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autodesk inventor 2024  (Autodesk Inc)

 
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    Autodesk Inc autodesk inventor 2024
    Finite element model generation pipeline. The finite element model geometry development pipeline begins with muscle volume and central <t>aponeurosis</t> segmentations from MRIs, followed by 3D computer aided design (CAD) models of the TA and central aponeurosis. These volumes were then meshed into tetrahedrons for FE analysis. The muscle fascicles and central aponeurosis fibers were generated through Laplacian fluid flow simulation and the velocity vectors were mapped to the mesh. Lastly, the voxel-based fat fraction determined from the Dixon MRI was mapped to each element in the volume, allowing for anatomic representation of the fat infiltration pattern.
    Autodesk Inventor 2024, supplied by Autodesk 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/autodesk inventor 2024/product/Autodesk Inc
    Average 90 stars, based on 1 article reviews
    autodesk inventor 2024 - by Bioz Stars, 2026-03
    90/100 stars

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    1) Product Images from "3D finite element models reveal regional fatty infiltration modulates tibialis anterior force generating capacity in FSHD"

    Article Title: 3D finite element models reveal regional fatty infiltration modulates tibialis anterior force generating capacity in FSHD

    Journal: PLOS One

    doi: 10.1371/journal.pone.0319881

    Finite element model generation pipeline. The finite element model geometry development pipeline begins with muscle volume and central aponeurosis segmentations from MRIs, followed by 3D computer aided design (CAD) models of the TA and central aponeurosis. These volumes were then meshed into tetrahedrons for FE analysis. The muscle fascicles and central aponeurosis fibers were generated through Laplacian fluid flow simulation and the velocity vectors were mapped to the mesh. Lastly, the voxel-based fat fraction determined from the Dixon MRI was mapped to each element in the volume, allowing for anatomic representation of the fat infiltration pattern.
    Figure Legend Snippet: Finite element model generation pipeline. The finite element model geometry development pipeline begins with muscle volume and central aponeurosis segmentations from MRIs, followed by 3D computer aided design (CAD) models of the TA and central aponeurosis. These volumes were then meshed into tetrahedrons for FE analysis. The muscle fascicles and central aponeurosis fibers were generated through Laplacian fluid flow simulation and the velocity vectors were mapped to the mesh. Lastly, the voxel-based fat fraction determined from the Dixon MRI was mapped to each element in the volume, allowing for anatomic representation of the fat infiltration pattern.

    Techniques Used: Generated

    Model boundary conditions. This visualization is showing the fixed aponeuroses ends and fascicle origin surface from the tibia which is also fixed as a boney attachment.
    Figure Legend Snippet: Model boundary conditions. This visualization is showing the fixed aponeuroses ends and fascicle origin surface from the tibia which is also fixed as a boney attachment.

    Techniques Used:



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    Finite element model generation pipeline. The finite element model geometry development pipeline begins with muscle volume and central <t>aponeurosis</t> segmentations from MRIs, followed by 3D computer aided design (CAD) models of the TA and central aponeurosis. These volumes were then meshed into tetrahedrons for FE analysis. The muscle fascicles and central aponeurosis fibers were generated through Laplacian fluid flow simulation and the velocity vectors were mapped to the mesh. Lastly, the voxel-based fat fraction determined from the Dixon MRI was mapped to each element in the volume, allowing for anatomic representation of the fat infiltration pattern.
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    Finite element model generation pipeline. The finite element model geometry development pipeline begins with muscle volume and central <t>aponeurosis</t> segmentations from MRIs, followed by 3D computer aided design (CAD) models of the TA and central aponeurosis. These volumes were then meshed into tetrahedrons for FE analysis. The muscle fascicles and central aponeurosis fibers were generated through Laplacian fluid flow simulation and the velocity vectors were mapped to the mesh. Lastly, the voxel-based fat fraction determined from the Dixon MRI was mapped to each element in the volume, allowing for anatomic representation of the fat infiltration pattern.
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    Finite element model generation pipeline. The finite element model geometry development pipeline begins with muscle volume and central <t>aponeurosis</t> segmentations from MRIs, followed by 3D computer aided design (CAD) models of the TA and central aponeurosis. These volumes were then meshed into tetrahedrons for FE analysis. The muscle fascicles and central aponeurosis fibers were generated through Laplacian fluid flow simulation and the velocity vectors were mapped to the mesh. Lastly, the voxel-based fat fraction determined from the Dixon MRI was mapped to each element in the volume, allowing for anatomic representation of the fat infiltration pattern.
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    Finite element model generation pipeline. The finite element model geometry development pipeline begins with muscle volume and central aponeurosis segmentations from MRIs, followed by 3D computer aided design (CAD) models of the TA and central aponeurosis. These volumes were then meshed into tetrahedrons for FE analysis. The muscle fascicles and central aponeurosis fibers were generated through Laplacian fluid flow simulation and the velocity vectors were mapped to the mesh. Lastly, the voxel-based fat fraction determined from the Dixon MRI was mapped to each element in the volume, allowing for anatomic representation of the fat infiltration pattern.

    Journal: PLOS One

    Article Title: 3D finite element models reveal regional fatty infiltration modulates tibialis anterior force generating capacity in FSHD

    doi: 10.1371/journal.pone.0319881

    Figure Lengend Snippet: Finite element model generation pipeline. The finite element model geometry development pipeline begins with muscle volume and central aponeurosis segmentations from MRIs, followed by 3D computer aided design (CAD) models of the TA and central aponeurosis. These volumes were then meshed into tetrahedrons for FE analysis. The muscle fascicles and central aponeurosis fibers were generated through Laplacian fluid flow simulation and the velocity vectors were mapped to the mesh. Lastly, the voxel-based fat fraction determined from the Dixon MRI was mapped to each element in the volume, allowing for anatomic representation of the fat infiltration pattern.

    Article Snippet: The points were then used to define axial slice contours which were then lofted into the volumes of the TA and central aponeurosis (Autodesk Inventor 2024, San Francisco, CA, USA).

    Techniques: Generated

    Model boundary conditions. This visualization is showing the fixed aponeuroses ends and fascicle origin surface from the tibia which is also fixed as a boney attachment.

    Journal: PLOS One

    Article Title: 3D finite element models reveal regional fatty infiltration modulates tibialis anterior force generating capacity in FSHD

    doi: 10.1371/journal.pone.0319881

    Figure Lengend Snippet: Model boundary conditions. This visualization is showing the fixed aponeuroses ends and fascicle origin surface from the tibia which is also fixed as a boney attachment.

    Article Snippet: The points were then used to define axial slice contours which were then lofted into the volumes of the TA and central aponeurosis (Autodesk Inventor 2024, San Francisco, CA, USA).

    Techniques: