Holding Biological Motion in Working Memory: An fMRI Study

Lu, Xiqian; Huang, Jian; Yi, Yuji; Shen, Mowei; Weng, Xuchu; Gao, Zaifeng

doi:10.3389/fnhum.2016.00251

Cited by 38 publications

(50 citation statements)

References 79 publications

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“…Additionally, it is important to note that researchers have suggested that there might be two distinct types of social WM (Lieberman, ; Xin & Lei, ): One requires participants to internally focus their attention on friends' internal traits and rank them according to a specific dimension (i.e., internally orientated social WM; e.g., Meyer & Lieberman, , ; Meyer et al., , ); the other requires participants to focus their attention on the external world and their friends' faces or actions (externally orientated social WM; e.g., Gao et al., , ; Lu et al., ; Shen et al., ; Thornton & Conway, ; Xin & Lei, ). Xin and Lei () elegantly showed that there are certain differences in the neural substrates of these two types of social WM.…”

Section: Discussionmentioning

confidence: 99%

“…If the child could not focus on a trial because of unexpected issues, experimenter presented the same trial again by pressing the space bar on the keyboard. Note that previous studies added a digit rehearsal task to the memory task to prevent participants from verbally encoding BM stimuli (e.g., Gao et al., ; Lu et al., ; Shen et al., ). However, we did not do this because children do not develop verbal rehearsal strategies until around 7 years old (Hitch et al., ).…”

Section: Methodsmentioning

confidence: 99%

“…So far, researchers have explored the capacity (Gao, Bentin, & Shen, ; Shen, Gao, Ding, Zhou, & Huang, ), storage manner (Thornton & Conway, ), function (Gao et al., ; Meyer et al., , ; Xin & Lei, ), and neural substrates of social WM (Lieberman, ; Lu et al., ; Meyer & Lieberman, , ; Meyer et al., , ; Thornton & Conway, ; Xin & Lei, ). However, no study, to the best of our knowledge, has yet explored the development of social WM.…”

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confidence: 99%

“…Moreover, two lines of evidence imply that social information is indeed processed when retaining BM in WM. First, neuroimaging studies have shown that the neural substrates for WM storage of BM include the mirror neuron system (Gao et al, 2015;Lu et al, 2016), which is suggested to have a close link with social cognition (e.g., Rizzolatti & Fabbri-Destro, 2008; but see Cook, Bird, Catmur, Press, & Heyes, 2014 for a different view). Second, Gao et al (2016) found that the WM capacity of BM, but not canonical WM capacity (e.g., color), is a predictor of empathy, which is a key aspect of social functioning.…”

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confidence: 99%

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Development of Social Working Memory in Preschoolers and Its Relation to Theory of Mind

Guo

Zhai

et al. 2018

Child Development

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Social working memory (WM) has distinct neural substrates from canonical cognitive WM (e.g., color). However, no study, to the best of our knowledge, has yet explored how social WM develops. The current study explored the development of social WM capacity and its relation to theory of mind (ToM). Experiment 1 had sixty-four 3- to 6-year-olds memorize 1-5 biological motion stimuli, the processing of which is considered a hallmark of social cognition. The social WM capacity steadily increased between 3- and 6-year-olds, with the increase between 4 and 5 years being sharp. Furthermore, social WM capacity positively predicted preschoolers' ToM scores, while nonsocial WM capacity did not; this positive correlation was particularly strong among 4-year-olds (Experiment 2, N = 144).

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Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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confidence: 99%

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confidence: 99%

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Development of Social Working Memory in Preschoolers and Its Relation to Theory of Mind

Guo

Zhai

et al. 2018

Child Development

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“…Other studies using multivariate pattern analysis (MVPA) have successfully decoded the specific motion direction during the delay period in MT areas (Emrich, Riggall, LaRocque, & Postle, ; LaRocque, Riggall, Emrich, & Postle, ). Nevertheless, in another study of action VSTM using point‐light motion animations, it has been found that the frontal and parietal lobules were involved in maintaining action during the delay (Lu et al, ). As this study did not include the VSTM task for objects and spatial locations, it remains unclear if these regions are specific to VSTM of actions or they are shared by VSTM of other stimuli (or aspects of stimuli) such as objects/agents or spatial locations.…”

Section: Introductionmentioning

confidence: 99%

Distinct neural substrates for visual short‐term memory of actions

Cai

Urgolites

Wood

et al. 2018

Human Brain Mapping

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Fundamental theories of human cognition have long posited that the short-term maintenance of actions is supported by one of the "core knowledge" systems of human visual cognition, yet its neural substrates are still not well understood. In particular, it is unclear whether the visual short-term memory (VSTM) of actions has distinct neural substrates or, as proposed by the spatio-object architecture of VSTM, shares them with VSTM of objects and spatial locations. In two experiments, we tested these two competing hypotheses by directly contrasting the neural substrates for VSTM of actions with those for objects and locations. Our results showed that the bilateral middle temporal cortex (MT) was specifically involved in VSTM of actions because its activation and its functional connectivity with the frontal-parietal network (FPN) were only modulated by the memory load of actions, but not by that of objects/agents or locations. Moreover, the brain regions involved in the maintenance of spatial location information (i.e., superior parietal lobule, SPL) was also recruited during the maintenance of actions, consistent with the temporal-spatial nature of actions. Meanwhile, the frontoparietal network (FPN) was commonly involved in all types of VSTM and showed flexible functional connectivity with the domain-specific regions, depending on the current working memory tasks. Together, our results provide clear evidence for a distinct neural system for maintaining actions in VSTM, which supports the core knowledge system theory and the domain-specific and domain-general architectures of VSTM.

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Atypical development of social and nonsocial working memory capacity among preschoolers with autism spectrum disorders

et al. 2022

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Individuals with autism spectrum disorders (ASD) have shown impaired performance in canonical and nonsocial working memory (WM). However, no study has investigated social WM and its early development. Using biological motion stimuli, our study assessed the development of social and nonsocial WM capacity among children with or without ASD across the age span between 4 and 6 (N = 150). While typically developing (TD) children show a rapid development from age 5 to 6, children with ASD showed a delayed development for both social and nonsocial WM capacity, reaching a significant group difference at age 6. Furthermore, we found a negative correlation between social (but not nonsocial) WM capacity and the severity of autistic symptoms among children with ASD. In contrast, there is a positive correlation between both types of WM capacity and intelligence among TD children but not among children with ASD. Our findings thus indicate that individuals with ASD miss the rapid development of WM capacity in early childhood and, particularly, their delayed social WM development might contribute to core symptoms that critically depend on social information processing.

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Holding Biological Motion in Working Memory: An fMRI Study

Cited by 38 publications

References 79 publications

Development of Social Working Memory in Preschoolers and Its Relation to Theory of Mind

Development of Social Working Memory in Preschoolers and Its Relation to Theory of Mind

Distinct neural substrates for visual short‐term memory of actions

Atypical development of social and nonsocial working memory capacity among preschoolers with autism spectrum disorders

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