Kamal Shadi scite author profile

Having a structural network representation of connectivity in the brain is instrumental in analyzing communication dynamics and neural information processing. In this work, we make steps towards understanding multi-sensory information flow and integration using a network diffusion approach. In particular, we model the flow of evoked activity, initiated by stimuli at primary sensory regions, using the Asynchronous Linear Threshold (ALT) diffusion model. The ALT model captures how evoked activity that originates at a given region of the cortex “ripples through” other brain regions (referred to as an activation cascade). find that a small number of brain regions – the claustrum and the parietal temporal cortex being at the top of the list – are involved in almost all cortical sensory streams. This suggests that the cortex relies on an hourglass architecture to first integrate and compress multi-sensory information from multiple sensory regions, before utilizing that lower-dimensionality representation in higher-level association regions and more complex cognitive tasks.

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A Symmetry-Based Method to Infer Structural Brain Networks from Probabilistic Tractography Data

Shadi

Bakhshi

Gutman

et al. 2016

Front. Neuroinform.

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Recent progress in diffusion MRI and tractography algorithms as well as the launch of the Human Connectome Project (HCP)1 have provided brain research with an abundance of structural connectivity data. In this work, we describe and evaluate a method that can infer the structural brain network that interconnects a given set of Regions of Interest (ROIs) from probabilistic tractography data. The proposed method, referred to as Minimum Asymmetry Network Inference Algorithm (MANIA), does not determine the connectivity between two ROIs based on an arbitrary connectivity threshold. Instead, we exploit a basic limitation of the tractography process: the observed streamlines from a source to a target do not provide any information about the polarity of the underlying white matter, and so if there are some fibers connecting two voxels (or two ROIs) X and Y, tractography should be able in principle to follow this connection in both directions, from X to Y and from Y to X. We leverage this limitation to formulate the network inference process as an optimization problem that minimizes the (appropriately normalized) asymmetry of the observed network. We evaluate the proposed method using both the FiberCup dataset and based on a noise model that randomly corrupts the observed connectivity of synthetic networks. As a case-study, we apply MANIA on diffusion MRI data from 28 healthy subjects to infer the structural network between 18 corticolimbic ROIs that are associated with various neuropsychiatric conditions including depression, anxiety and addiction.

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Transmit beampattern synthesis using eigenvalue decomposition in MIMO radar

Shadi

Behnia

2011

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Well-Conditioned Sensor Placement for Range-Only Localization

Shadi

Dehghani

Gholampour

2011

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Hierarchical IP flow clustering

Shadi

Natarajan

Dovrolis

2017

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Kamal Shadi

Multisensory integration in the mouse cortical connectome using a network diffusion model

A Symmetry-Based Method to Infer Structural Brain Networks from Probabilistic Tractography Data

Transmit beampattern synthesis using eigenvalue decomposition in MIMO radar

Well-Conditioned Sensor Placement for Range-Only Localization

Hierarchical IP flow clustering

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