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Review
. 2025 Feb;61(3):e16676.
doi: 10.1111/ejn.16676.

A Taxonomy of Neuroscientific Strategies Based on Interaction Orders

Matteo Neri  1 Andrea Brovelli  1 Samy Castro  2   3 Fausto Fraisopi  4 Marilyn Gatica  5 Ruben Herzog  6 Pedro A M Mediano  7   8 Ivan Mindlin  6   9 Giovanni Petri  5   10   11 Daniel Bor  12   13 Fernando E Rosas  14   15   16   17 Antonella Tramacere  18 Mar Estarellas  12   13
Affiliations
Free article
Review

A Taxonomy of Neuroscientific Strategies Based on Interaction Orders

Matteo Neri et al. Eur J Neurosci. 2025 Feb.
Free article

Abstract

In recent decades, neuroscience has advanced with increasingly sophisticated strategies for recording and analysing brain activity, enabling detailed investigations into the roles of functional units, such as individual neurons, brain regions and their interactions. Recently, new strategies for the investigation of cognitive functions regard the study of higher order interactions-that is, the interactions involving more than two brain regions or neurons. Although methods focusing on individual units and their interactions at various levels offer valuable and often complementary insights, each approach comes with its own set of limitations. In this context, a conceptual map to categorize and locate diverse strategies could be crucial to orient researchers and guide future research directions. To this end, we define the spectrum of orders of interaction, namely, a framework that categorizes the interactions among neurons or brain regions based on the number of elements involved in these interactions. We use a simulation of a toy model and a few case studies to demonstrate the utility and the challenges of the exploration of the spectrum. We conclude by proposing future research directions aimed at enhancing our understanding of brain function and cognition through a more nuanced methodological framework.

Keywords: brain mapping; cognition; functional connectivity; network function; system neuroscience.

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