Hepatica (Hepatica v1) is a post-processing medical device software that present
Hepatica (Hepatica v1) is a post-processing medical device software that presents quantified metrics which may contribute to the assessment of a patient’s liver health.Hepatica (Hepatica v1) uses image visualisation and analysis tools to process DICOM 3.0 compliant magnetic resonance image datasets to produce semi-automatic segmented 3D models of the liver based on the work of Couinaud and the Brisbane 2000 terminology. For each identified Couinaud segment, volumetric data is determined and reported. Hepatica (Hepatica v1) may also report iron corrected-T1 (cT1) and PDFF calculated using the IDEAL methodfrom multi-slice acquisitions, on a per segment basis, over the whole liver. Both metrics present numerical values of different fundamental liver tissue characteristics that can be used as measures of liver tissue health.Hepatica (Hepatica v1) provides trained clinicians with additional information to evaluate the volume and health of a patient’s liver on a segmental basis. It is not intended to replace the established procedures for the assessment of a patient’s liver health. However, information gathered through existing diagnostic tests, clinical evaluation of the patient, as well Hepatica(Hepatica v1), may support surgical decision making.
MRCP+v1 is indicated for use as a software-based image processing system for non
MRCP+v1 is indicated for use as a software-based image processing system for non-invasive, quantitative assessment of biliary system structures by facilitating the generation, visualisation and review of three-dimensional quantitative biliary system models and anatomical image data.MRCP+v1 calculates quantitative three-dimensional biliary system models that enable measurement of bile duct widths and automatic detection of regions of variation (ROV) of tubular structures. MRCP+v1 includes tools for interactive segmentation and labelling of the biliary system and tubular structures. MRCP+v1 allows for regional volumetric analysis of segmented tree-like, tubular structures and the gallbladder.Combining image viewing, processing and reporting tools, the metrics provided is designed to support physicians in the visualization, evaluation and reporting of hepatobiliary structures. These models and the physical parameters derived from the models, when interpreted by a trained physician, yield information that may assist in biliary system assessment.MRCP+v1 is designed to utilize DICOM compliant MRCP datasets, acquired on supported MR scanners using supported MRCP acquisition protocols.MRCP+v1 is suitable for all patients not contra-indicated for MRI.
LiverMultiScan v5 (LMSv5) is indicated for use as a magnetic resonance diagnosti
LiverMultiScan v5 (LMSv5) is indicated for use as a magnetic resonance diagnostic device software application for non-invasive liver evaluation that enables the generation, display and review of 2D magnetic resonance medical image data and pixel maps for MR relaxation times. LMSv5 is designed to utilize DICOM 3.0 compliant magnetic resonance image datasets, acquired from compatible MR Systems, to display the internal structure of the abdomen including the liver. Other physical parameters derived from the images may also be produced. LMSv5 provides several tools, such as automated liver segmentation and region of interest (ROI) placements, to be used for the assessment of selected regions of an image. Quantitative assessment of selected regions includes the determination of triglyceride fat fraction in the liver (PDFF), T2*, LIC (Liver Iron Concentration) and iron corrected T1 (cT1) measurements. These images and the physical parameters derived from the images, when interpreted by a trained clinician, yield information that may assist in diagnosis.
LiverMultiScan (LMSv4) is indicated for use as a magnetic resonance diagnostic d
LiverMultiScan (LMSv4) is indicated for use as a magnetic resonance diagnostic device software application for non-invasive liver evaluation that enables the generation, display and review of 2D magnetic resonance medical image data and pixel maps for MR relaxation times. LiverMultiScan (LMSv4) is designed to utilize DICOM 3.0 compliant magnetic resonance image datasets, acquired from compatible MR Systems, to display the internal structure of the abdomen including the liver. Other physical parameters derived from the images may also be produced. LiverMultiScan (LMSv4) provides a number of tools, such as automated liver segmentation and region of interest (ROI) placements, to be used for the assessment of selected regions of an image. Quantitative assessment of selected regions includes the determination of triglyceride fat fraction in the liver (PDFF), T2* and iron-corrected T1 (cT1) measurements. T2* may optionally be computed using the DIXON or LMS MOST methodologies. These images and the physical parameters derived from the images, when interpreted by a trained clinician, yield information that may assist in diagnosis.
