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3d desktop laser scanner model-15  (Cyberware Inc)

 
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    Structured Review

    Cyberware Inc 3d desktop laser scanner model-15
    Summary of previous studies on the accuracy of MRI-derived <t> 3D </t> <t> cartilage </t> models
    3d Desktop Laser Scanner Model 15, supplied by Cyberware 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/3d desktop laser scanner model-15/product/Cyberware Inc
    Average 90 stars, based on 1 article reviews
    3d desktop laser scanner model-15 - by Bioz Stars, 2026-04
    90/100 stars

    Images

    1) Product Images from "Accuracy of 3D Cartilage Models Generated From MR Images Is Dependent on Cartilage Thickness: Laser Scanner Based Validation of In Vivo Cartilage"

    Article Title: Accuracy of 3D Cartilage Models Generated From MR Images Is Dependent on Cartilage Thickness: Laser Scanner Based Validation of In Vivo Cartilage

    Journal: Journal of biomechanical engineering

    doi: 10.1115/1.4000087

    Summary of previous studies on the accuracy of MRI-derived 3D cartilage models
    Figure Legend Snippet: Summary of previous studies on the accuracy of MRI-derived 3D cartilage models

    Techniques Used:

    The schematic description of creating 3D cartilage models from two laser-scan data sets. Cartilage surface and bone surface were scanned along with features on platform and registered to each other using the platform features to obtain actual shape of cartilage.
    Figure Legend Snippet: The schematic description of creating 3D cartilage models from two laser-scan data sets. Cartilage surface and bone surface were scanned along with features on platform and registered to each other using the platform features to obtain actual shape of cartilage.

    Techniques Used:

    (a) Thickness maps calculated from a MR image-based 3D model and a laser-scan based 3D models. Dark blue represents the thickest cartilage and dark red represents the thinnest cartilage as shown in the color bar. (b) Difference maps were calculated by subtracting the thickness maps from the laser-scan based 3D model from the MR image-based 3D model. Thus blue regions represent thickness overestimation in MR image-based 3D models, green regions show the same estimation, and red regions represent underestimation. The letters A, P, M, and L in boxes represent anterior, posterior, medial, and lateral, respectively.
    Figure Legend Snippet: (a) Thickness maps calculated from a MR image-based 3D model and a laser-scan based 3D models. Dark blue represents the thickest cartilage and dark red represents the thinnest cartilage as shown in the color bar. (b) Difference maps were calculated by subtracting the thickness maps from the laser-scan based 3D model from the MR image-based 3D model. Thus blue regions represent thickness overestimation in MR image-based 3D models, green regions show the same estimation, and red regions represent underestimation. The letters A, P, M, and L in boxes represent anterior, posterior, medial, and lateral, respectively.

    Techniques Used:



    Similar Products

    3d desktop laser scanner model-15  (Cyberware Inc)
    90
    Cyberware Inc 3d desktop laser scanner model-15
    Summary of previous studies on the accuracy of MRI-derived <t> 3D </t> <t> cartilage </t> models
    3d Desktop Laser Scanner Model 15, supplied by Cyberware 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/3d desktop laser scanner model-15/product/Cyberware Inc
    Average 90 stars, based on 1 article reviews
    3d desktop laser scanner model-15 - by Bioz Stars, 2026-04
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    Summary of previous studies on the accuracy of MRI-derived 3D cartilage models

    Journal: Journal of biomechanical engineering

    Article Title: Accuracy of 3D Cartilage Models Generated From MR Images Is Dependent on Cartilage Thickness: Laser Scanner Based Validation of In Vivo Cartilage

    doi: 10.1115/1.4000087

    Figure Lengend Snippet: Summary of previous studies on the accuracy of MRI-derived 3D cartilage models

    Article Snippet: The cartilage surface was scanned on a rotating table using a 3D desktop laser scanner (Model-15, Cyberware, Monterey, CA).

    Techniques:

    The schematic description of creating 3D cartilage models from two laser-scan data sets. Cartilage surface and bone surface were scanned along with features on platform and registered to each other using the platform features to obtain actual shape of cartilage.

    Journal: Journal of biomechanical engineering

    Article Title: Accuracy of 3D Cartilage Models Generated From MR Images Is Dependent on Cartilage Thickness: Laser Scanner Based Validation of In Vivo Cartilage

    doi: 10.1115/1.4000087

    Figure Lengend Snippet: The schematic description of creating 3D cartilage models from two laser-scan data sets. Cartilage surface and bone surface were scanned along with features on platform and registered to each other using the platform features to obtain actual shape of cartilage.

    Article Snippet: The cartilage surface was scanned on a rotating table using a 3D desktop laser scanner (Model-15, Cyberware, Monterey, CA).

    Techniques:

    (a) Thickness maps calculated from a MR image-based 3D model and a laser-scan based 3D models. Dark blue represents the thickest cartilage and dark red represents the thinnest cartilage as shown in the color bar. (b) Difference maps were calculated by subtracting the thickness maps from the laser-scan based 3D model from the MR image-based 3D model. Thus blue regions represent thickness overestimation in MR image-based 3D models, green regions show the same estimation, and red regions represent underestimation. The letters A, P, M, and L in boxes represent anterior, posterior, medial, and lateral, respectively.

    Journal: Journal of biomechanical engineering

    Article Title: Accuracy of 3D Cartilage Models Generated From MR Images Is Dependent on Cartilage Thickness: Laser Scanner Based Validation of In Vivo Cartilage

    doi: 10.1115/1.4000087

    Figure Lengend Snippet: (a) Thickness maps calculated from a MR image-based 3D model and a laser-scan based 3D models. Dark blue represents the thickest cartilage and dark red represents the thinnest cartilage as shown in the color bar. (b) Difference maps were calculated by subtracting the thickness maps from the laser-scan based 3D model from the MR image-based 3D model. Thus blue regions represent thickness overestimation in MR image-based 3D models, green regions show the same estimation, and red regions represent underestimation. The letters A, P, M, and L in boxes represent anterior, posterior, medial, and lateral, respectively.

    Article Snippet: The cartilage surface was scanned on a rotating table using a 3D desktop laser scanner (Model-15, Cyberware, Monterey, CA).

    Techniques: