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Updated: Nov 2, 2025

Topographical Estimation of Visual Population Receptive Fields by fMRI
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Topographic numerosity maps cover subitizing and estimation ranges.

Yuxuan Cai1,2, Shir Hofstetter3, Jelle van Dijk3

  • 1Spinoza Centre for Neuroimaging, Amsterdam, Netherlands. y.cai@spinozacentre.nl.

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|June 8, 2021
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Summary
This summary is machine-generated.

Neural populations represent small and large numerosities within the same topographic maps, suggesting a single mechanism for number processing. This continuum of numerosity preferences spans the subitizing range and beyond.

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Area of Science:

  • Cognitive Neuroscience
  • Neuroimaging
  • Computational Neuroscience

Background:

  • Numerosity, the perception of item quantity, guides behavior and decision-making.
  • The approximate number system (ANS) represents non-symbolic numerosities.
  • Distinct behavioral performance suggests different neural implementations for small (subitizing range) versus large numerosities.

Purpose of the Study:

  • To investigate how neural populations respond to large numerosities within the approximate number system.
  • To determine if neural representations of large numerosities are organized similarly to those of small numerosities.

Main Methods:

  • Utilized 7 Tesla functional magnetic resonance imaging (7T fMRI) for high-resolution brain activity measurement.
  • Employed biologically-inspired analyses to examine neural population responses to numerosities.
  • Mapped hemodynamic responses to a range of numerosities, including those beyond the subitizing range.

Main Results:

  • Identified a network of neural populations tuned to both small and large numerosities.
  • Demonstrated that these numerosity-tuned populations are organized within the same topographical maps.
  • Revealed a continuum of numerosity preferences across these maps, covering the subitizing range and larger quantities.

Conclusions:

  • Neural representations of numerosity exhibit a continuum, suggesting a unified neural mechanism for number processing.
  • The same topographical maps accommodate preferences for both small and large numerosities.
  • Hypothesized that variations in map properties (e.g., cortical magnification, tuning width) explain behavioral differences in numerosity perception.