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Connectotyping: Model Based Fingerprinting of the Functional Connectome

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Listed:
  • Oscar Miranda-Dominguez
  • Brian D Mills
  • Samuel D Carpenter
  • Kathleen A Grant
  • Christopher D Kroenke
  • Joel T Nigg
  • Damien A Fair

Abstract

A better characterization of how an individual’s brain is functionally organized will likely bring dramatic advances to many fields of study. Here we show a model-based approach toward characterizing resting state functional connectivity MRI (rs-fcMRI) that is capable of identifying a so-called “connectotype”, or functional fingerprint in individual participants. The approach rests on a simple linear model that proposes the activity of a given brain region can be described by the weighted sum of its functional neighboring regions. The resulting coefficients correspond to a personalized model-based connectivity matrix that is capable of predicting the timeseries of each subject. Importantly, the model itself is subject specific and has the ability to predict an individual at a later date using a limited number of non-sequential frames. While we show that there is a significant amount of shared variance between models across subjects, the model’s ability to discriminate an individual is driven by unique connections in higher order control regions in frontal and parietal cortices. Furthermore, we show that the connectotype is present in non-human primates as well, highlighting the translational potential of the approach.

Suggested Citation

  • Oscar Miranda-Dominguez & Brian D Mills & Samuel D Carpenter & Kathleen A Grant & Christopher D Kroenke & Joel T Nigg & Damien A Fair, 2014. "Connectotyping: Model Based Fingerprinting of the Functional Connectome," PLOS ONE, Public Library of Science, vol. 9(11), pages 1-16, November.
    • Handle: RePEc:plo:pone00:0111048
    DOI: 10.1371/journal.pone.0111048
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    References listed on IDEAS

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    1. Karl Friston, 2009. "Causal Modelling and Brain Connectivity in Functional Magnetic Resonance Imaging," PLOS Biology, Public Library of Science, vol. 7(2), pages 1-6, February.
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    2. Andrea I. Luppi & Daniel Golkowski & Andreas Ranft & Rudiger Ilg & Denis Jordan & Danilo Bzdok & Adrian M. Owen & Lorina Naci & Emmanuel A. Stamatakis & Enrico Amico & Bratislav Misic, 2025. "General anaesthesia decreases the uniqueness of brain functional connectivity across individuals and species," Nature Human Behaviour, Nature, vol. 9(5), pages 987-1004, May.

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