3d digital model Search Results


digital 3d models  (NextEngine Inc)
90
NextEngine Inc digital 3d models
Digital 3d Models, supplied by NextEngine Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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three-dimensional (3-d) digital spine model  (Digimation Inc)
90
Digimation Inc three-dimensional (3-d) digital spine model
Three Dimensional (3 D) Digital Spine Model, supplied by Digimation 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/three-dimensional (3-d) digital spine model/product/Digimation Inc
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3d digital model of the femur and tibia  (Siemens AG)
90
Siemens AG 3d digital model of the femur and tibia
3d Digital Model Of The Femur And Tibia, supplied by Siemens AG, 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 digital model of the femur and tibia/product/Siemens AG
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digital 3-d models  (MediaLab Inc)
90
MediaLab Inc digital 3-d models
Digital 3 D Models, supplied by MediaLab Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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digital 3d model of oh 83  (NextEngine Inc)
90
NextEngine Inc digital 3d model of oh 83
Digital 3d Model Of Oh 83, supplied by NextEngine Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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virtual 3d model of the kidney and the tumor (digital twin)  (FUJIFILM)
90
FUJIFILM virtual 3d model of the kidney and the tumor (digital twin)
Virtual 3d Model Of The Kidney And The Tumor (Digital Twin), supplied by FUJIFILM, 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/virtual 3d model of the kidney and the tumor (digital twin)/product/FUJIFILM
Average 90 stars, based on 1 article reviews
virtual 3d model of the kidney and the tumor (digital twin) - by Bioz Stars, 2026-06
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3d digital model of the same femoral head prosthesis  (ShapeGrabber Incorporated)
90
ShapeGrabber Incorporated 3d digital model of the same femoral head prosthesis
Intra-voxel dephasing due to magnetic field inhomogeneities leads to break-down of chemical shift encoded water-fat separation directly adjacent to metallic <t>prostheses</t> in areas where the gradient of the inhomogeneity is most severe. Based on the results shown in figure 7, upper limits of the color-map (black) were chosen to depict regions where the local intra-voxel off-resonance exceeds 6 ppm (383 Hz at 1.5T, 766 Hz at 3T), the point at which intra-voxel off-resonance causes water-fat separation to break down for SNR = 20. White, dotted contour lines represent labeled iso-distances (mm) from the implant surface.
3d Digital Model Of The Same Femoral Head Prosthesis, supplied by ShapeGrabber Incorporated, 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 digital model of the same femoral head prosthesis/product/ShapeGrabber Incorporated
Average 90 stars, based on 1 article reviews
3d digital model of the same femoral head prosthesis - by Bioz Stars, 2026-06
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3d digital model(s) of face/head  (Breuckmann GmbH)
90
Breuckmann GmbH 3d digital model(s) of face/head
Intra-voxel dephasing due to magnetic field inhomogeneities leads to break-down of chemical shift encoded water-fat separation directly adjacent to metallic <t>prostheses</t> in areas where the gradient of the inhomogeneity is most severe. Based on the results shown in figure 7, upper limits of the color-map (black) were chosen to depict regions where the local intra-voxel off-resonance exceeds 6 ppm (383 Hz at 1.5T, 766 Hz at 3T), the point at which intra-voxel off-resonance causes water-fat separation to break down for SNR = 20. White, dotted contour lines represent labeled iso-distances (mm) from the implant surface.
3d Digital Model(s) Of Face/Head, supplied by Breuckmann GmbH, 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 digital model(s) of face/head/product/Breuckmann GmbH
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3d digital model(s) of face/head - by Bioz Stars, 2026-06
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digital 3d model  (Hartenstein GmbH)
90
Hartenstein GmbH digital 3d model
Digital <t>3D</t> models of larval <t>sensory</t> <t>neuropil</t> domains in relationship to long axon tracts, commissures, and neuromere boundaries. Models represent one side of SEZ (TR tritocerebrum; MD mandibula; MX maxilla, LB labium), anteriorly adjacent antennal lobe (AL) and posteriorly adjacent T1 neuromere (T1) in ventral view (a), posterior view (b), anterior view (c), medial view (d) and lateral view (e). Longitudinal tracts (DMT, DLT, VMT, CITd/v) and commissures, as well as lineages BAlv, 3MD, 3MX, 3LB and 3T1 are rendered in gray; sensory nerves and sensory neuropil domains are shown in different colors. Arrow in (a, b) points at commissural component of VMSC neuropil located in maxillary neuromere. For abbreviations, see List of Abbreviations.
Digital 3d Model, supplied by Hartenstein GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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digital 3d model - by Bioz Stars, 2026-06
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3d digital model  (COMSOL Inc)
90
COMSOL Inc 3d digital model
Digital <t>3D</t> models of larval <t>sensory</t> <t>neuropil</t> domains in relationship to long axon tracts, commissures, and neuromere boundaries. Models represent one side of SEZ (TR tritocerebrum; MD mandibula; MX maxilla, LB labium), anteriorly adjacent antennal lobe (AL) and posteriorly adjacent T1 neuromere (T1) in ventral view (a), posterior view (b), anterior view (c), medial view (d) and lateral view (e). Longitudinal tracts (DMT, DLT, VMT, CITd/v) and commissures, as well as lineages BAlv, 3MD, 3MX, 3LB and 3T1 are rendered in gray; sensory nerves and sensory neuropil domains are shown in different colors. Arrow in (a, b) points at commissural component of VMSC neuropil located in maxillary neuromere. For abbreviations, see List of Abbreviations.
3d Digital Model, supplied by COMSOL 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 digital model/product/COMSOL Inc
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3d digital model - by Bioz Stars, 2026-06
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digitally operable 3d mouse brain model  (Allen Institute for Brain Science)
90
Allen Institute for Brain Science digitally operable 3d mouse brain model
Digital <t>3D</t> models of larval <t>sensory</t> <t>neuropil</t> domains in relationship to long axon tracts, commissures, and neuromere boundaries. Models represent one side of SEZ (TR tritocerebrum; MD mandibula; MX maxilla, LB labium), anteriorly adjacent antennal lobe (AL) and posteriorly adjacent T1 neuromere (T1) in ventral view (a), posterior view (b), anterior view (c), medial view (d) and lateral view (e). Longitudinal tracts (DMT, DLT, VMT, CITd/v) and commissures, as well as lineages BAlv, 3MD, 3MX, 3LB and 3T1 are rendered in gray; sensory nerves and sensory neuropil domains are shown in different colors. Arrow in (a, b) points at commissural component of VMSC neuropil located in maxillary neuromere. For abbreviations, see List of Abbreviations.
Digitally Operable 3d Mouse Brain Model, supplied by Allen Institute for Brain Science, 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/digitally operable 3d mouse brain model/product/Allen Institute for Brain Science
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digitally operable 3d mouse brain model - by Bioz Stars, 2026-06
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3d digital models  (Disior Ltd)
90
Disior Ltd 3d digital models
Digital <t>3D</t> models of larval <t>sensory</t> <t>neuropil</t> domains in relationship to long axon tracts, commissures, and neuromere boundaries. Models represent one side of SEZ (TR tritocerebrum; MD mandibula; MX maxilla, LB labium), anteriorly adjacent antennal lobe (AL) and posteriorly adjacent T1 neuromere (T1) in ventral view (a), posterior view (b), anterior view (c), medial view (d) and lateral view (e). Longitudinal tracts (DMT, DLT, VMT, CITd/v) and commissures, as well as lineages BAlv, 3MD, 3MX, 3LB and 3T1 are rendered in gray; sensory nerves and sensory neuropil domains are shown in different colors. Arrow in (a, b) points at commissural component of VMSC neuropil located in maxillary neuromere. For abbreviations, see List of Abbreviations.
3d Digital Models, supplied by Disior Ltd, 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 digital models/product/Disior Ltd
Average 90 stars, based on 1 article reviews
3d digital models - by Bioz Stars, 2026-06
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Image Search Results


