder

Author

Satoshi Nobusako, Ayami Sakai, Taeko Tsujimoto, Takashi Shuto, Yuki Nishi, Daiki Asano, Emi Furukawa, Takuro Zama, Michihiro Osumi, Sotaro Shimada, Shu Morioka, and Akio Nakai

Subjects

autism-spectrum disorder, attention-deficit hyperactivity disorder, automatic imitation, developmental coordination disorder, internal model, manual dexterity, Neurology. Diseases of the nervous system, RC346-429

Abstract

The neurological basis of developmental coordination disorder (DCD) is thought to be deficits in the internal model and mirror-neuron system (MNS) in the parietal lobe and cerebellum. However, it is not clear if the visuo-motor temporal integration in the internal model and automatic-imitation function in the MNS differs between children with DCD and those with typical development (TD). The current study aimed to investigate these differences. Using the manual dexterity test of the Movement Assessment Battery for Children (second edition), the participants were either assigned to the probable DCD (pDCD) group or TD group. The former was comprised of 29 children with clumsy manual dexterity, while the latter consisted of 42 children with normal manual dexterity. Visuo-motor temporal integration ability and automatic-imitation function were measured using the delayed visual feedback detection task and motor interference task, respectively. Further, the current study investigated whether autism-spectrum disorder (ASD) traits, attention-deficit hyperactivity disorder (ADHD) traits, and depressive symptoms differed among the two groups, since these symptoms are frequent comorbidities of DCD. In addition, correlation and multiple regression analyses were performed to extract factors affecting clumsy manual dexterity. In the results, the delay-detection threshold (DDT) and steepness of the delay-detection probability curve, which indicated visuo-motor temporal integration ability, were significantly prolonged and decreased, respectively, in children with pDCD. The interference effect, which indicated automatic-imitation function, was also significantly reduced in this group. These results highlighted that children with clumsy manual dexterity have deficits in visuo-motor temporal integration and automatic-imitation function. There was a significant correlation between manual dexterity, and measures of visuo-motor temporal integration, and ASD traits and ADHD traits and ASD. Multiple regression analysis revealed that the DDT, which indicated visuo-motor temporal integration, was the greatest predictor of poor manual dexterity. The current results supported and provided further evidence for the internal model deficit hypothesis. Further, they suggested a neurorehabilitation technique that improved visuo-motor temporal integration could be therapeutically effective for children with DCD.

Published

2018

16. Stochastic resonance improves visuomotor temporal integration in healthy young adults.

Author

Satoshi Nobusako, Michihiro Osumi, Atsushi Matsuo, Takahiro Fukuchi, Akio Nakai, Takuro Zama, Sotaro Shimada, and Shu Morioka

Subjects

Medicine, Science

Abstract

Mechanical and electrical noise stimulation to the body is known to improve the sensorimotor system. This improvement is related to stochastic resonance (SR), a phenomenon described as a "noise benefit" to various sensory and motor systems. The current study investigated the influence of SR on visuomotor temporal integration and hand motor function under delayed visual feedback in healthy young adults. The purpose of this study was to measure the usefulness of SR as a neurorehabilitation device for disorders of visuomotor temporal integration. Thirty healthy volunteers underwent detection tasks and hand motor function tests under delayed visual feedback, with or without SR. Of the 30 participants, 15 carried out the tasks under delayed visual feedback in the order of SR on-condition, off-condition, off-condition, and on-condition. The remaining 15 participants conducted the experimental tasks in the order of SR off-condition, on-condition, on-condition, and off-condition. Comparisons of the delay detection threshold (DDT), steepness of the delay detection probability curves, box and block test (BBT) scores, and nine-hole peg test (NHPT) scores between the SR on- and off-conditions were performed. The DDT under the SR on-condition was significantly shortened compared with the SR off-condition. There was no significant difference between the SR on- and off-conditions for the steepness of the delay detection probability curves, BBT scores, and NHPT scores. SR improved visuomotor temporal integration in healthy young adults, and may therefore improve movement disorders in patients with impaired visuomotor temporal integration. However, because the current results showed that SR did not improve hand motor function under delayed visual feedback, it may not improve motor function when a large distortion of visuomotor temporal integration is present. Further studies are required considering several limitations of the current study, and future clinical trials are necessary to verify the effects of motor training using SR for the treatment of visuomotor temporal integration disorders.

Published

2018

17. 'Robot' Hand Illusion under Delayed Visual Feedback: Relationship between the Senses of Ownership and Agency.

Author

Mohamad Arif Fahmi Ismail and Sotaro Shimada

Subjects

Medicine, Science

Abstract

The rubber hand illusion (RHI) is an illusion of the self-ownership of a rubber hand that is touched synchronously with one's own hand. While the RHI relates to visual and tactile integration, we can also consider a similar illusion with visual and motor integration on a fake hand. We call this a "robot hand illusion" (RoHI), which relates to both the senses of ownership and agency. Here we investigate the effect of delayed visual feedback on the RoHI. Participants viewed a virtual computer graphic hand controlled by their hand movement recorded using a data glove device. We inserted delays of various lengths between the participant's hand and the virtual hand movements (90-590 ms), and the RoHI effects for each delay condition were systematically tested using a questionnaire. The results showed that the participants felt significantly greater RoHI effects with temporal discrepancies of less than 190 ms compared with longer temporal discrepancies, both in the senses of ownership and agency. Additionally, participants felt significant, but weaker, RoHI effects with temporal discrepancies of 290-490 ms in the sense of agency, but not in the sense of ownership. The participants did not feel a RoHI with temporal discrepancies of 590 ms in either the senses of agency or ownership. Our results suggest that a time window of less than 200 ms is critical for multi-sensory integration processes constituting self-body image.

