Roberta Barrocas scite author profile

The well-documented association between fingers and numbers is not only based on the observation that most children use their fingers for counting and initial calculation, but also on extensive behavioral and neuro-functional evidence. In this article, we critically review developmental studies evaluating the association between finger sensorimotor skills (i.e., finger gnosis and fine motor skills) and numerical abilities. In sum, reviewed studies were found to provide evidential value and indicated that both finger gnosis and fine motor skills predict measures of counting, number system knowledge, number magnitude processing, and calculation ability. Therefore, specific and unique contributions of both finger gnosis and fine motor skills to the development of numerical skills seem to be substantiated. Through critical consideration of the reviewed evidence, we suggest that the association of finger gnosis and fine motor skills with numerical abilities may emerge from a combination of functional and redeployment mechanisms, in which the early use of finger-based numerical strategies during childhood might be the developmental process by which number representations become intertwined with the finger sensorimotor system, which carries an innate predisposition for said association to unfold. Further research is nonetheless necessary to clarify the causal mechanisms underlying this association.

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Embodied numerical representations and their association with multi-digit arithmetic performance

Barrocas

Roesch

Dresen

et al. 2019

Cogn Process

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Finger-Based Numerical Training Increases Sensorimotor Activation for Arithmetic in Children—An fNIRS Study

et al. 2022

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Most children use their fingers when learning to count and calculate. These sensorimotor experiences were argued to underlie reported behavioral associations of finger gnosis and counting with mathematical skills. On the neural level, associations were assumed to originate from overlapping neural representations of fingers and numbers. This study explored whether finger-based training in children would lead to specific neural activation in the sensorimotor cortex, associated with finger movements, as well as the parietal cortex, associated with number processing, during mental arithmetic. Following finger-based training during the first year of school, trained children showed finger-related arithmetic effects accompanied by activation in the sensorimotor cortex potentially associated with implicit finger movements. This indicates embodied finger-based numerical representations after training. Results for differences in neural activation between trained children and a control group in the IPS were less conclusive. This study provides the first evidence for training-induced sensorimotor plasticity in brain development potentially driven by the explicit use of fingers for initial arithmetic, supporting an embodied perspective on the representation of numbers.

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Digits Grasp Digits: Numbers on Your Fingertips

Barrocas¹,

Ninaus²,

Tsarava³

et al. 2019

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A Novel Method for Investigating Finger-based Representations using Virtual Reality

Souza

Barrocas

Moeller

et al. 2021

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Finger use plays an important role in the development of cognitive (e.g., numerical) concepts. Such embodied relationship between fingers and numbers persists even into adulthood when fingers are typically no longer used for counting. Better understanding how this embodied relationship builds up and plays out is a relevant and ongoing endeavor. To help researchers on this subject, we propose a novel method to investigate finger-based representations using virtual reality. The system is based on virtual hands that match the participant’s real hands through tracking and allows for manipulating the virtual model to produce incoherencies between the actual physical finger pattern and the virtual one. We briefly introduce the system components and discuss the first results of the usability of the system.

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