Abstract
The ability to perceive the numerosity of items in the environment is critical for behavior of species across the evolutionary tree. Though the focus of studies of numerosity perception lays on the parietal and frontal cortices, the ability to perceive numerosity by a range of species suggests that subcortical nuclei may be implicated in the process. Recently, we have uncovered tuned neural responses to haptic numerosity in the human cortex. Here, we questioned whether subcortical nuclei are also engaged in perception of haptic numerosity. To that end, we utilized a task of haptic numerosity exploration, together with population receptive field model of numerosity selective responses measured at ultra-high field MRI (7T). We found tuned neural responses to haptic numerosity in the bilateral putamen. Similar to the cortex, the population receptive fields tuning width increased with numerosity. The tuned responses to numerosity in the putamen extend its role in cognition and propose that the motor-sensory loops of the putamen and basal ganglia might take an active part in numerosity perception and preparation for future action.
Highlights
The ability to perceive the numerosity of items or features in the environment is of great importance for behavior of numerous species across the evolutionary tree (Nieder, 2020)
We found that the population receptive field (pRF) model explained a large amount of the signal variance in the putamen
We tested whether monotonic models may explain these neural responses better than the numerosity pRF models
Summary
The ability to perceive the numerosity of items or features in the environment is of great importance for behavior of numerous species across the evolutionary tree (Nieder, 2020). Though most neuroscientific studies of numerosity focus on the parietal and frontal cortices, the ability to perceive numerosity by a range of species suggests that some subcortical nuclei may be included in the process (Nieder, 2020). Such an involvement is indicated by a recent psychophysical study that measured performance differences in monocular vs dichoptic processing (Collins et al, 2017). Collins and colleagues provided evidence for a ratio-dependent number processing system in the monocular portion of the visual system. These results, do not provide conclusive evidence and are limited in pointing at which subcortical areas take part in this processing system, especially given the notion that some extra-striate visual areas process monocular information (Rokers et al, 2009)
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