A Computational Neural Model for Mapping Degenerate Neural Architectures

Overview

Journal Neuroinformatics

Specialties Medical Informatics
Neurology

Date 2022 Mar 29

PMID 35349109

Authors

Zulqarnain Khan

YiYu Wang

Eli Sennesh

Jennifer Dy

Sarah Ostadabbas

Jan-Willem van de Meent

J Benjamin Hutchinson

Ajay B Satpute

Affiliations

Soon will be listed here.

Abstract

Degeneracy in biological systems refers to a many-to-one mapping between physical structures and their functional (including psychological) outcomes. Despite the ubiquity of the phenomenon, traditional analytical tools for modeling degeneracy in neuroscience are extremely limited. In this study, we generated synthetic datasets to describe three situations of degeneracy in fMRI data to demonstrate the limitations of the current univariate approach. We describe a novel computational approach for the analysis referred to as neural topographic factor analysis (NTFA). NTFA is designed to capture variations in neural activity across task conditions and participants. The advantage of this discovery-oriented approach is to reveal whether and how experimental trials and participants cluster into task conditions and participant groups. We applied NTFA on simulated data, revealing the appropriate degeneracy assumption in all three situations and demonstrating NTFA's utility in uncovering degeneracy. Lastly, we discussed the importance of testing degeneracy in fMRI data and the implications of applying NTFA to do so.

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