Published

2016

18. Modulation of motor area activity by the outcome for a player during observation of a baseball game.

Author

Sotaro Shimada

Subjects

Medicine, Science

Abstract

BACKGROUND: Observing competitive games such as sports is a pervasive entertainment among humans. The inclination to watch others play may be based on our social-cognitive ability to understand the internal states of others. The mirror neuron system, which is activated when a subject observes the actions of others, as well as when they perform the same action themselves, seems to play a crucial role in this process. Our previous study showed that activity of the mirror neuron system was modulated by the outcome of the subject's favored player during observation of a simple competitive game (rock-paper-scissors). However, whether the mirror neuron system responds similarly in a more complex and naturalistic sports game has not yet been fully investigated. METHODOLOGY/PRINCIPAL FINDINGS: In the present study, we measured the activity of motor areas when the subjects, who were amateur baseball field players (non-pitchers), watched short movie clips of scenes in professional baseball games. The subjects were instructed to support either a batter or a pitcher when observing the movie clip. The results showed that activity in the motor area exhibited a strong interaction between the subject's supported side (batter or pitcher) and the outcome (a hit or an out). When the subject supported the batter, motor area activity was significantly higher when the batter made an out than when he made a hit. However, such modulation was not apparent when the subject supported the pitcher. CONCLUSIONS/SIGNIFICANCE: This result indicates that mirror neuron system activity is modulated by the outcome for a particular player in a competitive game even when observing a complex and naturalistic sports game. We suggest that our inclination to watch competitive games is facilitated by this characteristic of the mirror neuron system.

Published

2009

19. Rubber hand illusion under delayed visual feedback.

Author

Sotaro Shimada, Kensuke Fukuda, and Kazuo Hiraki

Subjects

Medicine, Science

Abstract

BACKGROUND: Rubber hand illusion (RHI) is a subject's illusion of the self-ownership of a rubber hand that was touched synchronously with their own hand. Although previous studies have confirmed that this illusion disappears when the rubber hand was touched asynchronously with the subject's hand, the minimum temporal discrepancy of these two events for attenuation of RHI has not been examined. METHODOLOGY/PRINCIPAL FINDINGS: In this study, various temporal discrepancies between visual and tactile stimulations were introduced by using a visual feedback delay experimental setup, and RHI effects in each temporal discrepancy condition were systematically tested. The results showed that subjects felt significantly greater RHI effects with temporal discrepancies of less than 300 ms compared with longer temporal discrepancies. The RHI effects on reaching performance (proprioceptive drift) showed similar conditional differences. CONCLUSIONS/SIGNIFICANCE: Our results first demonstrated that a temporal discrepancy of less than 300 ms between visual stimulation of the rubber hand and tactile stimulation to the subject's own hand is preferable to induce strong sensation of RHI. We suggest that the time window of less than 300 ms is critical for multi-sensory integration processes constituting the self-body image.

Published

2009

20. The Effect of Delayed Visual Feedback on the Full Body Illusion Using VR

Author

Sotaro Shimada and Itsuki Ohtsuka

Subjects

media_common.quotation_subject, Illusion, Visual feedback, Psychology, Cognitive psychology, media_common

Published

2021

21. Vicarious Reward Response Is Positively Correlated with Functional Connectivity in the Resting State Default Mode Network

Author

Tsukasa Inomata and Sotaro Shimada

Subjects

Correlation, Reward processing, Resting state fMRI, Functional connectivity, Individual difference, General Medicine, Psychology, Default mode network, Cognitive psychology

Abstract

Some people can easily empathize with others, while others cannot. The neural mechanism underlying individual difference of how much people can empathize with others is still not clear. Vicarious reward is the phenomenon by which we vicariously experience the positive sensations or emotions of others. Beta oscillatory activity (BOA) is observed when participants experience vicarious reward. Recent studies have reported that the default mode network (DMN) is also involved in reward processing and have suggested that individual differences in the way participants respond to reward stimuli are correlated with DMN functional connectivity during the resting state. In the current study, we investigated whether DMN functional connectivity during the resting state is also correlated with BOA for vicarious reward. Participants watched a player playing a game (Kendama) and investigated the correlation of BOA amplitude and resting state DMN functional connectivity. The results revealed a significant correlation between the degree of phase synchronization within DMN components in the resting state and the amplitude of BOA while participants experienced vicarious reward. The results suggested that functional connectivity within the DMN in the resting state positively influenced vicarious reward processing while observing others receiving a reward.

Published

2020

22. Decrease of Functional Connectivity within the Default Mode Network by a Brief Training of Focused Attention on the Breath in Novices

Author

Tsuji Y, Trova S, Sotaro Shimada, and Horiuchi H

Subjects

medicine.medical_specialty, Mindfulness, medicine.diagnostic_test, Brain activity and meditation, media_common.quotation_subject, Ventromedial prefrontal cortex, Audiology, Electroencephalography, medicine.anatomical_structure, Cortex (anatomy), Posterior cingulate, medicine, Meditation, Psychology, Default mode network, media_common

Abstract

Experienced meditators reduce the activity of the default mode network (DMN), a brain system preferentially active when people are not engaged in specific tasks. However, the neural modulation of the DMN in novices remain largely unexplored. By using electroencephalography, we investigated the DMN functional connectivity in two groups of novices: the meditation group practiced six consecutive days of focused attention on the breath; the control group practiced only on the first and last days. After the brief training, results showed a decrease in the DMN functional connectivity between the ventromedial prefrontal cortex and the posterior cingulate cortex in theta and alpha bands during the focused attention condition, in the meditation group compared to the control group. The change in DMN functional connectivity was significantly correlated with the increase in state-level mindfulness scores. These data elucidate DMN modifications already arising at the initial stages of mindfulness meditation training in novices.HighlightsAn effect of brief meditation training on brain activity in novices was examined by using EEG.A six-day training of focused attention on the breath improved state-level mindfulness scores.Brief meditation training also reduced the functional connectivity within anterior-posterior DMN.The amount of change in DMN functional connectivity was significantly correlated with the subjective score.