LiverMultiScan (LMSv3) is indicated for use as a magnetic resonance diagnostic d
LiverMultiScan (LMSv3) is indicated for use as a magnetic resonance diagnostic device software application for non-invasive liver evaluation that enables the generation, display and review of 2D magnetic resonance medical image data and pixel maps for MR relaxation times. LiverMultiScan (LMSv3) is designed to utilize DICOM 3.0 compliant magnetic resonance image datasets, acquired from compatible MR Systems, to display the internal structure of the abdomen including the liver. Other physical parameters derived from the images may also be produced. LiverMultiScan (LMSv3) provides a number of tools, such as automated liver segmentation and region of interest (ROI) placements, to be used for the assessment of selected regions of an image. Quantitative assessment of selected regions includes the determination of triglyceride fat fraction in the liver (PDFF), T2* and iron-corrected T1 (cT1) measurements. PDFF may optionally be computed using the LMS IDEAL or three-point Dixon methodology.These images and the physical parameters derived from the images, when interpreted by a trained clinician, yield information that may assist in diagnosis.
LiverMultiScan (LMSv3) is indicated for use as a magnetic resonance diagnostic d
LiverMultiScan (LMSv3) is indicated for use as a magnetic resonance diagnostic device software application for non-invasive liver evaluation that enables the generation, display and review of 2D magnetic resonance medical image data and pixel maps for MR relaxation times. LiverMultiScan (LMSv3) is designed to utilize DICOM 3.0 compliant magnetic resonance image datasets, acquired from compatible MR Systems, to display the internal structure of the abdomen including the liver. Other physical parameters derived from the images may also be produced. LiverMultiScan (LMSv3) provides a number of tools, such as automated liver segmentation and region of interest (ROI) placements, to be used for the assessment of selected regions of an image. Quantitative assessment of selected regions includes the determination of triglyceride fat fraction in the liver (PDFF), T2* and iron-corrected T1 (cT1) measurements. PDFF may optionally be computed using the LMS IDEAL or three-point Dixon methodology.These images and the physical parameters derived from the images, when interpreted by a trained clinician, yield information that may assist in diagnosis.
LiverMultiScan (LMSv3) is indicated for use as a magnetic resonance diagnostic d
LiverMultiScan (LMSv3) is indicated for use as a magnetic resonance diagnostic device software application for non-invasive liver evaluation that enables the generation, display and review of 2D magnetic resonance medical image data and pixel maps for MR relaxation times. LiverMultiScan (LMSv3) is designed to utilize DICOM 3.0 compliant magnetic resonance image datasets, acquired from compatible MR Systems, to display the internal structure of the abdomen including the liver. Other physical parameters derived from the images may also be produced. LiverMultiScan (LMSv3) provides a number of tools, such as automated liver segmentation and region of interest (ROI) placements, to be used for the assessment of selected regions of an image. Quantitative assessment of selected regions includes the determination of triglyceride fat fraction in the liver (PDFF), T2* and iron-corrected T1 (cT1) measurements. PDFF may optionally be computed using the LMS IDEAL or three-point Dixon methodology.These images and the physical parameters derived from the images, when interpreted by a trained clinician, yield information that may assist in diagnosis.
LiverMultiScan (LMSv3) is indicated for use as a magnetic resonance diagnostic d
LiverMultiScan (LMSv3) is indicated for use as a magnetic resonance diagnostic device software application for non-invasive liver evaluation that enables the generation, display and review of 2D magnetic resonance medical image data and pixel maps for MR relaxation times. LiverMultiScan (LMSv3) is designed to utilize DICOM 3.0 compliant magnetic resonance image datasets, acquired from compatible MR Systems, to display the internal structure of the abdomen including the liver. Other physical parameters derived from the images may also be produced. LiverMultiScan (LMSv3) provides a number of tools, such as automated liver segmentation and region of interest (ROI) placements, to be used for the assessment of selected regions of an image. Quantitative assessment of selected regions includes the determination of triglyceride fat fraction in the liver (PDFF), T2* and iron-corrected T1 (cT1) measurements. PDFF may optionally be computed using the LMS IDEAL or three-point Dixon methodology.These images and the physical parameters derived from the images, when interpreted by a trained clinician, yield information that may assist in diagnosis.