Intra-voxel dephasing due to magnetic field inhomogeneities leads to break-down of chemical shift encoded water-fat separation directly adjacent to metallic prostheses in areas where the gradient of the inhomogeneity is most severe. Based on the results shown in figure 7, upper limits of the color-map (black) were chosen to depict regions where the local intra-voxel off-resonance exceeds 6 ppm (383 Hz at 1.5T, 766 Hz at 3T), the point at which intra-voxel off-resonance causes water-fat separation to break down for SNR = 20. White, dotted contour lines represent labeled iso-distances (mm) from the implant surface.

Journal: Magnetic resonance in medicine

Article Title: Characterizing the Limits of Magnetic Resonance Imaging Near Metallic Prostheses

doi: 10.1002/mrm.25540

Figure Lengend Snippet: Intra-voxel dephasing due to magnetic field inhomogeneities leads to break-down of chemical shift encoded water-fat separation directly adjacent to metallic prostheses in areas where the gradient of the inhomogeneity is most severe. Based on the results shown in figure 7, upper limits of the color-map (black) were chosen to depict regions where the local intra-voxel off-resonance exceeds 6 ppm (383 Hz at 1.5T, 766 Hz at 3T), the point at which intra-voxel off-resonance causes water-fat separation to break down for SNR = 20. White, dotted contour lines represent labeled iso-distances (mm) from the implant surface.

Article Snippet: In order to validate the simulations of off-resonance used in this study, B 0 inhomogeneity was estimated (described below) using a 3D digital model of the same femoral head prosthesis obtained via 3D laser scanning with sub millimeter resolution (ShapeGrabber, Ottawa, ON, Canada).