Published

2021

23. Cheering Enhances Inter-Brain Synchronization Between Sensorimotor Areas of Player and Observer

Author

Sotaro Shimada and Tadayoshi Koide

Subjects

business.industry, 05 social sciences, Observer (special relativity), 050105 experimental psychology, Sensorimotor Areas, 03 medical and health sciences, 0302 clinical medicine, Functional near-infrared spectroscopy, 0501 psychology and cognitive sciences, Computer vision, Artificial intelligence, business, Psychology, 030217 neurology & neurosurgery, General Psychology, Mirror neuron

Published

2018

24. Inferior Parietal Lobe Activity in Visuo-Motor Integration during the Robot Hand Illusion

Author

Mohamad Arif Fahmi Bin Ismail and Sotaro Shimada

Subjects

0301 basic medicine, medicine.medical_specialty, Sense of agency, Brain activity and meditation, media_common.quotation_subject, Illusion, Robot hand, General Medicine, Audiology, 03 medical and health sciences, Superior temporal gyrus, 030104 developmental biology, 0302 clinical medicine, Inferior parietal cortex, Supramarginal gyrus, medicine, Inferior parietal lobe, Psychology, 030217 neurology & neurosurgery, media_common

Abstract

The robot hand illusion (RoHI) is the participant’s illusion of the self-ownership and the self-agency of a robot hand that appears to be moving consistently with their own hand, and feel as if the robot hand belongs to them. Mismatching between motor and visual information disrupt the effect of RoHI respect to the robot hand. In our previous study, we found that participants felt that the virtual hand was their own when the visual feedback was delayed by less than 200 ms. Moreover, although they did not feel that the virtual hand was their own, the participants felt that they could control the virtual hand even with a visual delay of 300 - 500 ms. Here, we used near-infrared spectroscopy (NIRS) to investigate brain activity associated with the RoHI under different delayed visual feedback conditions (100 ms, 400 ms, and 700 ms). We found significant activation in the supramarginal gyrus and superior temporal gyrus in the 100 ms feedback delay condition. An ANOVA indicated that this activation was significantly different from that in other conditions (p < 0.01). These results demonstrate that activity in the inferior parietal cortex was modulated by the delay between the motor command and the visual feedback regarding the movement of the robot hand. We propose that the inferior parietal lobe is essential for integrating motor and visual information that enables one to distinguish their own body from those of others.

Published

2018

25. Simultaneous EEG-NIRS Measurement of the Inferior Parietal Lobule During a Reaching Task With Delayed Visual Feedback

Author

Yoshiyuki Takahashi, Sotaro Shimada, and Takuro Zama

Subjects

Computer science, near-infrared spectroscopy, Electroencephalography, 050105 experimental psychology, lcsh:RC321-571, Task (project management), Correlation, 03 medical and health sciences, Behavioral Neuroscience, 0302 clinical medicine, Neuroimaging, simultaneous measurement, medicine, 0501 psychology and cognitive sciences, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Biological Psychiatry, Original Research, Sense of agency, medicine.diagnostic_test, psychophysiological interaction, inferior parietal lobule, 05 social sciences, Psychophysiological Interaction, Inferior parietal lobule, visual feedback delay, Psychiatry and Mental health, Neuropsychology and Physiological Psychology, event-related (de)synchronization, Neurology, Temporal resolution, Neuroscience, 030217 neurology & neurosurgery, electroencephalography

Abstract

We investigated whether the inferior parietal lobule (IPL) responds in real-time to multisensory inconsistency during movement. The IPL is thought to be involved in both the detection of inconsistencies in multisensory information obtained during movement and that obtained during self-other discrimination. However, because of the limited temporal resolution of conventional neuroimaging techniques, it is difficult to distinguish IPL activity during movement from that during self-other discrimination. We simultaneously conducted electroencephalography (EEG) and near-infrared spectroscopy (NIRS) with the goal of examining IPL activity with a high spatiotemporal resolution during single reaching movements. Under a visual feedback-delay condition, gamma event-related synchronization (γ-ERS), i.e., an increase in gamma (31–47 Hz) EEG power occurred during reaching movements. This γ-ERS is considered to reflect processing of information about prediction errors. To integrate this temporal information with spatial information from the NIRS signals, we developed a new analysis technique that enabled estimation of the regions that show a hemodynamic response characterized by EEG fluctuation present in the visual feedback-delay condition. As a result, IPL activity was explained by γ-ERS specific to visual feedback delay during movements. Thus, we succeeded in demonstrating real-time activation of the IPL in response to multisensory inconsistency. However, we did not find any correlation between either IPL activity or γ-ERS with the sense of agency. Therefore, our results suggest that while the IPL is influenced by prediction error signals, it does not engage in direct processing underlying the conscious experience of making a movement, which is the foundation of self-other discrimination.

Published

2019

26. Virtual Hand Illusion: The Alien Finger Motion Experiment

Author

Marco Grangetto, Tetsunari Inamura, Agata Marta Soccini, and Sotaro Shimada

Subjects

Virtual embodiment, Computer science, media_common.quotation_subject, 05 social sciences, Illusion, 020207 software engineering, Context (language use), Alien motion, Avatar, 02 engineering and technology, Virtual reality, 050105 experimental psychology, Motion (physics), Variation (linguistics), Agency (sociology), 0202 electrical engineering, electronic engineering, information engineering, 0501 psychology and cognitive sciences, Metric (unit), media_common, Cognitive psychology

Abstract

In Virtual Reality, the need to understand how subjects perceive their representation is gaining attention and importance. We present a contribution to a better understanding of the sense of embodiment by assessing two of its main components, body ownership and agency, through an experiment involving alien motion. The key aspect of the experimental protocol is to integrate a condition with some personalized alien finger movement while the subject is asked to remain still. Body ownership appears to be significantly reduced, but not agency. We also propose a metric to assess quantitatively that the view of the alien movement induces more finger posture variation compared to the reference context in the still condition.