LiverMultiScan (LMSv3) is a standalone software device. The purpose of the Liver
LiverMultiScan (LMSv3) is a standalone software device. The purpose of the LiverMultiScan (LMSv3) device is to assist the trained operator with the evaluation of information from Magnetic Resonance (MR) images from a single time-point (patient visit). The LiverMultiScan (LMSv3) is a post-processing software device, a trained operator uses tools such as automatic liver segmentation and region of interest placement upon previously acquired MR images, from which a summary report is generated. The summary report is then sent to an interpreting clinician.The interpreting clinician needs to take into consideration the device’s limitations and accuracy during clinical interpretation.LiverMultiScan (LMSv3) is not intended to replace the established procedures for the assessment of a patients liver health by an interpreting clinician, providing many opportunities for competent human intervention in the interpretation of images and information displayed.The device is intended to be used by a trained operator to generate metrics for subsequent interpretation by a clinician.The metrics are intended to be used as an additional diagnostic input to provide information to clinicians as part of a wider diagnostic process. It is expected that in the normal course of liver disease diagnosis, patients will present with clinical symptoms or risk factors which may indicate liver disease.Liver function tests, blood tests, ultrasound scanning as well as liver biopsy are all expected to be used at the discretion of a qualified clinician in addition to information obtained from the use of LiverMultiScan (LMSv3) metrics. The purpose of a LiverMultiScan (LMSv3) metrics is to provide imaging information to assist in characterizing tissue in the liver, which are additional to existing methods for obtaining information relating to the liver. LiverMultiScan (LMSv3) metrics are not intended to replace any existing diagnostic source of information, but can be used to identify patients who
LiverMultiScan is a standalone software device. The purpose of the LiverMultiSca
LiverMultiScan is a standalone software device. The purpose of the LiverMultiScan device is to assist the trained operator with the evaluation of information from Magnetic Resonance (MR) images from a single time-point (patient visit). A trained operator places circular regions of interest drawn upon previously acquired MR images, from which a summary report is generated. The summary report is sent to an interpreting clinician. LiverMultiScan does not replace the usual procedures for assessment of the liver by an interpreting clinician, providing many opportunities for competent human intervention in the interpretation of images and information displayed. The metrics are intended to be used as an additional diagnostic input to provide information to clinicians as part of a wider diagnostic process. It is expected that in the normal course of liver disease diagnosis, patients will present with clinical symptoms or risk factors which may indicate liver disease.Liver function tests, blood tests, ultrasound scanning as well as liver biopsy are all expected to be used at the discretion of a qualified clinician in addition to information obtained from the use of LiverMultiScan metrics. The purpose of LiverMultiScan metrics are to provide imaging information to assist in characterising tissue in the liver, which is additional to existing methods for obtaining information relating to the liver. LiverMultiScan metrics do not replace any existing diagnostic source of information, but can be used to identify patients who may benefit most from further evaluation, including biopsy. Information gathered through existing diagnostic tests and clinical evaluation of the patient, as well as information obtained from LiverMultiScan metrics, may contribute to a diagnostic decision.
LiverMultiScan is a standalone software device. The purpose of the LiverMultiSca
LiverMultiScan is a standalone software device. The purpose of the LiverMultiScan device is to assist the trained operator with the evaluation of information from Magnetic Resonance (MR) images from a single time-point (patient visit). A trained operator places circular regions of interest drawn upon previously acquired MR images, from which a summary report is generated. The summary report is sent to an interpreting clinician. LiverMultiScan does not replace the usual procedures for assessment of the liver by an interpreting clinician, providing many opportunities for competent human intervention in the interpretation of images and information displayed. The metrics are intended to be used as an additional diagnostic input to provide information to clinicians as part of a wider diagnostic process. It is expected that in the normal course of liver disease diagnosis, patients will present with clinical symptoms or risk factors which may indicate liver disease.Liver function tests, blood tests, ultrasound scanning as well as liver biopsy are all expected to be used at the discretion of a qualified clinician in addition to information obtained from the use of LiverMultiScan metrics. The purpose of LiverMultiScan metrics are to provide imaging information to assist in characterising tissue in the liver, which is additional to existing methods for obtaining information relating to the liver. LiverMultiScan metrics do not replace any existing diagnostic source of information, but can be used to identify patients who may benefit most from further evaluation, including biopsy. Information gathered through existing diagnostic tests and clinical evaluation of the patient, as well as information obtained from LiverMultiScan metrics, may contribute to a diagnostic decision.