Techniques: Labeling

Digital 3D models of larval sensory neuropil domains in relationship to long axon tracts, commissures, and neuromere boundaries. Models represent one side of SEZ (TR tritocerebrum; MD mandibula; MX maxilla, LB labium), anteriorly adjacent antennal lobe (AL) and posteriorly adjacent T1 neuromere (T1) in ventral view (a), posterior view (b), anterior view (c), medial view (d) and lateral view (e). Longitudinal tracts (DMT, DLT, VMT, CITd/v) and commissures, as well as lineages BAlv, 3MD, 3MX, 3LB and 3T1 are rendered in gray; sensory nerves and sensory neuropil domains are shown in different colors. Arrow in (a, b) points at commissural component of VMSC neuropil located in maxillary neuromere. For abbreviations, see List of Abbreviations.

Journal: The Journal of comparative neurology

Article Title: Structure and Development of the Subesophageal Zone of the Drosophila Brain. II. Sensory Compartments

doi: 10.1002/cne.24316

Figure Lengend Snippet: Digital 3D models of larval sensory neuropil domains in relationship to long axon tracts, commissures, and neuromere boundaries. Models represent one side of SEZ (TR tritocerebrum; MD mandibula; MX maxilla, LB labium), anteriorly adjacent antennal lobe (AL) and posteriorly adjacent T1 neuromere (T1) in ventral view (a), posterior view (b), anterior view (c), medial view (d) and lateral view (e). Longitudinal tracts (DMT, DLT, VMT, CITd/v) and commissures, as well as lineages BAlv, 3MD, 3MX, 3LB and 3T1 are rendered in gray; sensory nerves and sensory neuropil domains are shown in different colors. Arrow in (a, b) points at commissural component of VMSC neuropil located in maxillary neuromere. For abbreviations, see List of Abbreviations.

Article Snippet: Most afferents, presumably formed by external sensilla and multidendritic neurons, occupy the ventromedial column of the VNC neuropil (“ventromedial sensory column” (VMSC); ; ; represented as a digital 3D model in ; for definition of columnar neuropil domains see accompanying paper by Hartenstein et al., 2017).

Techniques:

Digital 3D models of sensory neuropil domains of adult (a, c, d) and late larva (b) in relationship to long axon tracts, secondary lineages, and neuromere boundaries. Models represent one side of SEZ (TR tritocerebrum; MD mandibula; MX maxilla, LB labium) and anteriorly adjacent antennal lobe (AL) in ventral view (left panel in a), dorsal view (right panel in a; d), lateral view (c) and medial view (d). Longitudinal tracts (DMT, DLT, VMT, CITd/v) and commissures, as well as lineages BAlv, 3MD, 3MX and 3LB are rendered in gray; sensory nerves and sensory neuropil domains are color-coded following the same key used in previous models and schamtics. Arrow in (a, b) points at commissural component of VMSC neuropil located in maxillary neuromere. Small arrowheads in (b) demarcate boundary between labium and first thoracic neuromere where subesophageal ganglion will be separated from thoracic ganglia during metamorphosis. Large arrowheads in (a) demarcate commissural part of AMMC that crosses the midline in the centromedial plate (CMP of maxillary neuromere. For abbreviations, see List of Abbreviations.

Journal: The Journal of comparative neurology

Article Title: Structure and Development of the Subesophageal Zone of the Drosophila Brain. II. Sensory Compartments

doi: 10.1002/cne.24316

Figure Lengend Snippet: Digital 3D models of sensory neuropil domains of adult (a, c, d) and late larva (b) in relationship to long axon tracts, secondary lineages, and neuromere boundaries. Models represent one side of SEZ (TR tritocerebrum; MD mandibula; MX maxilla, LB labium) and anteriorly adjacent antennal lobe (AL) in ventral view (left panel in a), dorsal view (right panel in a; d), lateral view (c) and medial view (d). Longitudinal tracts (DMT, DLT, VMT, CITd/v) and commissures, as well as lineages BAlv, 3MD, 3MX and 3LB are rendered in gray; sensory nerves and sensory neuropil domains are color-coded following the same key used in previous models and schamtics. Arrow in (a, b) points at commissural component of VMSC neuropil located in maxillary neuromere. Small arrowheads in (b) demarcate boundary between labium and first thoracic neuromere where subesophageal ganglion will be separated from thoracic ganglia during metamorphosis. Large arrowheads in (a) demarcate commissural part of AMMC that crosses the midline in the centromedial plate (CMP of maxillary neuromere. For abbreviations, see List of Abbreviations.

Article Snippet: Most afferents, presumably formed by external sensilla and multidendritic neurons, occupy the ventromedial column of the VNC neuropil (“ventromedial sensory column” (VMSC); ; ; represented as a digital 3D model in ; for definition of columnar neuropil domains see accompanying paper by Hartenstein et al., 2017).

Techniques: