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Promises and pitfalls of relating alteration of white matter pathways causing improvement in cognitive performance

Promises and pitfalls of relating alteration of white matter pathways causing improvement in... Here, we argue systematically about the promises and pitfalls of relating Human Connectome to cognitive enhancement. We also highlight three key areas where further resolution is required before the generalization of the white-matter-related cause of cognitive enhancement across a variety of cognitive modalities is made. These key areas are: (a) inherent limitations in estimating of diffusion-weighted anisotropy index near volumes with high abundance of crossing fibers; (b) species differences in cell types and only a putative link between brain rhythms and modulation of activity in precursor cells in rodents; (c) sparse evidence of finding white matter structural connectivity change between two remote brain networks causing cognitive enhancement. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Cognitive Neuroscience Taylor & Francis

Promises and pitfalls of relating alteration of white matter pathways causing improvement in cognitive performance

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Promises and pitfalls of relating alteration of white matter pathways causing improvement in cognitive performance

Abstract

Here, we argue systematically about the promises and pitfalls of relating Human Connectome to cognitive enhancement. We also highlight three key areas where further resolution is required before the generalization of the white-matter-related cause of cognitive enhancement across a variety of cognitive modalities is made. These key areas are: (a) inherent limitations in estimating of diffusion-weighted anisotropy index near volumes with high abundance of crossing fibers; (b) species...
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Publisher
Taylor & Francis
Copyright
© 2016 Informa UK Limited, trading as Taylor & Francis Group
ISSN
1758-8936
eISSN
1758-8928
DOI
10.1080/17588928.2016.1205577
Publisher site
See Article on Publisher Site

Abstract

Here, we argue systematically about the promises and pitfalls of relating Human Connectome to cognitive enhancement. We also highlight three key areas where further resolution is required before the generalization of the white-matter-related cause of cognitive enhancement across a variety of cognitive modalities is made. These key areas are: (a) inherent limitations in estimating of diffusion-weighted anisotropy index near volumes with high abundance of crossing fibers; (b) species differences in cell types and only a putative link between brain rhythms and modulation of activity in precursor cells in rodents; (c) sparse evidence of finding white matter structural connectivity change between two remote brain networks causing cognitive enhancement.

Journal

Cognitive NeuroscienceTaylor & Francis

Published: Apr 3, 2017

Keywords: Cognitive enhancement; precursor cells; diffusion weighted; Human Connectome; brain rhythms; white matter

References

  • What does anisotropy measure? Insights from increased and decreased anisotropy in selective fiber tracts in schizophrenia
  • Mechanisms of white matter change induced by meditation training
  • Using the virtual brain to reveal the role of oscillations and plasticity in shaping brain’s dynamical landscape
  • An automated pipeline for constructing personalized virtual brains from multimodal neuroimaging data
  • The role of alpha-rhythm states in perceptual learning: Insights from experiments and computational models