Published

2019

27. Story understanding of a nonexplanatory film affects viewers' premotor activity and empathy for fictional characters

Author

Sotaro Shimada and Yukiko Ogawa

Subjects

Neuropsychology and Physiological Psychology, General Neuroscience, media_common.quotation_subject, Empathy, Neuroscience and Neuroeconomics, Psychology, Social psychology, media_common, Cognitive psychology

Abstract

Yukiko Ogawa,1 Sotaro Shimada2 1Faculty of Social Sciences, Hosei University, Tokyo, 2Department of Electronics and Bioinformatics, School of Science and Technology, Meiji University, Kanagawa, Japan Objective: The present study aimed to examine whether the story understanding of a nonexplanatory film affects mirror neuron system (MNS) activity and to discuss the interactive process involved in generating empathy for fictional characters during participants’ viewing of the film under natural viewing conditions.Methods: The material of the experiment was a Japanese film entitled Dolls. It is a nonexplanatory fiction film, in which the two (male and female) main characters show only minimal actions or facial expressions; therefore, the viewers hardly understand the story until it has been developed to some extent. We measured twelve participants’ MNS activity by using near-infrared spectroscopy during the viewing of the first 20 minutes of the film. Additionally, we measured the brain activity while performing their own hand and leg motions after viewing the film to identify their motor cortices.Results: The results showed that the viewer’s MNS activity increased gradually as the introductory part of the story developed. Subsequent analyses revealed a significant increase in MNS activity in the later chapters of the film at the right premotor and supplementary motor cortices (P

Published

2016

28. Change in the rate of pseudo[1]rotaxane formation by elongating the alkyl-chain-substituted diphenylethynylene linked to permethyl α-cyclodextrin

Author

Sotaro Shimada, Hiroshi Masai, Saqura Ishino, and Jun Terao

Subjects

chemistry.chemical_classification, Rotaxane, Cyclodextrin, 010405 organic chemistry, Chemistry, Organic Chemistry, Kinetics, 010402 general chemistry, 01 natural sciences, Biochemistry, 0104 chemical sciences, Crystallography, Chain length, Chain (algebraic topology), Drug Discovery, Alkyl

Abstract

Herein, we report the kinetics of pseudo[1]rotaxane formation from permethyl α-cyclodextrin attached to a flexible-chain-substituted diphenylethynylene. When the chain is an alkyl group, the rate of formation shows different trends over three regions of chain length: deceleration (chain length = 1–3), acceleration (4–8), and re-deceleration (>12). This behavior is driven by a relative decrease in the ΔH‡ of the transition.

Published

2020

29. Activity of the inferior parietal cortex is modulated by visual feedback delay in the robot hand illusion

Author

Mohamad Arif Fahmi Bin Ismail and Sotaro Shimada

Subjects

0301 basic medicine, Male, medicine.medical_specialty, Consciousness, Brain activity and meditation, media_common.quotation_subject, Illusion, Posterior parietal cortex, lcsh:Medicine, Visual feedback, Audiology, Article, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Inferior parietal cortex, Feedback, Sensory, Perception, Parietal Lobe, Surveys and Questionnaires, medicine, Humans, lcsh:Science, media_common, Multidisciplinary, Spectroscopy, Near-Infrared, Significant difference, lcsh:R, Robot hand, Robotics, Proprioception, Illusions, Self Concept, 030104 developmental biology, Visual Perception, lcsh:Q, Psychology, 030217 neurology & neurosurgery

Abstract

The robot hand illusion (RoHI) is the perception of self-ownership and self-agency of a virtual (robot) hand that moves consistently with one’s own. The phenomenon shows that self-attribution can be established via temporal integration of visual and movement information. Our previous study showed that participants felt significantly greater RoHI (sense of self-ownership and sense of self-agency) when visuomotor temporal discrepancies were less than 200 ms. A weaker RoHI effect (sense of self-agency only) was observed when temporal discrepancies were between 300 and 500 ms. Here, we used functional near-infrared spectroscopy (fNIRS) to investigate brain activity associated with the RoHI under different visual feedback delays (100 ms, 400 ms, 700 ms). We found that the angular and supramarginal gyri exhibited significant activation in the 100-ms feedback condition. ANOVA indicated a significant difference between the 100-ms condition and the other conditions (p

Published

2018

30. A Functional Near-Infrared Spectroscopy Study of State Anxiety and Auditory Working Memory Load

Author

Guan Yi Lu, Ting Huang, Yi Li Tseng, Chia Feng Lu, Shih Min Wu, and Sotaro Shimada

Subjects

medicine.medical_specialty, auditory working memory, Brain activity and meditation, functional near-infrared spectroscopy (fNIRS), Audiology, 050105 experimental psychology, Lateralization of brain function, lcsh:RC321-571, 03 medical and health sciences, Behavioral Neuroscience, 0302 clinical medicine, medicine, 0501 psychology and cognitive sciences, Effects of sleep deprivation on cognitive performance, Prefrontal cortex, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Biological Psychiatry, Original Research, medicine.diagnostic_test, Working memory, prefrontal cortex (PFC), 05 social sciences, Cognition, memory load, Psychiatry and Mental health, Neuropsychology and Physiological Psychology, Neurology, Functional near-infrared spectroscopy, Psychology, Functional magnetic resonance imaging, 030217 neurology & neurosurgery, Neuroscience, state anxiety

Abstract

Cognitive studies have suggested that anxiety is correlated with cognitive performance. Previous research has focused on the relationship between anxiety level and the perceptual load within the frontal region, such as the dorsolateral prefrontal and anterior cingulate cortices. High-anxious individuals are predicted to have worse performance on cognitively-demanding tasks requiring efficient cognitive processing. A few functional magnetic resonance imaging studies have specifically discussed the performance and brain activity involving working memory for high-anxious individuals. This topic has been further explored with electroencephalography, although these studies have mostly provided results involving visual face-related stimuli. In this study, we used auditory stimulation to manipulate the working memory load and attempted to interpret the deficiency of cognitive function in high-anxious participants or patients using functional near infrared spectroscopy (fNIRS). The fNIRS signals of 30 participants were measured while they were performing an auditory working memory task. For the auditory n-back task, there were three experimental conditions, including two n-back task conditions of stimuli memorization with different memory load and a condition of passive listening to the stimuli. Hemodynamic responses from frontal brain regions were recorded using a wireless fNIRS device. Brain activation from the ventrolateral and orbital prefrontal cortex were measured with signals filtered and artifacts removed. The fNIRS signals were then standardized with statistical testing and group analysis was performed. The results revealed that there were significantly stronger hemodynamic responses in the right ventrolateral and orbital prefrontal cortex when subjects were attending to the auditory working memory task with higher load. Furthermore, the right lateralization of the prefrontal cortex was negatively correlated with the level of state anxiety. This study revealed the possibility of incorporating fNIRS signals as an index to evaluate cognitive performance and mood states given its flexibility regarding portable applications compared to other neuroimaging techniques.

