“Primed to Perform:” Dynamic white matter graph communicability may drive metastable network representations of enhanced preparatory cognitive control

Buch, Vivek; Bernabei, John M.; Ng, Grace Y.; Richardson, Andrew G.; Ramayya, Ashwin G.; Brandon, Cameron; Stiso, Jennifer; Bassett, Danielle S.; Lucas, Timothy H.

doi:10.1101/2022.09.25.509351

2022

DOI: 10.1101/2022.09.25.509351

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“Primed to Perform:” Dynamic white matter graph communicability may drive metastable network representations of enhanced preparatory cognitive control

Vivek Buch

John M. Bernabei

Grace Y. Ng

et al.

Abstract: Spontaneous neural activity has become increasingly linked to behavioral and cognitive output. A specific cognitive control mode, proactive control, uses prior information to plan and prepare the brain to be particularly sensitive to incoming goal-directed stimuli. Little is known about specific proactive mechanisms implemented via preparatory patterns of spontaneous neural activity, that may enable dynamically enhanced cognitive performance. In this study, humans implanted with intracranial electrodes perform… Show more

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Translating Molecular Approaches to Oligodendrocyte-Mediated Neurological Circuit Modulation

Song,

Saglam,

Zuchero

et al. 2024

Brain Sciences

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The central nervous system (CNS) exhibits remarkable adaptability throughout life, enabled by intricate interactions between neurons and glial cells, in particular, oligodendrocytes (OLs) and oligodendrocyte precursor cells (OPCs). This adaptability is pivotal for learning and memory, with OLs and OPCs playing a crucial role in neural circuit development, synaptic modulation, and myelination dynamics. Myelination by OLs not only supports axonal conduction but also undergoes adaptive modifications in response to neuronal activity, which is vital for cognitive processing and memory functions. This review discusses how these cellular interactions and myelin dynamics are implicated in various neurocircuit diseases and disorders such as epilepsy, gliomas, and psychiatric conditions, focusing on how maladaptive changes contribute to disease pathology and influence clinical outcomes. It also covers the potential for new diagnostics and therapeutic approaches, including pharmacological strategies and emerging biomarkers in oligodendrocyte functions and myelination processes. The evidence supports a fundamental role for myelin plasticity and oligodendrocyte functionality in synchronizing neural activity and high-level cognitive functions, offering promising avenues for targeted interventions in CNS disorders.

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Translating Molecular Approaches to Oligodendrocyte-Mediated Neurological Circuit Modulation

Song,

Saglam,

Zuchero

et al. 2024

Brain Sciences

View full text Add to dashboard Cite

show abstract

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“Primed to Perform:” Dynamic white matter graph communicability may drive metastable network representations of enhanced preparatory cognitive control

Cited by 1 publication

References 69 publications

Translating Molecular Approaches to Oligodendrocyte-Mediated Neurological Circuit Modulation

Translating Molecular Approaches to Oligodendrocyte-Mediated Neurological Circuit Modulation

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