Magnetoencephalography reveals differences in brain activations for fast and slow responses to simple multiplications

Arcara, Giorgio; Pezzetta, Rachele; Benavides-Varela, Silvia; Rizzi, Giorgia; Formica, Silvia; Turco, Cristina; Piccione, Francesco; Semenza, Carlo

doi:10.1038/s41598-021-97927-8

Cited by 7 publications

(6 citation statements)

References 61 publications

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“…Inferior frontal areas, bilaterally, are probably used for final selection. Consistently with these findings Arcara et al (2021) showed how retrieval of easy items (fastest responses) need the left AG in a first stage. The right dorsolateral prefrontal cortex as well right parietal areas, later contribute to identifying the correct solution.…”

Section: Neuroimaging Studies Of Numerical Processing In Adultssupporting

confidence: 77%

The brain lateralization and development of math functions: progress since Sperry, 1974

Salillas,

Benavides-Varela,

Semenza

2023

Front. Hum. Neurosci.

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In 1974, Roger Sperry, based on his seminal studies on the split-brain condition, concluded that math was almost exclusively sustained by the language dominant left hemisphere. The right hemisphere could perform additions up to sums less than 20, the only exception to a complete left hemisphere dominance. Studies on lateralized focal lesions came to a similar conclusion, except for written complex calculation, where spatial abilities are needed to display digits in the right location according to the specific requirements of calculation procedures. Fifty years later, the contribution of new theoretical and instrumental tools lead to a much more complex picture, whereby, while left hemisphere dominance for math in the right-handed is confirmed for most functions, several math related tasks seem to be carried out in the right hemisphere. The developmental trajectory in the lateralization of math functions has also been clarified. This corpus of knowledge is reviewed here. The right hemisphere does not simply offer its support when calculation requires generic space processing, but its role can be very specific. For example, the right parietal lobe seems to store the operation-specific spatial layout required for complex arithmetical procedures and areas like the right insula are necessary in parsing complex numbers containing zero. Evidence is found for a complex orchestration between the two hemispheres even for simple tasks: each hemisphere has its specific role, concurring to the correct result. As for development, data point to right dominance for basic numerical processes. The picture that emerges at school age is a bilateral pattern with a significantly greater involvement of the right-hemisphere, particularly in non-symbolic tasks. The intraparietal sulcus shows a left hemisphere preponderance in response to symbolic stimuli at this age.

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Section: Neuroimaging Studies Of Numerical Processing In Adultssupporting

confidence: 77%

The brain lateralization and development of math functions: progress since Sperry, 1974

Salillas,

Benavides-Varela,

Semenza

2023

Front. Hum. Neurosci.

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“…Both types of agreement violations resulted in increased activation of the left IFG and the left premotor cortex, mirroring the pattern of LAN and N400 observed in EEG studies (Barber & Carreiras, 2003, 2005. Additionally, number violations in determiner phrases resulted in increased activity of the right parietal lobe, a region involved in numerical processing (Arcara et al, 2021;Dehaene et al, 2003;Zorzi et al, 2011). Focusing specifically on determiner phrases, Heim et al (2010) investigated which brain regions process agreement in a modality-independent fashion.…”

Section: Neural Indexes Of Syntactic Violation Processing: Localizationmentioning

confidence: 62%

Syntax through the looking glass: A review on two-word linguistic processing across behavioral, neuroimaging and neurostimulation studies

Maran¹,

Friederici²,

Zaccarella³

2022

Neuroscience & Biobehavioral Reviews

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“…This intermediate time window includes some important ERP components that have been associated with the AG in some studies, in particular the N400 component. The most common stimuli that yield strong effects in this window are written words, pictures of objects, numbers and speech sounds (Ala-Salomäki et al, 2021;Arcara et al, 2021;Bermudez-Margaretto et al, 2020b;Dirani and Pylkkanen, 2020;Gow et al, 2008;Lewis et al, 2015;Salmelin et al, 1994;Sekiguchi et al, 2001). Other stimuli such as body parts, including hands, fingers and faces, have also been shown…”

Section: Ag Involvement Within 200-500msmentioning

confidence: 97%

Multiple functions of the angular gyrus at high temporal resolution

Seghier

2022

Brain Struct Funct

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Here, the functions of the angular gyrus (AG) are evaluated in the light of current evidence from transcranial magnetic/electric stimulation (TMS/TES) and EEG/MEG studies. 65 TMS/TES and 52 EEG/MEG studies were examined in this review. TMS/TES literature points to a causal role in semantic processing, word and number processing, attention and visual search, self-guided movement, memory, and self-processing.EEG/MEG studies reported AG effects at latencies varying between 32 ms and 800 ms in a wide range of domains, with a high probability to detect an effect at 300-350 ms poststimulus onset. A three-phase unifying model revolving around the process of sensemaking is then suggested: (1) early AG involvement in defining the current context, within the first 200 ms, with a bias toward the right hemisphere; (2) attention reorientation and retrieval of relevant information within 200-500 ms; and (3) cross-modal integration at late latencies with a bias toward the left hemisphere. This sensemaking process can favour accuracy (e.g. for word and number processing) or plausibility (e.g. for comprehension and social cognition). Such functions of the AG depend on the status of other connected regions. The much-debated semantic role is also discussed: (1) there is a strong TMS/TES evidence for a causal semantic role, (2) current EEG/MEG evidence is however weak, but (3) the existing arguments against a semantic role for the AG are not strong. Some outstanding questions for future research are proposed. This review recognizes that cracking the role(s) of the AG in cognition is possible only when its exact contributions within the default mode network are teased apart.

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Magnetoencephalography reveals differences in brain activations for fast and slow responses to simple multiplications

Cited by 7 publications

References 61 publications

The brain lateralization and development of math functions: progress since Sperry, 1974

The brain lateralization and development of math functions: progress since Sperry, 1974

Syntax through the looking glass: A review on two-word linguistic processing across behavioral, neuroimaging and neurostimulation studies

Multiple functions of the angular gyrus at high temporal resolution

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