Zvi Baratz scite author profile

Zvi Baratz

5Publications

72Citation Statements Received

92Citation Statements Given

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Affiliations

Tel Aviv University

Publications

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A framework for cortical laminar composition analysis using low-resolution T1 MRI images

et al. 2019

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The layer composition of the cerebral cortex represents a unique anatomical fingerprint of brain development, function, connectivity and pathology. Historically the cortical layers were investigated solely ex-vivo using histological means, but recent magnetic resonance imaging (MRI) studies suggest that T1 relaxation images can be utilized to separate the layers. Despite technological advancements in the field of high resolution MRI, accurate estimation of whole brain layer composition has remained limited due to partial volume effects, leaving some layers far beyond the image resolution. In this study we offer a simple and accurate method for layer composition analysis, resolving partial volume effects and cortical curvature heterogeneity. We use a low resolution echo planar imaging inversion recovery (EPI IR) MRI scan protocol that provides fast acquisition (~12 minutes) and enables extraction of multiple T1 relaxation time components per voxel, which are assigned to types of brain tissue and utilized to extract the subvoxel composition of each T1 layer. While previous investigation of the layers required the estimation of cortical normals or smoothing of layer widths (similar to VBM), here we developed a sphere-based approach to explore the inner mesoscale architecture of the cortex. Our novel algorithm conducts spatial analysis using volumetric sampling of a system of virtual spheres dispersed throughout the entire cortical space. The methodology offers a robust and powerful framework for quantification and visualization of the layers on the cortical surface, providing a basis for quantitative investigation of their role in cognition, physiology and pathology.

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nipy/nibabel: 3.2.1

Brett¹,

Markiewicz²,

Hanke³

et al. 2020

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In vivo measurements of lamination patterns in the human cortex

Tomer

Barazany

Baratz

et al. 2022

Human Brain Mapping

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The laminar composition of the cerebral cortex is tightly connected to the development and connectivity of the brain, as well as to function and pathology. Although most of the research on the cortical layers is done with the aid of ex vivo histology, there have been recent attempts to use magnetic resonance imaging (MRI) with potential in vivo applications. However, the high‐resolution MRI technology and protocols required for such studies are neither common nor practical. In this article, we present a clinically feasible method for assessing the laminar properties of the human cortex using standard pulse sequence available on any common MRI scanner. Using a series of low‐resolution inversion recovery (IR) MRI scans allows us to calculate multiple T1 relaxation time constants for each voxel. Based on the whole‐brain T1‐distribution, we identify six different gray matter T1 populations and their variation across the cortex. Based on this, we show age‐related differences in these population and demonstrate that this method is able to capture the difference in laminar composition across varying brain areas. We also provide comparison to ex vivo high‐resolution MRI scans. We show that this method is feasible for the estimation of layer variability across large population cohorts, which can lead to research into the links between the cortical layers and function, behavior and pathologies that was heretofore unexplorable.

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nipy/nipype: 1.5.1

Estéban¹,

Markiewicz²,

Burns³

et al. 2020

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nipy/nibabel: 3.1.1

Brett¹,

Markiewicz²,

Hanke³

et al. 2020

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Zvi Baratz

A framework for cortical laminar composition analysis using low-resolution T1 MRI images

nipy/nibabel: 3.2.1

In vivo measurements of lamination patterns in the human cortex

nipy/nipype: 1.5.1

nipy/nibabel: 3.1.1

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