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dti single-tensor analysis package  (MathWorks Inc)


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    MathWorks Inc dti single-tensor analysis package
    In one metastatic lung cancer patient, extensive peritumoral edema occurred in the right hemisphere (A, b0 image), neighboring corpus callosum (CC) (A, <t>DTI</t> FA map). Three regions of interest (ROI, 3×4 voxels each) covering significant (rectangle 1), moderate (rectangle 2), and non-edematous (rectangle 3) CC are marked for analysis (A). DTI and <t>DBSI</t> <t>diffusion</t> ellipsoids (B) were generated using a lab-built Matlab code (MathWorks; Natick, MA, USA). The size of diffusion ellipsoids represents the signal fraction of individual tensors. Crossing-fibers resolved by DBSI are presented in different colors. DTI tensor ellipsoids suggest that crossing fibers and edema significantly decreases diffusion anisotropy (B). In contrast, DBSI derived anisotropic ellipsoids for single and crossing fibers display comparable diffusion anisotropy, eliminating the impact of edema.
    Dti Single Tensor Analysis Package, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/dti single-tensor analysis package/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    dti single-tensor analysis package - by Bioz Stars, 2026-04
    90/100 stars

    Images

    1) Product Images from "The impact of edema and fiber crossing on diffusion MRI metrics assessed in an ex vivo nerve phantom: multi-tensor model vs. diffusion orientation distribution function"

    Article Title: The impact of edema and fiber crossing on diffusion MRI metrics assessed in an ex vivo nerve phantom: multi-tensor model vs. diffusion orientation distribution function

    Journal: NMR in biomedicine

    doi: 10.1002/nbm.4414

    In one metastatic lung cancer patient, extensive peritumoral edema occurred in the right hemisphere (A, b0 image), neighboring corpus callosum (CC) (A, DTI FA map). Three regions of interest (ROI, 3×4 voxels each) covering significant (rectangle 1), moderate (rectangle 2), and non-edematous (rectangle 3) CC are marked for analysis (A). DTI and DBSI diffusion ellipsoids (B) were generated using a lab-built Matlab code (MathWorks; Natick, MA, USA). The size of diffusion ellipsoids represents the signal fraction of individual tensors. Crossing-fibers resolved by DBSI are presented in different colors. DTI tensor ellipsoids suggest that crossing fibers and edema significantly decreases diffusion anisotropy (B). In contrast, DBSI derived anisotropic ellipsoids for single and crossing fibers display comparable diffusion anisotropy, eliminating the impact of edema.
    Figure Legend Snippet: In one metastatic lung cancer patient, extensive peritumoral edema occurred in the right hemisphere (A, b0 image), neighboring corpus callosum (CC) (A, DTI FA map). Three regions of interest (ROI, 3×4 voxels each) covering significant (rectangle 1), moderate (rectangle 2), and non-edematous (rectangle 3) CC are marked for analysis (A). DTI and DBSI diffusion ellipsoids (B) were generated using a lab-built Matlab code (MathWorks; Natick, MA, USA). The size of diffusion ellipsoids represents the signal fraction of individual tensors. Crossing-fibers resolved by DBSI are presented in different colors. DTI tensor ellipsoids suggest that crossing fibers and edema significantly decreases diffusion anisotropy (B). In contrast, DBSI derived anisotropic ellipsoids for single and crossing fibers display comparable diffusion anisotropy, eliminating the impact of edema.