Published

2018

31. Coordinated activation of premotor and ventromedial prefrontal cortices during vicarious reward

Author

Sotaro Shimada, Kenji Matsumoto, Yukihito Yomogida, Hidefumi Takahashi, and Madoka Matsumoto

Subjects

Male, Competitive Behavior, Cognitive Neuroscience, Closeness, Ventromedial prefrontal cortex, Prefrontal Cortex, Experimental and Cognitive Psychology, Outcome (game theory), Functional Laterality, 050105 experimental psychology, law.invention, Young Adult, 03 medical and health sciences, Reward system, 0302 clinical medicine, Reward, law, Neural Pathways, medicine, Humans, 0501 psychology and cognitive sciences, Social Behavior, Stopwatch, Brain Mapping, Neural correlates of consciousness, medicine.diagnostic_test, action observation network (AON), functional connectivity, 05 social sciences, Motor Cortex, functional magnetic resonance imaging (fMRI), Original Articles, General Medicine, Magnetic Resonance Imaging, vicarious reward, medicine.anatomical_structure, reward system, Action observation, Female, Psychology, Functional magnetic resonance imaging, Social psychology, Photic Stimulation, 030217 neurology & neurosurgery, Cognitive psychology

Abstract

The vicarious reward we receive from watching likable others obtaining a positive outcome is a pervasive phenomenon, yet its neural correlates are poorly understood. Here, we conducted a series of functional magnetic resonance imaging experiments to test the hypothesis that the brain areas responsible for action observation and reward processing work in a coordinated fashion during vicarious reward. In the first experiment (manipulation phase), the participant was instructed to cheer for a particular player in a two-player competitive game (Rock–Paper–Scissors). This manipulation made participants feel more unity with that player and resulted in unity-related activation in the premotor area during action observation. In the following main experiment, the participant witnessed the previously cheered-for or non-cheered-for player succeed in a new solitary game (a stopwatch game). The ventromedial prefrontal cortex (vmPFC) was activated when the cheered-for player succeeded in the game but not when the other player did. Interestingly, this vmPFC activation was functionally connected with premotor activation only during the cheered-for player’s success. These results suggest that vicarious reward is processed in the vmPFC-premotor network, which is activated specifically by the success of the other person with whom the individual feels unity and closeness.

Published

2015

32. Effect of emotional empathy for characters toward activation changing of premotor area

Author

Sotaro Shimada and Yukiko Ogawa

Subjects

Emotional empathy, Psychology, Cognitive psychology

Published

2015

33. Socially Anxious Tendencies Affect Autonomic Responses during Eye Gaze Perception

Author

Yuki Tsuji and Sotaro Shimada

Subjects

media_common.quotation_subject, Social anxiety, Liebowitz social anxiety scale, General Medicine, Emotional stress, Stimulus (physiology), Gaze, Developmental psychology, Perception, Heart rate, Eye tracking, Psychology, Clinical psychology, media_common

Abstract

Social anxiety disorder is a common psychiatric disorder. The gaze of others is known to frequently induce social anxiety. We conducted a gaze detection experiment to examine the effects of social anxiety on autonomic response, namely heart rate (HR) response. We used the maximum HR deceleration between 0 s and 3 s after stimulus onset as an indicator of emotional stress. Participants were assigned to a high social anxiety (HSA) or low social anxiety (LSA) group on the basis of cut-off scores indicative of clinical levels of stress as per the Japanese version of the Liebowitz Social Anxiety Scale (LSAS-J). Our results showed that HR deceleration was greater for the HSA compared with the LSA group. Moreover, the higher the LSAS-J score was, the greater the increase was in HR deceleration (correlation coefficient rs = 0.52, p < 0.01). Our results suggest that the eye gaze of others can be processed as a threat in individuals with a high tendency towards social anxiety.

Published

2015

34. Spatio-Temporal Tolerance of Visuo-Tactile Illusions in Artificial Skin by Recurrent Neural Network with Spike-Timing-Dependent Plasticity

Author

Alexandre Pitti, Sotaro Shimada, Ganna Pugach, Philippe Gaussier, Equipes Traitement de l'Information et Systèmes (ETIS - UMR 8051), and Ecole Nationale Supérieure de l'Electronique et de ses Applications (ENSEA)-Centre National de la Recherche Scientifique (CNRS)-CY Cergy Paris Université (CY)

Subjects

Computer science, media_common.quotation_subject, Models, Neurological, Illusion, Action Potentials, Sensory system, Stimulus (physiology), Article, 050105 experimental psychology, 03 medical and health sciences, 0302 clinical medicine, Parietal Lobe, Skin Physiological Phenomena, Perception, Body Image, Humans, [INFO.INFO-RB]Computer Science [cs]/Robotics [cs.RO], 0501 psychology and cognitive sciences, media_common, Neurons, Neuronal Plasticity, Multidisciplinary, Artificial neural network, business.industry, Spike-timing-dependent plasticity, 05 social sciences, Multisensory integration, Illusions, Recurrent neural network, Neural Networks, Computer, Artificial intelligence, business, Neuroscience, [SPI.SIGNAL]Engineering Sciences [physics]/Signal and Image processing, 030217 neurology & neurosurgery

Abstract

Perceptual illusions across multiple modalities, such as the rubber-hand illusion, show how dynamic the brain is at adapting its body image and at determining what is part of it (the self) and what is not (others). Several research studies showed that redundancy and contingency among sensory signals are essential for perception of the illusion and that a lag of 200–300 ms is the critical limit of the brain to represent one’s own body. In an experimental setup with an artificial skin, we replicate the visuo-tactile illusion within artificial neural networks. Our model is composed of an associative map and a recurrent map of spiking neurons that learn to predict the contingent activity across the visuo-tactile signals. Depending on the temporal delay incidentally added between the visuo-tactile signals or the spatial distance of two distinct stimuli, the two maps detect contingency differently. Spiking neurons organized into complex networks and synchrony detection at different temporal interval can well explain multisensory integration regarding self-body.

