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This approach has not yet been used in rhinosinusology or otorhinolaryngology, and to our Years (e.g., FESS, NESS, and robotic surgery) has enabled surgeons to demonstrate spatialĪnatomic elements in the operating field, which was quite inconceivable before. Per viam our personalized contactless “in the air” surgeon’s commands.Ĭonclusion: The use of modern technologies in head and neck surgery in the last 30 Results: Management of image 2D-3D-video-medical documentation, as well as theĬontrol of marker-based virtual reality simulation in real time during real operation with Integrating speech recognition as a VC solution, in an original way. Users to use LM-sensor as an interface for camera positioning in 3DVR and VE views, and With the application of our original special plug-in application for OsiriX platform, enabling Methods: Simultaneous use of video image, 3D anatomic fields and navigation in space, Safety, reduction of operating time, as well as the length of patient postoperative recovery. Hand-gesture non-invasive surgeon-computer interaction, with higher intraoperative
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Name the coronal reconstruction 'T-Coronal.jpg'.Purpose: We were focused on the development of personal-3D-navigation system andĪpplication of augmented reality in the operating room per viam personalized contactless Name the meridian reconstruction 'T-Meridian.jpg'.
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jpg files in the same way as the axial, equatorial and sagittal images.
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lower left quadrant), translate the blue line away from the equator to create a coronal reconstruction (upper right quadrant) that also intersects the tumor apex. In this example it is the lower left quadrant. The meridian reconstruction will appear in either the the upper left or lower left quadrant depending upon how far you rotate the crosshairs in the coronal pane. Rotate the crosshairs in the coronal reconstruction pane to create a meridian reconstruction that intersects the tumor apex.
ADJUSTING IMAGE RESOLUTION ON OSIRIX MD SIMULATOR
OsiriX: Preparing meridian and coronal reconstructions through the tumor apex for export to Plaque Simulator The axial meridian image is required by PS, the sagittal meridian and equatorial planes are optional but useful. Save the coronal and sagittal images in the same way.jpg settings and save the file in the patient's folder. somewhere in Documents:Plaque Simulator Patients:). Navigate the file save dialog to find the folder you previously created for the patient (e.g.In this tutorial, however, we will assume you are working with a set of transaxial CT images that cover the orbit at Export > Export to JPEG See the OsiriX documentation for assigning an AETitle and other DICOM networking issues. Osirix is a comprehensive MacOSX DICOM listener client that can receive images over your local network.Steps for preparing reconstructions for Plaque Simulator Meridian plane bisecting the eye through the tumor apex.Ĭoronal plane intersecting the tumor apex. Sagittal meridian plane bisecting the eye (12 to 6 o'clock meridian on the retinal diagram) These are the planar reconstructions for Plaque Simulator that you will create using OsiriXĪxial meridian plane bisecting the eye and intersecting the optic disc (3 to 9 o'clock meridian on the retinal diagram). Launch OsiriX by clicking on the Eye of Horus icon on the dock or from the OSX Applications folder.Įxample of Plaque Simulator fusion of 3D model of eye and plaque with fundus photo and meridian CT reconstruction through the tumor apex with isodose lines.
ADJUSTING IMAGE RESOLUTION ON OSIRIX MD INSTALL
Download OsiriX and install on your MacOSX computer.These reconstructions will be imported into Plaque Simulator and used to measure the size and shape of the eye and, in conjunction with ultrasound images and fundus photos, to precisely determine the tumor size, shape and location within the eye. Other reconstructions of interest are the meridian and coronal planes which intersect the tumor apex. OsiriX is a DICOM listener and viewer that can manipulate 3-D data sets and export reconstructions of axial, equatorial and sagittal planes which bisect the affected eye as. OsiriX Tutorial OsiriX Tutorial for Plaque Simulator