    Techniques Used: Diffusion-based Assay, Generated, Derivative Assay



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    dti single-tensor analysis package  (MathWorks Inc)
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    MathWorks Inc dti single-tensor analysis package
    In one metastatic lung cancer patient, extensive peritumoral edema occurred in the right hemisphere (A, b0 image), neighboring corpus callosum (CC) (A, <t>DTI</t> FA map). Three regions of interest (ROI, 3×4 voxels each) covering significant (rectangle 1), moderate (rectangle 2), and non-edematous (rectangle 3) CC are marked for analysis (A). DTI and <t>DBSI</t> <t>diffusion</t> ellipsoids (B) were generated using a lab-built Matlab code (MathWorks; Natick, MA, USA). The size of diffusion ellipsoids represents the signal fraction of individual tensors. Crossing-fibers resolved by DBSI are presented in different colors. DTI tensor ellipsoids suggest that crossing fibers and edema significantly decreases diffusion anisotropy (B). In contrast, DBSI derived anisotropic ellipsoids for single and crossing fibers display comparable diffusion anisotropy, eliminating the impact of edema.
    Dti Single Tensor Analysis Package, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/dti single-tensor analysis package/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    dti single-tensor analysis package - by Bioz Stars, 2026-04
    90/100 stars
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    dti single-tensor model analysis package  (MathWorks Inc)
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    MathWorks Inc dti single-tensor model analysis package
    In one metastatic lung cancer patient, extensive peritumoral edema occurred in the right hemisphere (A, b0 image), neighboring corpus callosum (CC) (A, <t>DTI</t> FA map). Three regions of interest (ROI, 3×4 voxels each) covering significant (rectangle 1), moderate (rectangle 2), and non-edematous (rectangle 3) CC are marked for analysis (A). DTI and <t>DBSI</t> <t>diffusion</t> ellipsoids (B) were generated using a lab-built Matlab code (MathWorks; Natick, MA, USA). The size of diffusion ellipsoids represents the signal fraction of individual tensors. Crossing-fibers resolved by DBSI are presented in different colors. DTI tensor ellipsoids suggest that crossing fibers and edema significantly decreases diffusion anisotropy (B). In contrast, DBSI derived anisotropic ellipsoids for single and crossing fibers display comparable diffusion anisotropy, eliminating the impact of edema.
    Dti Single Tensor Model Analysis Package, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/dti single-tensor model analysis package/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    dti single-tensor model analysis package - by Bioz Stars, 2026-04
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    In one metastatic lung cancer patient, extensive peritumoral edema occurred in the right hemisphere (A, b0 image), neighboring corpus callosum (CC) (A, DTI FA map). Three regions of interest (ROI, 3×4 voxels each) covering significant (rectangle 1), moderate (rectangle 2), and non-edematous (rectangle 3) CC are marked for analysis (A). DTI and DBSI diffusion ellipsoids (B) were generated using a lab-built Matlab code (MathWorks; Natick, MA, USA). The size of diffusion ellipsoids represents the signal fraction of individual tensors. Crossing-fibers resolved by DBSI are presented in different colors. DTI tensor ellipsoids suggest that crossing fibers and edema significantly decreases diffusion anisotropy (B). In contrast, DBSI derived anisotropic ellipsoids for single and crossing fibers display comparable diffusion anisotropy, eliminating the impact of edema.

    Journal: NMR in biomedicine

    Article Title: The impact of edema and fiber crossing on diffusion MRI metrics assessed in an ex vivo nerve phantom: multi-tensor model vs. diffusion orientation distribution function

    doi: 10.1002/nbm.4414

    Figure Lengend Snippet: In one metastatic lung cancer patient, extensive peritumoral edema occurred in the right hemisphere (A, b0 image), neighboring corpus callosum (CC) (A, DTI FA map). Three regions of interest (ROI, 3×4 voxels each) covering significant (rectangle 1), moderate (rectangle 2), and non-edematous (rectangle 3) CC are marked for analysis (A). DTI and DBSI diffusion ellipsoids (B) were generated using a lab-built Matlab code (MathWorks; Natick, MA, USA). The size of diffusion ellipsoids represents the signal fraction of individual tensors. Crossing-fibers resolved by DBSI are presented in different colors. DTI tensor ellipsoids suggest that crossing fibers and edema significantly decreases diffusion anisotropy (B). In contrast, DBSI derived anisotropic ellipsoids for single and crossing fibers display comparable diffusion anisotropy, eliminating the impact of edema.

    Article Snippet: Diffusion-weighted data with 99 diffusion directions was analyzed with the DTI single-tensor model analysis package developed in-house with Matlab Version 2013 (MathWorks; Natick, MA, USA) software.

    Techniques: Diffusion-based Assay, Generated, Derivative Assay