# The association between longitudinal changes in inter-hemispheric IPS functional connectivity and math gains depends on children’s age and task requirements

**Authors:** Macarena Suárez-Pellicioni, Gavin Price, James R. Booth

PMC · DOI: 10.1016/j.dcn.2025.101666 · 2025-12-30

## TL;DR

The study finds that changes in brain connectivity between hemispheres relate to math gains in children, with patterns differing by age and task type.

## Contribution

The study reveals an age-dependent shift in how inter-hemispheric IPS connectivity relates to subtraction gains, suggesting developmental changes in math processing.

## Key findings

- Younger children showed math gains linked to increased right-left parietal connectivity.
- Older children showed math gains associated with decreased connectivity.
- Effects were specific to subtraction, not math fluency.

## Abstract

The role of the approximate number system (ANS) in scaffolding symbolic mathematics remains unresolved. A prior neuroimaging study from our group (Suárez-Pellicioni & Booth, 2018) found no significant longitudinal effects of ANS acuity—indexed by intraparietal sulcus (IPS) activation—on gains in math fluency. However, the absence of age-specific analyses and exclusive focus on fluency, which emphasizes retrieval, may have contributed to these null findings. To address these limitations, the present study examined whether age moderates the relationship between inter-hemispheric IPS functional connectivity during a non-symbolic comparison task and math skill. Specifically, we tested: (1) baseline associations at Time 1 (T1); (2) whether T1 connectivity predicts gains in math skill over time (scaffolding hypothesis); and (3) whether changes in connectivity relate to longitudinal gains. Forty-eight children completed a dot comparison task in the scanner at T1 and again two years later. Standardized measures of subtraction skill and math fluency were collected at both time points. We measured general psychophysiological interaction (gPPI) between IPS seeds and contralateral IPS regions. For subtraction skill, we found no evidence of a concurrent association at T1 or predictive effects of T1 connectivity moderated by age. However, changes in connectivity over time revealed an age-dependent pattern: younger children showed gains linked to increased right-left parietal connectivity, while older children showed gains with decreased connectivity. This suggests a developmental shift from effortful integration to more efficient processing. Effects were specific to subtraction, not fluency.

## Full-text entities

- **Genes:** HIP1R (huntingtin interacting protein 1 related) [NCBI Gene 9026] {aka HIP12, HIP3, ILWEQ}, UBE2K (ubiquitin conjugating enzyme E2 K) [NCBI Gene 3093] {aka E2-25K, HIP2, HYPG, LIG, UBC1}, HIP1 (huntingtin interacting protein 1) [NCBI Gene 3092] {aka HIP-I, ILWEQ, SHON, SHONbeta, SHONgamma}
- **Diseases:** oral language deficits (MESH:D007806), Reading deficit (MESH:D004410), neurological or psychiatric disorders (MESH:D001523), intellectual deficits (MESH:C537761), attention deficits (MESH:D001289)
- **Chemicals:** water (MESH:D014867), T1 (-)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12813480/full.md

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Source: https://tomesphere.com/paper/PMC12813480