Simpleware ScanIP

[…] were segmented to create the in silico patient-specific model using a combination of automatic and manual tools [,] including both commercial and open source software: mimics (materialise, belgium), simpleware scanip (synopsis, uk), vmtklab (orobix, italy), itk-snap (www.itksnap.org []) and osirix (pixmeo, switzerland). three-dimensional anatomical volumes of the blood pool were created […]

[…] guides and surgical navigation (enlite navigation system, stryker, freiburg, germany) were employed to deliver the surgery [,]., pre- and postoperative cbct scans were imported and segmented in simpleware scanip (synopsis, mountain view, usa) to reconstruct each patient maxilla, mandible, skull base, nasal cartilage, and soft tissue (). tetrahedral meshes were created using simpleware […]

[…] approved by the ethics committee at the center for clinical research, yamaguchi university hospital (ube, japan; approval no. h29-052)., model construction was performed with fem analysis software, simpleware scanip version m-2017.06 (synopsys, inc. mountain view, ca, usa. after the spine was extracted, vertebrae were mapped into cancellous and cortical bones and the sizes of intervertebral […]

[…] the underlying variability of the specimens across the control groups. the µct images were scaled to 8-bit greyscale and specimen-specific geometries were derived using image processing tools in simpleware scanip (synopsys, mountain view, usa) with images down-sampled to an isotropic 0.5 mm resolution. as soft tissues cannot be differentiated in the µct images, a consistent protocol […]

[…] the slicing operations of the volume., this way, the 2d image stack has to be exported using a graphic format (e.g., .jpeg, .bmp, .tiff) to be processed. in our case, the chosen software was simpleware scanip, which allowed viewing, analyzing, quantifying segments, and exporting 3d images from different types of medical scans: mri ct, microtomography, ultrasound, and so on., this way, […]

[…] approximate radial thickness of actual mri slice layers (). the second model is anatomically realistic and developed using the zubal head phantom mri database (). the mri slices were imported in the simpleware scanip image processing suite to create the numerical head model. the head tissues of different type were segmented using tissues identification list provided by the phantom developer. […]