IntelliSpace PACS is an image management system intended to be used by trained p
IntelliSpace PACS is an image management system intended to be used by trained professionals, including but not limited to physicians, nurses and medical technicians. The system is a software package used with general purpose computing hardware to acquire, store, distribute, process and display images and associated data throughout a clinical environment. The software performs digital image processing, measurement, communication and storage. Lossy compressed mammographic images and digitized screen images must not be reviewed for primary image interpretations. Mammographic images may only be interpreted using an FDA approved monitor that offers at least 5 Mpixel resolution and meets other technical specifications reviewed and accepted by FDA.
Philips IntelliSpace Clinical Applications is an image processing workstation so
Philips IntelliSpace Clinical Applications is an image processing workstation software package designed to run on standard PC hardware. The hardware required is made up of "off-the-shelf" standard computer components. Philips IntelliSpace Clinical Applications software receives image data from medical scanning devices, such as CT and MRI, or from image archives. Philips IntelliSpace Clinical Applications performs viewing, image manipulation, communication, printing, and quantification of images.
Fusion Bx 2.0 is designed to display the 2D live video received from commerciall
Fusion Bx 2.0 is designed to display the 2D live video received from commercially available ultrasound machines and use this 2D video to reconstruct a 3D ultrasound image volume. The system is designed to work with clinicians’ existing ultrasound machines, transrectal ultrasound (TRUS) probes, commercially available needles, needle guides/templates and needle gun combination. Additional software features include patient data management, multi-planar reconstruction, segmentation, image measurements and 3D image registration. Fusion Bx 2.0 offers the physician additional 3D information for assessing prostate abnormalities, planning and implementing biopsy procedures. The additional image processing features are generated with minimal changes to previous TRUS probe-based procedures, and the physician always has access to the live 2D ultrasound image during prostate assessment or biopsy procedure.
Fusion Bx is designed to display the 2D live video received from commercially av
Fusion Bx is designed to display the 2D live video received from commercially available ultrasound machines and use this 2D video to reconstruct a 3D ultrasound image volume. The system is designed to work with clinicians’ existing ultrasound machines, transrectal ultrasound (TRUS) probes, commercially available needles, needle guides/templates and needle gun combination. Additional software features include patient data management, multi-planar reconstruction, segmentation, image measurements and 3D image registration. The device will assist clinicians in planning and performing image-guided interventional procedures such as biopsies and placing instruments in the prostate for adult men with suspected prostate cancer.Fusion Bx is comprised of a laptop-based workstation and a hardware assembly. The included hardware consists of a frame grabber, encoder converter, hardware arm (comprising of a swing arm, counterbalance, tracker and stepper), and stand. The stepper holds the ultrasound probe and measures probe position while the physician performs a normal ultrasound imaging procedure of the subject prostate. Encoders in the stepper and tracker send joint movement information to the computer workstation which tracks probe position and orientation. Control of the ultrasound probe and ultrasound system is done manually by the physician, just as it would be in the absence of Fusion Bx. However, by tracking the position and orientation of the ultrasound probe while capturing the video image, the workstation is able to reconstruct and display a 3D image and 3D rendered surface model of the prostate and to display the live image position within the prostate.
Limbus Contour is a stand-alone software medical device. It is a single purposes
Limbus Contour is a stand-alone software medical device. It is a single purposes cross-platform application for automatic contouring (segmentation) of CT/MRI DICOM images via pre-trained and expert curated machine learning models. The software is intended to be used by trained medical professionals to derive contours for input to radiation treatment planning. The Limbus Contour software segments normal tissues using machine learning models and further post-processing on machine learning model prediction outputs. Limbus Contour does not display or store DICOM images and relies on existing radiotherapy treatment planning systems (TPS) and DICOM image viewers for display and modification of generated segmentations. Limbus Contour interfaces with the user’s operating system file system (importing DICOM image .dcm files and exporting segmented DICOM RT-Structure Set .dcm files).
Limbus Contour is a stand-alone software medical device. It is a single purposes
Limbus Contour is a stand-alone software medical device. It is a single purposes cross-platform application for automatic contouring (segmentation) of CT/MRI DICOM images via pre-trained and expert curated machine learning models. The software is intended to be used by trained medical professionals to derive contours for input to radiation treatment planning. The Limbus Contour software segments normal tissues using machine learning models and further post-processing on machine learning model prediction outputs. Limbus Contour does not display or store DICOM images and relies on existing radiotherapy treatment planning systems (TPS) and DICOM image viewers for display and modification of generated segmentations. Limbus Contour interfaces with the user’s operating system file system (importing DICOM image .dcm files and exporting segmented DICOM RT-Structure Set .dcm files).
Limbus Contour is a stand-alone software medical device. It is a single purposes
Limbus Contour is a stand-alone software medical device. It is a single purposes cross-platform application for automatic contouring (segmentation) of CT/MRI DICOM images via pre-trained and expert curated machine learning models. The software is intended to be used by trained medical professionals to derive contours for input to radiation treatment planning. The Limbus Contour software segments normal tissues using machine learning models and further post-processing on machine learning model prediction outputs. Limbus Contour does not display or store DICOM images and relies on existing radiotherapy treatment planning systems (TPS) and DICOM image viewers for display and modification of generated segmentations. Limbus Contour interfaces with the user’s operating system file system (importing DICOM image .dcm files and exporting segmented DICOM RT-Structure Set .dcm files).