Functional lateralization of arithmetic processing in the intraparietal sulcus is associated with handedness

Neuropsychological and functional imaging studies have suggested a general right hemisphere advantage for processing global visual information and a left hemisphere advantage for processing local information. In contrast, a recent transcranial magnetic stimulation study [Mevorach, C., Humphreys, G. W., & Shalev, L. Opposite biases in salience-based selection for the left and right posterior parietal cortex. Nature Neuroscience, 9, 740–742, 2006b] demonstrated that functional lateralization of selection in the parietal cortices on the basis of the relative salience of stimuli might provide an alternative explanation for previous results. In the present study, we applied a whole-brain analysis of the functional magnetic resonance signal when participants responded to either the local or the global levels of hierarchical figures. The task (respond to local or global) was crossed with the saliency of the target level (local salient, global salient) to provide, for the first time, a direct contrast between brain activation related to the stimulus level and that related to relative saliency. We found evidence for lateralization of salience-based selection but not for selection based on the level of processing. Activation along the left intraparietal sulcus (IPS) was found when a low saliency stimulus had to be selected irrespective of its level. A control task showed that this was not simply an effect of task difficulty. The data suggest a specific role for regions along the left IPS in salience-based selection, supporting the argument that previous reports of lateralized responses to local and global stimuli were contaminated by effects of saliency.

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Brain network reconfiguration for narrative and argumentative thought

Communications Biology ◽

10.1038/s42003-021-02151-9 ◽

2021 ◽

Vol 4 (1) ◽

Author(s):

Yangwen Xu ◽

Lorenzo Vignali ◽

Olivier Collignon ◽

Davide Crepaldi ◽

Roberto Bottini

Keyword(s):

Control System ◽

Cognitive Functioning ◽

Neural System ◽

Brain Network ◽

Network Reconfiguration ◽

Intraparietal Sulcus ◽

Neural Responses ◽

Language System ◽

Mental Operations ◽

Argumentative Texts

AbstractOur brain constructs reality through narrative and argumentative thought. Some hypotheses argue that these two modes of cognitive functioning are irreducible, reflecting distinct mental operations underlain by separate neural bases; Others ascribe both to a unitary neural system dedicated to long-timescale information. We addressed this question by employing inter-subject measures to investigate the stimulus-induced neural responses when participants were listening to narrative and argumentative texts during fMRI. We found that following both kinds of texts enhanced functional couplings within the frontoparietal control system. However, while a narrative specifically implicated the default mode system, an argument specifically induced synchronization between the intraparietal sulcus in the frontoparietal control system and multiple perisylvian areas in the language system. Our findings reconcile the two hypotheses by revealing commonalities and differences between the narrative and the argumentative brain networks, showing how diverse mental activities arise from the segregation and integration of the existing brain systems.

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Causal Evidence for the Role of Neuronal Oscillations in Top–Down and Bottom–Up Attention

Journal of Cognitive Neuroscience ◽

10.1162/jocn_a_01376 ◽

2019 ◽

Vol 31 (5) ◽

pp. 768-779 ◽

Cited By ~ 9

Author(s):

Justin Riddle ◽

Kai Hwang ◽

Dillan Cellier ◽

Sofia Dhanani ◽

Mark D'Esposito

Keyword(s):

Visual Field ◽

Conjunction Search ◽

Intraparietal Sulcus ◽

Top Down ◽

Neuronal Oscillations ◽

Bottom Up ◽

Search Condition ◽

Gamma Frequency ◽

Task Conditions ◽

Beta Frequency

Beta and gamma frequency neuronal oscillations have been implicated in top–down and bottom–up attention. In this study, we used rhythmic TMS to modulate ongoing beta and gamma frequency neuronal oscillations in frontal and parietal cortex while human participants performed a visual search task that manipulates bottom–up and top–down attention (single feature and conjunction search). Both task conditions will engage bottom–up attention processes, although the conjunction search condition will require more top–down attention. Gamma frequency TMS to superior precentral sulcus (sPCS) slowed saccadic RTs during both task conditions and induced a response bias to the contralateral visual field. In contrary, beta frequency TMS to sPCS and intraparietal sulcus decreased search accuracy only during the conjunction search condition that engaged more top–down attention. Furthermore, beta frequency TMS increased trial errors specifically when the target was in the ipsilateral visual field for the conjunction search condition. These results indicate that beta frequency TMS to sPCS and intraparietal sulcus disrupted top–down attention, whereas gamma frequency TMS to sPCS disrupted bottom–up, stimulus-driven attention processes. These findings provide causal evidence suggesting that beta and gamma oscillations have distinct functional roles for cognition.

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White Matter Pathway Asymmetry Underlies Functional Lateralization

Cerebral Cortex ◽

10.1093/cercor/bhk004 ◽

2006 ◽

Vol 17 (3) ◽

pp. 591-598 ◽

Cited By ~ 88

Author(s):

T. R. Barrick ◽

I. N. Lawes ◽

C. E. Mackay ◽

C. A. Clark

Keyword(s):

White Matter ◽

Functional Lateralization

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1612 Processing of 3D visual features by neurons in monkey caudal intraparietal sulcus

Neuroscience Research ◽

10.1016/s0168-0102(97)90568-x ◽

1997 ◽

Vol 28 ◽

pp. S208

Author(s):

Ken-ichiro Tsutsui ◽

Masato Taira ◽

Jiang Min ◽

Hideo Sakata

Keyword(s):

Visual Features ◽

Intraparietal Sulcus

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Selective Loss of Thin Spines in Area 7a of the Primate Intraparietal Sulcus Predicts Age-Related Working Memory Impairment

Journal of Neuroscience ◽

10.1523/jneurosci.1234-18.2018 ◽

2018 ◽

Vol 38 (49) ◽

pp. 10467-10478 ◽

Cited By ~ 10

Author(s):

Sarah E. Motley ◽

Yael S. Grossman ◽

William G.M. Janssen ◽

Mark G. Baxter ◽

Peter R. Rapp ◽

...

Keyword(s):

Working Memory ◽

Memory Impairment ◽

Intraparietal Sulcus ◽

Selective Loss ◽

Age Related ◽

Area 7A

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Different Levels of Activity in the Left Intraparietal Sulcus Triggered by Lasting and Unlasting Cues in the Posner Task

Neuroscience and Biomedical Engineering ◽

10.2174/2213385211301010008 ◽

2013 ◽

Vol 1 (1) ◽

pp. 48-53

Author(s):

Jinglong Wu ◽

Yujie Li ◽

Chunlin Li ◽

Yuya Kawata ◽

Tomoko Kurata ◽

...

Keyword(s):

Intraparietal Sulcus ◽

Different Levels

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The development of functional lateralization in visual hemifield attention

Developmental Neuropsychology ◽

10.1080/87565648509540299 ◽

1985 ◽

Vol 1 (1) ◽

pp. 67-80 ◽

Cited By ~ 4

Author(s):

Michael S. Shapiro ◽

George W. Hynd

Keyword(s):

Visual Hemifield ◽

Functional Lateralization

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Motion on Numbers: Transcranial Magnetic Stimulation on the Ventral Intraparietal Sulcus Alters Both Numerical and Motion Processes

Journal of Cognitive Neuroscience ◽

10.1162/jocn.2008.21157 ◽

2009 ◽

Vol 21 (11) ◽

pp. 2129-2138 ◽

Cited By ~ 10

Author(s):

Elena Salillas ◽

Demis Basso ◽

Maurizia Baldi ◽

Carlo Semenza ◽

Tomaso Vecchi

Keyword(s):

Transcranial Magnetic Stimulation ◽

Motion Detection ◽

Magnetic Stimulation ◽

Reaction Times ◽

Single Pulse ◽

Coherent Motion ◽

Intraparietal Sulcus ◽

Close Link ◽

Number Comparison ◽

Neural Substrate

It has often been proposed that there is a close link between representation of number and space. In the present work, single-pulse transcranial magnetic stimulation (TMS) was applied to the ventral intraparietal sulcus (VIPS) to determine effects on performance in motion detection and number comparison tasks. Participants' reaction times and thresholds for perception of laterally presented coherent motion in random dot kinematograms increased significantly when the contralateral VIPS was stimulated in contrast to the interhemispheric sulcus (Experiment 1) and to the ipsilateral VIPS (Experiment 2). In number comparison tasks, participants compared the magnitude of the laterally presented numbers 1–9 with the number 5. Again, reaction times significantly increased when TMS was applied to the contralateral VIPS in contrast to control sites. The finding that VIPS-directed TMS results in impaired efficiency in both motion perception and number comparison suggests that these processes share a common neural substrate.

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Disentangling Mathematics from Executive Functions by Investigating Unique Functional Connectivity Patterns Predictive of Mathematics Ability

Journal of Cognitive Neuroscience ◽

10.1162/jocn_a_01367 ◽

2019 ◽

Vol 31 (4) ◽

pp. 560-573 ◽

Cited By ~ 1

Author(s):

Kenny Skagerlund ◽

Taylor Bolt ◽

Jason S. Nomi ◽

Mikael Skagenholt ◽

Daniel Västfjäll ◽

...

Keyword(s):

Functional Connectivity ◽

Resting State ◽

Inferior Frontal Gyrus ◽

Premotor Cortex ◽

Mathematical Ability ◽

Angular Gyrus ◽

Intraparietal Sulcus ◽

Supramarginal Gyrus ◽

Connectivity Patterns ◽

The Right

What are the underlying neurocognitive mechanisms that give rise to mathematical competence? This study investigated the relationship between tests of mathematical ability completed outside the scanner and resting-state functional connectivity (FC) of cytoarchitectonically defined subdivisions of the parietal cortex in adults. These parietal areas are also involved in executive functions (EFs). Therefore, it remains unclear whether there are unique networks for mathematical processing. We investigate the neural networks for mathematical cognition and three measures of EF using resting-state fMRI data collected from 51 healthy adults. Using 10 ROIs in seed to whole-brain voxel-wise analyses, the results showed that arithmetical ability was correlated with FC between the right anterior intraparietal sulcus (hIP1) and the left supramarginal gyrus and between the right posterior intraparietal sulcus (hIP3) and the left middle frontal gyrus and the right premotor cortex. The connection between the posterior portion of the left angular gyrus and the left inferior frontal gyrus was also correlated with mathematical ability. Covariates of EF eliminated connectivity patterns with nodes in inferior frontal gyrus, angular gyrus, and middle frontal gyrus, suggesting neural overlap. Controlling for EF, we found unique connections correlated with mathematical ability between the right hIP1 and the left supramarginal gyrus and between hIP3 bilaterally to premotor cortex bilaterally. This is partly in line with the “mapping hypothesis” of numerical cognition in which the right intraparietal sulcus subserves nonsymbolic number processing and connects to the left parietal cortex, responsible for calculation procedures. We show that FC within this circuitry is a significant predictor of math ability in adulthood.

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