AI Article Synopsis
- Neuroimaging studies show a strong connection between the angular gyrus (AG) and mental calculation, particularly in retrieving arithmetic facts, with more active AG in individuals better at math.
- The fMRI study involved participants of varying math skills undergoing training in complex multiplication and spatial problems, revealing similar brain activation patterns during tests.
- The findings suggest that while AG activation is linked to arithmetic skills, its role in learning facts is not specific, and training can reduce the impact of inherent mathematical competence on AG activation.
Article Abstract
Neuroimaging studies have revealed a strong link between mental calculation and the angular gyrus (AG) which has been interpreted to reflect arithmetic fact retrieval. Moreover, a stronger AG activation in individuals with higher mathematical competence has been reported. The present fMRI study investigates the specificity of the AG for arithmetic fact learning and the interplay between training and mathematical competence on brain activation. Adults of lower and higher mathematical competence underwent a five-day training on sets of complex multiplication and figural-spatial problems. In the following fMRI test session, trained and untrained problems were presented. Similar training effects were observed in both problem types, consisting of AG activation increases bilaterally and wide-spread activation decreases in frontal and parietal regions. This finding indicates that the AG is not specifically involved in the learning of arithmetic facts. Competence-related differences in the AG only emerged in untrained but not in trained multiplication problems. The relation between AG activation and mathematical competence in arithmetic problem solving therefore seems to be due to differences in arithmetic fact retrieval which can be attenuated through training.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6870590 | PMC |
| http://dx.doi.org/10.1002/hbm.20720 | DOI Listing |
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