Decoding the neural representation of story meanings across languages

Dehghani, Morteza; Boghrati, Reihane; Man, Kingson; Hoover, Joe; Gimbel, Sarah I.; Vaswani, Ashish; Zevin, Jason D.; Immordino‐Yang, Mary Helen; Gordon, Andrew S.; Damásio, António R.; Kaplan, Joseph

doi:10.1002/hbm.23814

Cited by 67 publications

(62 citation statements)

References 66 publications

(87 reference statements)

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“…On the other hand, majority of human memory studies that use non-naturalistic stimuli have reported dominance of the left hemisphere (Johnson et al, 2013;Kim, 2011;Scalici et al, 2017), while for studies using longer-duration, naturalistic stimuli results are bilateral or right dominant (Chen et al, 2017;J. Chen et al, 2015a;Dehghani et al, 2017;Hasson et al, 2004;J€ a€ askel€ ainen et al, 2008;Kauppi et al, 2010;Lerner et al, 2011). Based on the hemispheric encoding/retrieval asymmetry model and supported by various neuroimaging studies, right PFC is typically engaged more than left in memory retrieval processes (Habib et al, 2003;Tulving et al, 1994).…”

Section: Lateralization Of Fingerprint Patternsmentioning

confidence: 99%

“…A common factor for fMRI studies applying long-duration naturalistic stimulus appear to be involvement of DMN, particularly precuneus and ANG (Chen et al, 2017;J. Chen et al, 2015a;Dehghani et al, 2017;Hasson et al, 2004;J€ a€ askel€ ainen et al, 2008;Kauppi et al, 2010;Lerner et al, 2011). Precuneus is known as a functional core of the DMN (Utevsky et al, 2014).…”

Section: Key-frame Effect and Dmnmentioning

confidence: 99%

“…We applied event-specific pattern analysis and hypothesized that our analyses implicate brain structures that have been previously associated with long-duration memory storing and narrative comprehension. Such regions are medial temporal lobe, frontal and prefrontal cortices, hippocampus, precuneus, angular gyrus, cingulate, middle temporal pole and frontal gyri (Bird et al, 2015;Chen et al, 2017;Dehghani et al, 2017;Kauttonen et al, 2015;Nadel and Hardt, 2011;Oedekoven et al, 2017;Summerfield et al, 2006;Wheeler et al, 1995;Yaffe et al, 2014). In addition, we assumed that the right hemisphere would dominate the cognitive processes related to long-duration narrative comprehension, based on previous findings (AbdulSabur et al, 2014;J€ a€ askel€ ainen et al, 2008;Marini et al, 2005;Tyl en et al, 2015;Xu et al, 2005).…”

Section: Introductionmentioning

confidence: 98%

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Brain mechanisms underlying cue-based memorizing during free viewing of movie Memento

et al. 2018

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How does the human brain recall and connect relevant memories with unfolding events? To study this, we presented 25 healthy subjects, during functional magnetic resonance imaging, the movie 'Memento' (director C. Nolan). In this movie, scenes are presented in chronologically reverse order with certain scenes briefly overlapping previously presented scenes. Such overlapping "key-frames" serve as effective memory cues for the viewers, prompting recall of relevant memories of the previously seen scene and connecting them with the concurrent scene. We hypothesized that these repeating key-frames serve as immediate recall cues and would facilitate reconstruction of the story piece-by-piece. The chronological version of Memento, shown in a separate experiment for another group of subjects, served as a control condition. Using multivariate event-related pattern analysis method and representational similarity analysis, focal fingerprint patterns of hemodynamic activity were found to emerge during presentation of key-frame scenes. This effect was present in higher-order cortical network with regions including precuneus, angular gyrus, cingulate gyrus, as well as lateral, superior, and middle frontal gyri within frontal poles. This network was right hemispheric dominant. These distributed patterns of brain activity appear to underlie ability to recall relevant memories and connect them with ongoing events, i.e., "what goes with what" in a complex story. Given the real-life likeness of cinematic experience, these results provide new insight into how the human brain recalls, given proper cues, relevant memories to facilitate understanding and prediction of everyday life events.

