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"How it works!" A simple 3D reconstruction (8MB)
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"Scatter data and artifacts" Knee reconstruction (12MB)
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Reconstruction of human brain from MRI data. Velocity2 Pro segmentation features were used to isolate the cortex, pallidum, cerebellum and brainstem. The separate structures were then rendered in Velocity2 Pro. (Data courtesy Minnesota Datametrics Corp., St. Paul, MN). |
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Plastic water bottle and bicycle helmet. Reconstructed from CT scans of the original parts. (Courtesy Lonepeak Engineering, Salt Lake City, UT). |
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The designer of this bicycle helmet first created a model of one-half of the helmet. The model was scanned in a hospital CT machine and reconstructed in Velocity2 Pro. By mirroring the half model, a complete helmet was produced. (Courtesy Javelin, Salt Lake City, UT). |
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Fractured scaphoid bone from human wrist. (Data courtesy of Dr. James Wire, Butterworth Hospital, Grand Rapids, MI). |
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Carpal bones and heads of the radius and ulna from human wrist. Scaphoid highlighted in blue. (Courtesy Lonepeak Engineering and LDS Hospital, Salt Lake City, UT). |
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Rapid prototype of human jaw. (Courtesy Javelin, Salt Lake City, UT). |
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Reconstruction of human jaw. (Courtesy Lonepeak Engineering, Salt Lake City, UT). |
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Kidneys and associated vascularture. 3D Files were exported from Velocity2 Software and image was rendered via 3D party software(Data courtesy of Dr. Jean-Claude Tasse, Technopole Universite, Le Mans, France). |
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Reconstruction of allosaurus fossil skull. Five-hundred CT scan slices. |
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Human wrist reconstruction from patient CT scan. Fractured scaphoid bone is visible in lower middle portion of the picture. (Data courtesy of LDS Hospital, Salt Lake City, Utah). |
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A plastic soap dish, varying in thickness from 1.5 to 3.5 mm, was scanned in a hospital CT scanner (approx. 200 slices). Using Velocity2 Pro, a reconstruction was made in less than 10 minutes and a prototype built on an FDM machine. (Data courtesy of Lonepeak Engineering, Salt Lake City. UT). |
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Reconstruction of CT image data of a young patient with congenital hip dysplasia (approx. 50 slices). (Data courtesy of Shriners Hospital for Children, Minneapolis, MN and Image3, LLC, Salt Lake City, UT). |
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Automobile engine cylinder head as reconstructed from industrial CT scan data. The Display program in Velocity2 Pro was used to measure volumes and surface areas of the cooling passages. (Reconstruction courtesy of Lonepeak Engineering, Salt Lake City, UT). |
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Composite of structures in human brain as reconstructed from MRI data. 3D Files were exported from Velocity2 PLUS and image was rendered via 3D party software. (Reconstruction courtesy of Javelin, Salt Lake City, UT). |
DICOM to STL, 3D Image Processing, 3D Visualization, 3D Medical Imaging, CT to STL, MRI to STL, Tissue segmentation, Bone segmentation, Computer tissue segmentation, 4D Map, 4D Feature Map, TIFF to STL, Tif to STL, Medical FEA Mesh, Gray Scale to CAD, Image data to CAD, Gray-Scale to CAD, PACS, Cone Beam CT to STL, Volume Rendering,Medical Modeling. 3D Medical Visualization. 3D Reconstruction, Medical Models, 3D Medical Software. Voxel, Anatomical CAD, Medical CAD, Surgical CAD, NIH image, Stereolithography, SLA, Rapid Prototyping, 3D doctor, Mimic, OSIRIXx, DICOM tools, DICOM conversion, 3D DICOM, Medical Rapid Prototyping