Correspondent Functional Topography of the Human Left Inferior Parietal Lobule at Rest and Under Task Revealed Using Resting‐State f<scp>MRI</scp> and Coactivation Based Parcellation

Wang, Jiaojian; Xie, Shaolei; Guo, Xin; Becker, Benjamin; Fox, Peter T.; Eickhoff, Simon B.; Jiang, Tianzi

doi:10.1002/hbm.23488

Cited by 89 publications

(68 citation statements)

References 115 publications

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“…With respect to connectivity, studies showed that single‐subject connectivity patterns from diffusion weighted imaging [Osher et al, ; Saygin et al, ] and resting‐state fMRI [Tavor et al, ] predict if an area is activated during task‐based fMRI on a voxel‐by‐voxel level; this finding that was replicated across several cognitive (task) domains. Connectivity‐based parcellations have been found recently not only within the TPJ [Bzdok et al, ; Mars et al, ], but also within several other areas of the social brain, such as the medial prefrontal cortex [Bzdok et al, ; Eickhoff et al, ; Neubert et al, ; Sallet et al, ], posterior medial cortex/precuneus [Bzdok et al, ; Margulies et al, ], and the inferior parietal lobule [Bzdok et al, ; Wang, et al, ].…”

Section: Discussionmentioning

confidence: 99%

Specifying the brain anatomy underlying temporo-parietal junction activations for theory of mind: A review using probabilistic atlases from different imaging modalities

et al. 2017

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In this quantitative review, we specified the anatomical basis of brain activity reported in the Temporo-Parietal Junction (TPJ) in Theory of Mind (ToM) research. Using probabilistic brain atlases, we labeled TPJ peak coordinates reported in the literature. This was carried out for four different atlas modalities: (i) gyral-parcellation, (ii) sulco-gyral parcellation, (iii) cytoarchitectonic parcellation and (iv) connectivity-based parcellation. In addition, our review distinguished between two ToM task types (false belief and social animations) and a nonsocial task (attention reorienting). We estimated the mean probabilities of activation for each atlas label, and found that for all three task types part of TPJ activations fell into the same areas: (i) Angular Gyrus (AG) and Lateral Occpital Cortex (LOC) in terms of a gyral atlas, (ii) AG and Superior Temporal Sulcus (STS) in terms of a sulco-gyral atlas, (iii) areas PGa and PGp in terms of cytoarchitecture and (iv) area TPJp in terms of a connectivity-based parcellation atlas. Beside these commonalities, we also found that individual task types showed preferential activation for particular labels. Main findings for the right hemisphere were preferential activation for false belief tasks in AG/PGa, and in Supramarginal Gyrus (SMG)/PFm for attention reorienting. Social animations showed strongest selective activation in the left hemisphere, specifically in left Middle Temporal Gyrus (MTG). We discuss how our results (i.e., identified atlas structures) can provide a new reference for describing future findings, with the aim to integrate different labels and terminologies used for studying brain activity around the TPJ. Hum Brain Mapp 38:4788-4805, 2017. © 2017 Wiley Periodicals, Inc.

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Section: Discussionmentioning

confidence: 99%

Specifying the brain anatomy underlying temporo-parietal junction activations for theory of mind: A review using probabilistic atlases from different imaging modalities

et al. 2017

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“…The left IPL has been identified as an important node in an integrative multi-network system and plays a major role in emotion-cognition integration (58-60). A recent meta-analysis identified functional roles in executive control, reasoning, working memory, and behavioral response inhibition for a left IPL region overlapping with the a priori ROI in our study (58).…”

Section: Discussionmentioning

confidence: 99%

“…Similarly, Crichtley et al (64) found significantly greater engagement of the left IPL when participants simultaneously monitored their own heartbeat (interoception) and judged the asynchronous timing of an audio tone (a cognitive task). In healthy subjects, this left IPL region shares strong functional connections to AI, VLPFC, and dmPFC regions of the SN, and plays an important role in regulating the endogenous stimuli-driven ventral attention network (58, 62). Our data highlight the connectivity of the left IPL with the AI, a primary node for interoceptive information processing.…”

Section: Discussionmentioning

confidence: 99%

Functional Connectivity Between Anterior Insula and Key Nodes of Frontoparietal Executive Control and Salience Networks Distinguish Bipolar Depression From Unipolar Depression and Healthy Control Subjects

Ellard

Zimmerman

Kaur

et al. 2018

Biological Psychiatry: Cognitive Neuroscience and Neuroimaging

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Impaired functional connectivity between the anterior insula and the inferior parietal lobule of the ECN distinguishes patients with bipolar depression from those with unipolar depression and healthy control subjects. This finding highlights a pathophysiological mechanism with potential as a therapeutic target and a clinical biomarker for bipolar disorder, exhibiting reasonable sensitivity and specificity.