Published

2017

35. Frontotemporal oxyhemoglobin dynamics predict performance accuracy of dance simulation gameplay: Temporal characteristics of top-down and bottom-up cortical activities

Author

Keisuke Sato, Shohei Tanaka, Yumie Ono, Yasunori Nomoto, J. Adam Noah, Shaw Bronner, Atsumichi Tachibana, and Sotaro Shimada

Subjects

Adult, Male, Dance, Cognitive Neuroscience, Middle temporal gyrus, Correlation, Rhythm, Humans, Computer Simulation, Dancing, Video game, Cued speech, Communication, Spectroscopy, Near-Infrared, business.industry, Functional Neuroimaging, Multisensory integration, Temporal Lobe, Frontal Lobe, Acoustic Stimulation, Video Games, Neurology, Area Under Curve, Data Interpretation, Statistical, Oxyhemoglobins, Female, business, Motor learning, Psychology, Neuroscience, Algorithms, Music, Photic Stimulation, Psychomotor Performance

Abstract

We utilized the high temporal resolution of functional near-infrared spectroscopy to explore how sensory input (visual and rhythmic auditory cues) are processed in the cortical areas of multimodal integration to achieve coordinated motor output during unrestricted dance simulation gameplay. Using an open source clone of the dance simulation video game, Dance Dance Revolution, two cortical regions of interest were selected for study, the middle temporal gyrus (MTG) and the frontopolar cortex (FPC). We hypothesized that activity in the FPC would indicate top-down regulatory mechanisms of motor behavior; while that in the MTG would be sustained due to bottom-up integration of visual and auditory cues throughout the task. We also hypothesized that a correlation would exist between behavioral performance and the temporal patterns of the hemodynamic responses in these regions of interest. Results indicated that greater temporal accuracy of dance steps positively correlated with persistent activation of the MTG and with cumulative suppression of the FPC. When auditory cues were eliminated from the simulation, modifications in cortical responses were found depending on the gameplay performance. In the MTG, high-performance players showed an increase but low-performance players displayed a decrease in cumulative amount of the oxygenated hemoglobin response in the no music condition compared to that in the music condition. In the FPC, high-performance players showed relatively small variance in the activity regardless of the presence of auditory cues, while low-performance players showed larger differences in the activity between the no music and music conditions. These results suggest that the MTG plays an important role in the successful integration of visual and rhythmic cues and the FPC may work as top-down control to compensate for insufficient integrative ability of visual and rhythmic cues in the MTG. The relative relationships between these cortical areas indicated high- to low-performance levels when performing cued motor tasks. We propose that changes in these relationships can be monitored to gauge performance increases in motor learning and rehabilitation programs.

Published

2014

36. Neuroscience and Psychology: functional near-infrared spectroscopy (fNIRS) studies from experimental and clinical perspectives

Author

Yasuyo Minagawa, Ltd. Hitachi, Megumi Kobayashi, Sotaro Shimada, Yukifumi Monden, Ippeita Dan, and K.Masami Yamaguchi

Subjects

Functional near-infrared spectroscopy, Psychology, Neuroscience

Published

2019

37. The relationship and difference between delay detection ability and judgment of sense of agency

Author

Sotaro Shimada, Takaki Maeda, Satoshi Nobusako, Michihiro Osumi, Takuro Zama, Shu Morioka, and Naho Yokotani

Subjects

Social Cognition, Man-Computer Interface, Male, Vision, Social Sciences, Hands, Intention, Computer Architecture, Task (project management), Correlation, Mathematical and Statistical Techniques, Cognition, 0302 clinical medicine, Feedback, Sensory, Agency (sociology), Medicine and Health Sciences, Psychophysics, Psychology, Sense of Agency, Musculoskeletal System, Motor skill, Multidisciplinary, 05 social sciences, Virtual Reality, Curve Fitting, Arms, Motor Skills, Engineering and Technology, Medicine, Sensory Perception, Female, Anatomy, Research Article, Cognitive psychology, Computer and Information Sciences, Social Psychology, Science, Research and Analysis Methods, behavioral disciplines and activities, 050105 experimental psychology, Judgment, Young Adult, 03 medical and health sciences, Humans, 0501 psychology and cognitive sciences, Color Vision, Sense of agency, Cognitive Psychology, Biology and Life Sciences, Body Limbs, Human Factors Engineering, Time Perception, Cognitive Science, Attribution, Mathematical Functions, Psychomotor Performance, 030217 neurology & neurosurgery, Neuroscience, User Interfaces

Abstract

Judgment of agency involves the comparison of motor intention and proprioceptive/visual feedback, in addition to a range of cognitive factors. However, few studies have experimentally examined the differences or correlations between delay detection ability and judgment of agency. Thus, the present study investigated the relationship between delay detection ability and agency judgment using the delay detection task and the agency attribution task. Fifty-eight participants performed the delay detection and agency attribution tasks, and the time windows of each measure were analyzed using logistic curve fitting. The results revealed that the time window of judgment of agency was significantly longer than that of delay detection, and there was a slight correlation between the time windows in each task. The results supported a two-step model of agency, suggesting that judgment of agency involved not only comparison of multisensory information but also several cognitive factors. The study firstly revealed the model in psychophysical experiments.

