Brain-to-brain hyperclassification reveals action-specific motor mapping of observed actions in humans

Смирнов, Д. А.; Lachat, Fanny; Peltola, Tomi; Lahnakoski, Juha M.; Koistinen, Olli-Pekka; Glerean, Enrico; Vehtari, Aki; Hari, Riitta; Sams, Mikko; Nummenmaa, Lauri

doi:10.1371/journal.pone.0189508

Cited by 11 publications

(13 citation statements)

References 53 publications

(61 reference statements)

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“…Yet, pattern classification work on facial expression recognition (e.g. Said et al 2010) and “hyperclassification” of seen and executed hand actions (Smirnov et al, 2017) suggests that our results should be generalizable.…”

Section: Discussionmentioning

confidence: 83%

Statistical Pattern Recognition Reveals Shared Neural Signatures for Displaying and Recognizing Specific Facial Expressions

Volynets

Smirnov

Saarimäki

et al. 2019

Preprint

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Human neuroimaging and behavioural studies suggest that somatomotor “mirroring” of seen facial expressions may support their recognition. Here we show that viewing specific facial expressions triggers the representation corresponding to that expression in the observer’s brain. Twelve healthy female volunteers underwent two separate fMRI sessions: one where they observed and another where they displayed three types of basic facial expressions (joy, anger and disgust). Pattern classifier based on Bayesian logistic regression was trained to classify facial expressions i) within modality (trained and tested with data recorded while observing or displaying expressions) and ii) between modalities (trained with data recorded while displaying expressions and tested with data recorded while observing the expressions). Cross-modal classification was performed in two ways: with and without functional realignment of the data across observing / displaying conditions. All expressions could be accurately classified within and also across modalities. Brain regions contributing most to cross-modal classification accuracy included primary motor and somatosensory cortices. Functional realignment led to only minor increases in cross-modal classification accuracy for most of the examined ROIs. Substantial improvement was observed in the occipito-ventral components of the core system for facial expression recognition. Altogether these results support the embodied emotion recognition model and show that expression-specific somatomotor neural signatures could support facial expression recognition.

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Section: Discussionmentioning

confidence: 83%

Statistical Pattern Recognition Reveals Shared Neural Signatures for Displaying and Recognizing Specific Facial Expressions

Volynets

Smirnov

Saarimäki

et al. 2019

Preprint

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“…During the interaction, sensory, cognitive, and emotional information is constantly remapped in the observers' brain and used for motor actions as responses attuned to the received input (1). Thus the interlocutors' minds are intertwined into a shared system facilitating reciprocation (2)(3)(4) as well as anticipation of the other person's acts, allowing distribution of neural processing across brains to aid, for example, problem solving.…”

Section: Introductionmentioning

confidence: 99%

“…The communicative information can then be presented to the receiver subjects as stimuli during brain imaging, allowing joint analysis of the brain activity of the sender and receiver subjects. This line of work has revealed how successful communication via speech (25,26), hand gestures (3,27), and facial expressions (28) enhances similarity of neural activation patterns across the interlocutors in a task-specific manner. This approach however lacks any interactivity, as the receiver subjects are essentially viewing pre-recorded stimuli, and need not to generate any responses to them.…”

Section: Introductionmentioning

confidence: 99%

Imaging Real-Time Tactile Interaction With Two-Person Dual-Coil fMRI

et al. 2020

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Studies of brain mechanisms supporting social interaction are demanding because real interaction only occurs when persons are in contact. Instead, most brain imaging studies scan subjects individually. Here we present a proof-of-concept demonstration of twoperson blood oxygenation dependent (BOLD) imaging of brain activity from two individuals interacting inside the bore of a single MRI scanner. We developed a custom 16-channel (8 + 8 channels) two-helmet coil with two separate receiver-coil pairs providing whole-brain coverage, while bringing participants into a shared physical space and realistic face-to-face contact. Ten subject pairs were scanned with the setup. During the experiment, subjects took turns in tapping each other's lip versus observing and feeling the taps timed by auditory instructions. Networks of sensorimotor brain areas were engaged alternatingly in the subjects during executing motor actions as well as observing and feeling them; these responses were clearly distinguishable from the auditory responses occurring similarly in both participants. Even though the signal-to-noise ratio of our coil system was compromised compared with standard 32-channel head coils, our results show that the two-person fMRI scanning is feasible for studying the brain basis of social interaction.

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“…Thus the interlocutors' minds are intertwined into a shared system facilitating reciprocation (Hasson et al, 2012;Nummenmaa et al, 2018;Smirnov et al, 2017) as well as anticipation of the other person's acts, allowing distribution of neural processing across brains to aid, for example, problem solving.…”

Section: Introductionmentioning

confidence: 99%

“…The communicative information can then be presented to the receiver subjects as stimuli during brain imaging, allowing joint analysis of the brain activity of the sender and receiver subjects. This line of work has revealed how successful communication via speech (Smirnov et al, 2019;Stephens et al, 2010), hand gestures (Schippers et al, 2010;Smirnov et al, 2017) and facial expressions (Anders et al, 2011) enhances similarity of neural activation patterns across the interlocutors in a task-specific manner. This approach however lacks any interactivity, as the receiver subjects are essentially viewing pre-recorded stimuli, and need not to generate any responses to them.…”

Section: Introductionmentioning

confidence: 99%

Imaging real-time tactile interaction with two-person dual-coil fMRI

Renvall

Kauramäki

Malinen

et al. 2019

Preprint

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SummaryStudies of brain mechanisms supporting social interaction are demanding because real interaction only occurs when the persons are in contact. Instead, most brain imaging studies scan subjects individually. Here we present a proof-of-concept demonstration of two-person blood oxygenation dependent (BOLD) imaging of brain activity from two individuals interacting inside the bore of a single MRI scanner. We developed a custom 16-channel (8 + 8 channels) two-helmet coil with two separate receiving elements providing whole-brain coverage, while bringing participants into a shared physical space and realistic face-to-face contact. Ten subject pairs were scanned with the setup. During the experiment, subjects took turns in tapping each other’s’ lip versus observing and feeling the taps timed by auditory instructions. Networks of sensorimotor brain areas were engaged alternatingly in the subjects during executing motor actions as well as observing and feeling them; these responses were clearly distinguishable from the auditory responses occurring similarly in both participants. Even though the signal-to-noise ratio of our coil system was compromised compared with standard 32-channel head coils, our results show that the two-person fMRI scanning is a feasible in studying the brain basis of social interaction.

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Brain-to-brain hyperclassification reveals action-specific motor mapping of observed actions in humans

Cited by 11 publications

References 53 publications

Statistical Pattern Recognition Reveals Shared Neural Signatures for Displaying and Recognizing Specific Facial Expressions

Statistical Pattern Recognition Reveals Shared Neural Signatures for Displaying and Recognizing Specific Facial Expressions

Imaging Real-Time Tactile Interaction With Two-Person Dual-Coil fMRI

Imaging real-time tactile interaction with two-person dual-coil fMRI

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