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“…To determine the final cluster numbers, we used the percentage of voxels not grouped with the parent as an index. This measure is related to the hierarchy index [Kahnt, Chang, Park, Heinzle, & Haynes, ; Wang, Xie, et al, ] and corresponds to the percentage of voxels that are not present in the hierarchy, k , compared to the previous k – 1 solution. Optimal solutions for a given k cluster parcellation were those wherein the percentage of lost voxels was below the median across all possible solutions ( k = 2, 3, …, 9 in our present study), where the respective clustering step resulted in a local minimum and/or the following clustering‐step featured a maximum in the percentage of lost (hierarchically inconsistent) voxels.…”

Section: Methodsmentioning

confidence: 99%

Specific Functional Connectivity Patterns of Middle Temporal Gyrus Subregions in Children and Adults with Autism Spectrum Disorder

Wang

et al. 2019

Autism Research

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As one of the key regions in the “social brain” network, the middle temporal gyrus (MTG) has been widely reported to be associated with autism spectrum disorder (ASD), but there have been contradictory results in terms of whether it shows hyperconnectivity or hypoconnectivity. Delineating roles of MTG at the subregional level may eliminate the observed inconsistencies and provide a new avenue to reveal the neurophysiologic mechanism of ASD. Thus, we first performed connectivity‐based parcellation using the BrainMap database to identify fine‐grained functional topography of the MTG. Then, the MTG subregions were used to investigate differences in the functional connectivity in children and adults with ASD using two data sets from Autism Brain Imaging Data Exchange database. Four distinct subregions in the human left and right MTG were identified, including the anterior MTG (aMTG), middle‐anterior MTG (maMTG), middle‐posterior MTG, and posterior MTG (pMTG). The bilateral pMTG was more vulnerable in both children and adults with ASD than in the typically developing (TD) group, mainly showing hypoconnectivity with different brain regions. In addition, the bilateral aMTG and right maMTG also showed altered functional connectivity in adults with ASD compared to the TD group. Moreover, all these altered MTG subregions were mainly associated with social cognition and language, as revealed by functional characterization. Further correlation analyses also showed trends of association between altered connectivity of the left aMTG and the Autism Diagnostic Observation Schedule scores in adults with ASD. Together, these results suggest a potential objective way to explore sub‐regional differences associated with such disorders. Autism Res 2020, 13: 410–422. © 2019 International Society for Autism Research, Wiley Periodicals, Inc. Lay Summary Four distinct subregions in the human left and right middle temporal gyrus (MTG) were identified, including the anterior MTG (aMTG), middle‐anterior MTG (maMTG), middle‐posterior MTG, and posterior MTG (pMTG). The bilateral pMTG was more vulnerable in both children and adults with autism spectrum disorder (ASD) than in the typically developing (TD) group, mainly showing hypoconnectivity with different brain regions. In addition, the bilateral aMTG and right maMTG also showed altered functional connectivity in adults with ASD compared to the TD group. Moreover, all these altered MTG subregions were mainly associated with social cognition and language, as revealed by functional characterization. Further correlation analyses also showed trends of association between altered connectivity of the left aMTG and the Autism Diagnostic Observation Schedule scores in adults with ASD.

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Correspondent Functional Topography of the Human Left Inferior Parietal Lobule at Rest and Under Task Revealed Using Resting‐State fMRI and Coactivation Based Parcellation

Cited by 89 publications

References 115 publications

Specifying the brain anatomy underlying temporo-parietal junction activations for theory of mind: A review using probabilistic atlases from different imaging modalities

Specifying the brain anatomy underlying temporo-parietal junction activations for theory of mind: A review using probabilistic atlases from different imaging modalities

Functional Connectivity Between Anterior Insula and Key Nodes of Frontoparietal Executive Control and Salience Networks Distinguish Bipolar Depression From Unipolar Depression and Healthy Control Subjects

Specific Functional Connectivity Patterns of Middle Temporal Gyrus Subregions in Children and Adults with Autism Spectrum Disorder

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