Benjamin Acland scite author profile

Summary Systems-level organization in spontaneous infra-slow (<0.1Hz) brain activity, measured using blood oxygen signals in fMRI and optical imaging, has become a major theme in the study of neural function in both humans and animal models. Yet the neurophysiological basis of infra-slow activity (ISA) remains unresolved. In particular, is ISA a distinct physiological process, or is it a low frequency analogue of faster neural activity? Here, using whole-cortex calcium/hemoglobin imaging in mice, we show that ISA in each of these modalities travels through the cortex along stereotypical spatio-temporal trajectories that are state-dependent (wake versus anesthesia) and distinct from trajectories in delta (1–4Hz) activity. Moreover, mouse laminar electrophysiology reveals that ISA travels through specific cortical layers and is organized into unique cross-laminar temporal dynamics that are different from higher frequency local field potential activity. These findings suggest that ISA is a distinct neurophysiological process that is reflected in fMRI blood oxygen signals.

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Contribution of animal models toward understanding resting state functional connectivity

Pais-Roldán

Matéo

Pan

et al. 2021

NeuroImage

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Local Perturbations of Cortical Excitability Propagate Differentially Through Large-Scale Functional Networks

Rosenthal

Raut

Yan

et al. 2020

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Electrophysiological recordings have established that GABAergic interneurons regulate excitability, plasticity, and computational function within local neural circuits. Importantly, GABAergic inhibition is focally disrupted around sites of brain injury. However, it remains unclear whether focal imbalances in inhibition/excitation lead to widespread changes in brain activity. Here, we test the hypothesis that focal perturbations in excitability disrupt large-scale brain network dynamics. We used viral chemogenetics in mice to reversibly manipulate parvalbumin interneuron (PV-IN) activity levels in whisker barrel somatosensory cortex. We then assessed how this imbalance affects cortical network activity in awake mice using wide-field optical neuroimaging of pyramidal neuron GCaMP dynamics as well as local field potential recordings. We report 1) that local changes in excitability can cause remote, network-wide effects, 2) that these effects propagate differentially through intra- and interhemispheric connections, and 3) that chemogenetic constructs can induce plasticity in cortical excitability and functional connectivity. These findings may help to explain how focal activity changes following injury lead to widespread network dysfunction.

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Relationships between correlated spikes, oxygen and LFP in the resting-state primate

Acland

Brenner

et al. 2022

NeuroImage

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Cili: Cili V0.5.4

Acland¹,

Wallis²,

orthographic-pedant³

2016

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Benjamin Acland

Spontaneous Infra-slow Brain Activity Has Unique Spatiotemporal Dynamics and Laminar Structure

Contribution of animal models toward understanding resting state functional connectivity

Local Perturbations of Cortical Excitability Propagate Differentially Through Large-Scale Functional Networks

Relationships between correlated spikes, oxygen and LFP in the resting-state primate

Cili: Cili V0.5.4

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