Published

2019

38. Mechanism and Functions of We-mode: Perspectives in Rhythm, Synchronicity and Joint action

Author

Michiteru Kitazaki, Sotaro Shimada, Masahiro Kawasaki, Masahiro Hirai, and Shoji Itakura

Published

2018

39. Simultaneous measurement of electroencephalography and near-infrared spectroscopy during voluntary motor preparation

Author

Sotaro Shimada and Takuro Zama

Subjects

Male, medicine.medical_specialty, Haemodynamic response, Contingent Negative Variation, Electroencephalography, Audiology, Brain mapping, Article, Premotor cortex, Young Adult, medicine, Humans, Electrodes, Brain Mapping, Spectroscopy, Near-Infrared, Multidisciplinary, medicine.diagnostic_test, Button press, business.industry, Hemodynamics, Motor Cortex, Contingent negative variation, Electrophysiology, medicine.anatomical_structure, Oxyhemoglobins, Anesthesia, Female, business, Motor cortex

Abstract

We investigated the relationship between electrophysiological activity and haemodynamic response during motor preparation by simultaneous recording of electroencephalography (EEG) and near-infrared spectroscopy (NIRS). It is still unknown how exactly EEG signals correlate with the haemodynamic response, although the activation in the premotor area during motor preparation has been captured by EEG and haemodynamic approaches separately. We conducted EEG-NIRS simultaneous recordings over the sensorimotor area with a self-paced button press task. Participants were instructed to press a button at their own pace after a cue was shown. The result showed that the readiness potential (RP), a negative slow potential shift occurring during motor preparation, on C3 in the extended 10–20 system occurred about 1000 ms before the movement onset. An increase in concentration of oxyhaemoglobin (oxyHb) in the premotor cortex during motor preparation was also confirmed by NIRS, which resulted in a significant correlation between the amplitude of the RP and the change in oxyHb concentration (Pearson’s correlation r2 = 0.235, p = 0.03). We show that EEG-NIRS simultaneous recording can demonstrate the correlation between the RP and haemodynamic response in the premotor cortex contralateral to the performing hand.

Published

2015

40. fMRI Validation of fNIRS Measurements During a Naturalistic Task

Author

Atsumichi Tachibana, J. Adam Noah, Shaw Bronner, Xian Zhang, Joy Hirsch, Yumie Ono, Sotaro Shimada, and Yasunori Nomoto

Subjects

Male, fNIRS (functional near-infrared spectroscopy), Brain activity and meditation, Computer science, Speech recognition, General Chemical Engineering, General Biochemistry, Genetics and Molecular Biology, video game, temporal gyrus, Functional brain, Task Performance and Analysis, medicine, Humans, Video game, Behavior, prefrontal cortex, Spectroscopy, Near-Infrared, medicine.diagnostic_test, General Immunology and Microbiology, multisensory integration, General Neuroscience, Brain, Multisensory integration, Imaging Procedures, Magnetic Resonance Imaging, Issue 100, fMRI (functional magnetic resonance imaging), Finger tapping, Female, Motor learning, Functional magnetic resonance imaging, motor learning, frontopolar, Neuroscience

Abstract

We present a method to compare brain activity recorded with near-infrared spectroscopy (fNIRS) in a dance video game task to that recorded in a reduced version of the task using fMRI (functional magnetic resonance imaging). Recently, it has been shown that fNIRS can accurately record functional brain activities equivalent to those concurrently recorded with functional magnetic resonance imaging for classic psychophysical tasks and simple finger tapping paradigms. However, an often quoted benefit of fNIRS is that the technique allows for studying neural mechanisms of complex, naturalistic behaviors that are not possible using the constrained environment of fMRI. Our goal was to extend the findings of previous studies that have shown high correlation between concurrently recorded fNIRS and fMRI signals to compare neural recordings obtained in fMRI procedures to those separately obtained in naturalistic fNIRS experiments. Specifically, we developed a modified version of the dance video game Dance Dance Revolution (DDR) to be compatible with both fMRI and fNIRS imaging procedures. In this methodology we explain the modifications to the software and hardware for compatibility with each technique as well as the scanning and calibration procedures used to obtain representative results. The results of the study show a task-related increase in oxyhemoglobin in both modalities and demonstrate that it is possible to replicate the findings of fMRI using fNIRS in a naturalistic task. This technique represents a methodology to compare fMRI imaging paradigms which utilize a reduced-world environment to fNIRS in closer approximation to naturalistic, full-body activities and behaviors. Further development of this technique may apply to neurodegenerative diseases, such as Parkinson’s disease, late states of dementia, or those with magnetic susceptibility which are contraindicated for fMRI scanning.

Published

2015

41. Social nature emerged from bodily interaction

Author

Atsushi Sato, Toshiyuki Himichi, Motoaki Sugiura, Michio Nomura, Hiroki C. Tanabe, Ayumi Yoshioka, and Sotaro Shimada

Subjects

Social nature, Psychology, Social psychology

Published

2017

42. Efficient Generation of Chained Classifiers by Introducing an Operon Mechanism

Author

Sotaro Shimada and Yuichiro Anzai

Subjects

Mechanism (biology), Operon, business.industry, Pattern recognition, Artificial intelligence, Classifier chains, business, Mathematics

Published

2000

43. Rubber hand illusion under delayed visual feedback

Author

Kensuke Fukuda, Sotaro Shimada, and Kazuo Hiraki

Subjects

Male, medicine.medical_specialty, Visual perception, media_common.quotation_subject, Illusion, lcsh:Medicine, Visual feedback, Audiology, Feedback, Natural rubber, Perception, Sensation, medicine, Humans, lcsh:Science, media_common, Physics, Neuroscience/Cognitive Neuroscience, Multidisciplinary, Sensory stimulation therapy, Proprioception, Neuroscience/Sensory Systems, lcsh:R, Neuroscience/Experimental Psychology, visual_art, visual_art.visual_art_medium, Visual Perception, lcsh:Q, Research Article

Abstract

BACKGROUND: Rubber hand illusion (RHI) is a subject's illusion of the self-ownership of a rubber hand that was touched synchronously with their own hand. Although previous studies have confirmed that this illusion disappears when the rubber hand was touched asynchronously with the subject's hand, the minimum temporal discrepancy of these two events for attenuation of RHI has not been examined. METHODOLOGY/PRINCIPAL FINDINGS: In this study, various temporal discrepancies between visual and tactile stimulations were introduced by using a visual feedback delay experimental setup, and RHI effects in each temporal discrepancy condition were systematically tested. The results showed that subjects felt significantly greater RHI effects with temporal discrepancies of less than 300 ms compared with longer temporal discrepancies. The RHI effects on reaching performance (proprioceptive drift) showed similar conditional differences. CONCLUSIONS/SIGNIFICANCE: Our results first demonstrated that a temporal discrepancy of less than 300 ms between visual stimulation of the rubber hand and tactile stimulation to the subject's own hand is preferable to induce strong sensation of RHI. We suggest that the time window of less than 300 ms is critical for multi-sensory integration processes constituting the self-body image.

