Literature DB >> 24856625

Distinguishing and quantification of the human visual pathways using high-spatial-resolution diffusion tensor tractography.

Arash Kamali1, Khader M Hasan2, Pavani Adapa3, Azadeh Razmandi, Zafer Keser4, John Lincoln5, Larry A Kramer6.   

Abstract

Quantification of the living human visual system using MRI methods has been challenging, but several applications demand a reliable and time-efficient data acquisition protocol. In this study, we demonstrate the utility of high-spatial-resolution diffusion tensor fiber tractography (DTT) in reconstructing and quantifying the human visual pathways. Five healthy males, age range 24-37years, were studied after approval of the institutional review board (IRB) at The University of Texas Health Science Center at Houston. We acquired diffusion tensor imaging (DTI) data with 1-mm slice thickness on a 3.0-Tesla clinical MRI scanner and analyzed the data using DTT with the fiber assignment by continuous tractography (FACT) algorithm. By utilizing the high-spatial-resolution DTI protocol with FACT algorithm, we were able to reconstruct and quantify bilateral optic pathways including the optic chiasm, optic tract, optic radiations free of contamination from neighboring white matter tracts.
Copyright © 2014 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Calcarine cortex; Diffusion tensor imaging; Diffusion tensor tractography; High spatial resolution; Human visual system; Occipital lobe; Optic chiasm; Optic nerve; Optic radiations; Optic tract; Retinogeniculocalcarine tract; Visual pathways

Mesh:

Year:  2014        PMID: 24856625      PMCID: PMC4099254          DOI: 10.1016/j.mri.2014.04.002

Source DB:  PubMed          Journal:  Magn Reson Imaging        ISSN: 0730-725X            Impact factor:   2.546


  64 in total

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Authors:  S A Mandelstam
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2.  Feasibility of prefronto-caudate pathway tractography using high resolution diffusion tensor tractography data at 3T.

Authors:  Arash Kamali; Larry A Kramer; Khader M Hasan
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3.  Reconstruction of the human visual system based on DTI fiber tracking.

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4.  The role of demyelination in neuromyelitis optica damage: diffusion-tensor MR imaging study.

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5.  Magnetic resonance diffusion tensor imaging (MRDTI) and tractography in children with septo-optic dysplasia.

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6.  Magnetic resonance diffusion tensor imaging of the optic nerves to guide treatment of pediatric suprasellar tumors.

Authors:  Michael B Salmela; Keith A Cauley; Trevor Andrews; Jay V Gonyea; Izabela Tarasiewicz; Christopher G Filippi
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8.  Imaging cortical association tracts in the human brain using diffusion-tensor-based axonal tracking.

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9.  Diffusion tensor imaging reveals white matter reorganization in early blind humans.

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2.  Thinner retinal layers are associated with changes in the visual pathway: A population-based study.

Authors:  Unal Mutlu; Mohammad K Ikram; Gennady V Roshchupkin; Pieter W M Bonnemaijer; Johanna M Colijn; Johannes R Vingerling; Wiro J Niessen; Mohammad A Ikram; Caroline C W Klaver; Meike W Vernooij
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3.  Anatomy of nerve fiber bundles at micrometer-resolution in the vervet monkey visual system.

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4.  Tracing in vivo the dorsal loop of the optic radiation: convergent perspectives from tractography and electrophysiology compared to a neuroanatomical ground truth.

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Journal:  Brain Struct Funct       Date:  2022-03-23       Impact factor: 3.270

5.  Comparison of Neurocognitive Testing and the Measurement of Marinobufagenin in Mild Traumatic Brain Injury: A Preliminary Report.

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Journal:  J Exp Neurosci       Date:  2015-07-27

6.  Subcomponents and Connectivity of the Inferior Fronto-Occipital Fasciculus Revealed by Diffusion Spectrum Imaging Fiber Tracking.

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7.  MRI-derived diffusion parameters in the human optic nerve and its surrounding sheath during head-down tilt.

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8.  Comparison of probabilistic tractography and tract-based spatial statistics for assessing optic radiation damage in patients with autoimmune inflammatory disorders of the central nervous system.

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9.  The development of white matter structural changes during the process of deterioration of the visual field.

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Review 10.  Functional Anatomy of the Inferior Longitudinal Fasciculus: From Historical Reports to Current Hypotheses.

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