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Section: Lateralization Of Fingerprint Patternsmentioning

confidence: 99%

Section: Key-frame Effect and Dmnmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 98%

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Brain mechanisms underlying cue-based memorizing during free viewing of movie Memento

et al. 2018

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“…Additional studies have shown that face-to-face interaction and communication not only generates synchrony between two people but also predicts mutual prosociality (Jiang et al, 2012 , 2015 ; Hu et al, 2017 ). Both successful communication and memory encoding of narrative content in story segments have also been shown to produce synchrony between participants (Hasson et al, 2008 ; Dehghani et al, 2017 ). Future research on direct communication and common memory could elucidate differences between co-presence and symbolic interactionism.…”

Section: Theoretical Implications and Future Directionsmentioning

confidence: 99%

Groups and Emotional Arousal Mediate Neural Synchrony and Perceived Ritual Efficacy

et al. 2018

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We present the first neurophysiological signatures showing distinctive effects of group social context and emotional arousal on cultural perceptions, such as the efficacy of religious rituals. Using a novel protocol, EEG data were simultaneously recorded from ethnic Chinese religious believers in group and individual settings as they rated the perceived efficacy of low, medium, and high arousal spirit-medium rituals presented as video clips. Neural oscillatory patterns were then analyzed for these perceptual judgements, categorized as low, medium, and high efficacy. The results revealed distinct neural signatures and behavioral patterns between the experimental conditions. Arousal levels predicted ratings of ritual efficacy. Increased efficacy was marked by suppressed alpha and beta power, regardless of group or individual setting. In groups, efficacy ratings converged. Individual setting showed increased within-participant phase synchronization in alpha and beta bands, while group setting enhanced between-participant theta phase synchronization. This reflected group participants' orientation toward a common perspective and social coordination. These findings suggest that co-presence in groups leads to a social-tuning effect supported by between-participant theta phase synchrony. Together these neural synchrony patterns reveal how collective rituals have both individual and communal dimensions. The emotionality of spirit-medium rituals drives individual perceptions of efficacy, while co-presence in groups signals the significance of an event and socially tunes enhanced agreement in perceptual ratings. In other words, mass gatherings may foster social cohesion without necessarily requiring group-size scaling limitations of direct face-to-face interaction. This could have implications for the scaling computability of synchrony in large groups as well as for humanistic studies in areas such as symbolic interactionism.

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“…This is the first time that MVPA-based across-language generalization has been used to investigate the scope of non-conscious semantic representations. However, the same approach has already been used with positive results in a number of different fMRI studies where words were available to conscious awareness [Buchweitz et al (2012), Correia et al (2014), Zinszer et al (2015), Dehghani et al (2017)]. The factors leading to acrosslanguage generalization are not well understood.…”

Section: Discussionmentioning

confidence: 99%

Decoding the meaning of unconsciously processed words using fMRI-based MVPA

2019

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Does the human brain elicit patterns of activity associated with the meaning of words in the absence of conscious awareness? Do such non-conscious semantic representations generalize across languages? This study aimed to address these questions using fMRIbased multivariate pattern analysis (MVPA) in a masked word paradigm. Animal and non-animal words were visually presented in two different languages (i.e. Spanish and Basque). Words were presented very briefly and were masked. On each trial, participants identified the semantic category and provided a visibility rating of the word. A support vector machine (SVM) was used to decode word category from multivoxel patterns of BOLD responses in seven canonical semantic regions of a left-lateralized network that were prespecified based on a previous meta-analysis. We show that the semantic category of non-conscious words (i.e. associated with null visual experience and chance-level discrimination performance) can be significantly decoded from BOLD response patterns. For Spanish, such discriminative patterns of BOLD responses were consistently found in inferior parietal lobe, dorsomedial prefrontal cortex, inferior frontal gyrus and posterior cingulate gyrus. While for Basque, these were found in ventromedial temporal lobe and posterior cingulate gyrus. All of the areas identified have previously been associated with semantic processing in studies involving animals-tools and animals-artifacts contrasts. In conscious trials, such patterns were found to be distributed over all seven regions of the semantic network in both Spanish and Basque. However, we found no evidence of acrosslanguage generalization. These results demonstrate that even in the absence of conscious awareness and lack of behavioural sensitivity to the words, putative semantic brain areas carry information related to the meanings of the words. The generalization of semantic representations across languages, however, may require deeper conscious semantic access.

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Decoding the neural representation of story meanings across languages

Cited by 67 publications

References 66 publications

Brain mechanisms underlying cue-based memorizing during free viewing of movie Memento

Brain mechanisms underlying cue-based memorizing during free viewing of movie Memento

Groups and Emotional Arousal Mediate Neural Synchrony and Perceived Ritual Efficacy

Decoding the meaning of unconsciously processed words using fMRI-based MVPA

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