Published

2009

44. The parietal role in the sense of self-ownership with temporal discrepancy between visual and proprioceptive feedbacks

Author

Sotaro Shimada, Ichiro Oda, and Kazuo Hiraki

Subjects

Adult, Male, Brain chemistry, Time Factors, genetic structures, Right inferior, Adolescent, Cognitive Neuroscience, Psychology of self, Visual feedback, Feedback, Hemoglobins, Parietal Lobe, Humans, Proprioceptive Feedbacks, Sensory Feedbacks, Brain Chemistry, Spectroscopy, Near-Infrared, Proprioception, Parietal lobe, Oxygen, Neurology, Visual Perception, Female, Psychology, Neuroscience, Psychomotor Performance, Cognitive psychology

Abstract

One hypothesis on how we recognize an image of, for example, an arm as our own is through the co-occurrence of multiple sensory feedbacks, especially visual and proprioceptive feedbacks, in this process. It has been suggested that the parietal lobe is the region where proprioceptive and visual information of one's own body is integrated. This study investigated parietal cortical activity during a visual-proprioceptive synchrony judgment task in which visual feedback of the subjects' own passively moving hand was delayed. The subjects were required to judge whether or not there was a delay between the proprioceptive and visual feedbacks. Parietal cortical activity, which was measured using a 48-channel near-infrared spectroscopy (NIRS) apparatus, appeared to be modulated by the length of the delay between the visual and proprioceptive feedbacks. The bilateral superior/middle parietal areas were involved in experiencing the synchrony between the visual and proprioceptive feedbacks, whereas the right inferior parietal areas were strongly activated when discrepancy between the two feedbacks was detected. We postulate that the superior portion of the parietal lobe is essential for maintaining one's own body image, while the right inferior portion is involved in detecting movements of others.

Published

2004

45. Story understanding of a nonexplanatory film affects viewers' premotor activity and empathy for fictional characters.

Author

Yukiko Ogawa and Sotaro Shimada

Published

2016

46. Coordinated activation of premotor and ventromedial prefrontal cortices during vicarious reward.

Author

Sotaro Shimada, Madoka Matsumoto, Hidefumi Takahashi, Yukihito Yomogida, and Kenji Matsumoto

Subjects

*REWARD (Psychology), *FUNCTIONAL magnetic resonance imaging, *MAGNETIC resonance imaging of the brain, *GAMES, *BRAIN imaging, *STATISTICAL hypothesis testing

Abstract

The vicarious reward we receive from watching likable others obtaining a positive outcome is a pervasive phenomenon, yet its neural correlates are poorly understood. Here, we conducted a series of functional magnetic resonance imaging experiments to test the hypothesis that the brain areas responsible for action observation and reward processing work in a coordinated fashion during vicarious reward. In the first experiment (manipulation phase), the participant was instructed to cheer for a particular player in a two-player competitive game (Rock-Paper-Scissors). This manipulation made participants feel more unity with that player and resulted in unity-related activation in the premotor area during action observation. In the following main experiment, the participant witnessed the previously cheered-for or non-cheered-for player succeed in a new solitary game (a stopwatch game). The ventromedial prefrontal cortex (vmPFC) was activated when the cheered-for player succeeded in the game but not when the other player did. Interestingly, this vmPFC activation was functionally connected with premotor activation only during the cheered-for player's success. These results suggest that vicarious reward is processed in the vmPFC-premotor network, which is activated specifically by the success of the other person with whom the individual feels unity and closeness. [ABSTRACT FROM AUTHOR]

Published

2016

47. Neural Basis of the Time Window for Subjective Motor-Auditory Integration.

Author

Koichi Toida, Kanako Ueno, and Sotaro Shimada

Subjects

AUDITORY perception, HEARING, AUDIOMETRY, EVOKED potentials (Electrophysiology), ELECTROENCEPHALOGRAPHY

Abstract

Temporal contiguity between an action and corresponding auditory feedback is crucial to the perception of self-generated sound. However, the neural mechanisms underlying motor-auditory temporal integration are unclear. Here, we conducted four experiments with an oddball paradigm to examine the specific event-related potentials (ERPs) elicited by delayed auditory feedback for a self-generated action. The first experiment confirmed that a pitch-deviant auditory stimulus elicits mismatch negativity (MMN) and P300, both when it is generated passively and by the participant's action. In our second and third experiments, we investigated the ERP components elicited by delayed auditory feedback for a self-generated action. We found that delayed auditory feedback elicited an enhancement of P2 (enhanced-P2) and a N300 component, which were apparently different from the MMN and P300 components observed in the first experiment. We further investigated the sensitivity of the enhanced-P2 and N300 to delay length in our fourth experiment. Strikingly, the amplitude of the N300 increased as a function of the delay length. Additionally, the N300 amplitude was significantly correlated with the conscious detection of the delay (the 50% detection point was around 200 ms), and hence reduction in the feeling of authorship of the sound (the sense of agency). In contrast, the enhanced-P2 was most prominent in short-delay (≤200 ms) conditions and diminished in long-delay conditions. Our results suggest that different neural mechanisms are employed for the processing of temporally deviant and pitch-deviant auditory feedback. Additionally, the temporal window for subjective motor-auditory integration is likely about 200 ms, as indicated by these auditory ERP components. [ABSTRACT FROM AUTHOR]

Published

2016

48. Detection of temporal inconsistency among sensory feedbacks during self-body movement

Author

Y Qi and Sotaro Shimada

Subjects

Sensory Feedbacks, Communication, Neurology, business.industry, Cognitive Neuroscience, Body movement, business, Psychology

Published

2009

49. Activity of motor areas during observation and execution of a competitive game

Author

Sotaro Shimada and R Abe

Subjects

Motor area, Neurology, Computer science, Human–computer interaction, Cognitive Neuroscience, Real-time computing, Competitive game

Published

2009

50. 電子情報通信学会2008年ソサイエティ大会の開催地から

Author

Sotaro Shimada

Published

2008