OPSInsight™ is intended for use as preoperative surgical planning software to ai
OPSInsight™ is intended for use as preoperative surgical planning software to aid orthopaedic surgeons in component selection, sizing and placement for primary total hip arthroplasty.
The Knee OsteoArthritis Labeling Assistant (KOALA) software provides metric meas
The Knee OsteoArthritis Labeling Assistant (KOALA) software provides metric measurements of the joint space width and indicators for presence or absence of radiographic features of osteoarthritis (OA) on posterior-anterior or anterior-posterior (PA/AP) knee X-ray images. The outputs aid clinical professionals who are interested in the analysis of knee OA in adult patients, either suffering from knee OA or having an elevated risk of developing the disease. Outputs are summarized in a KOALA report that can be viewed on any FDA approved DICOM viewer workstation. KOALA operates in a Linux environment and can be deployed to be compatible with any operating system supporting the third-party software Docker. The integration environment has to support KOALA data input and output requirements. The device does not interact with the patient directly, nor does it control any life-sustaining devices.
The Knee OsteoArthritis Labeling Assistant (KOALA) software provides metric meas
The Knee OsteoArthritis Labeling Assistant (KOALA) software provides metric measurements of the joint space width and indicators for presence or absence of radiographic features of osteoarthritis (OA) on posterior-anterior or anterior-posterior (PA/AP) knee X-ray images. The outputs aid clinical professionals who are interested in the analysis of knee OA in adult patients, either suffering from knee OA or having an elevated risk of developing the disease. Outputs are summarized in a KOALA report that can be viewed on any FDA approved DICOM viewer workstation. KOALA operates in a Linux environment and can be deployed to be compatible with any operating system supporting the third-party software Docker. The integration environment has to support KOALA data input and output requirements. The device does not interact with the patient directly, nor does it control any life-sustaining devices.
QuantorView is an image viewing software dedicated DICOM images produced by imag
QuantorView is an image viewing software dedicated DICOM images produced by imaging equipment (CR, DR, CT, MRI, Ultrasound and etc). QuantorView is a high quality viewing software responsible for displaying PACS image data. It enables physicians to provide medical services by accessing image data and patient information from remote locations. It also enables the images to be stored to the local database of your personal computer allowing database management to operate efficiently. Physicians can utilize the software tools for researching, teaching, teleconferencing and online collaboration.
The ExamVue PACS is a software solution for the storage, sharing, display and vi
The ExamVue PACS is a software solution for the storage, sharing, display and viewing for diagnosis of medical images. It consists of two software components, a central database and server software that holds, receives and distributes images, and a viewer program that can be installed on multiple computers for viewing, modifying, making measurements on, and displaying the images in the database.
The ExamVue PACS is a software solution for the storage, sharing, display and vi
The ExamVue PACS is a software solution for the storage, sharing, display and viewing for diagnosis of medical images. It consists of two software components, a central database and server software that holds, receives and distributes images, and a viewer program that can be installed on multiple computers for viewing, modifying, making measurements on, and displaying the images in the database.
VARO Plan Software is a stand-alone Windows-based software application to suppor
VARO Plan Software is a stand-alone Windows-based software application to support the treatment planning for dental implantation. It is designed for qualified dental practitioners, including dentists and lab technicians. The software imports the medical image dataset of the patient in DICOM format from medical CT or dental CBCT scanners for pre-operative planning and simulation of dental placement. It is intended for use as pre-operative planning software for the placement of dental implant(s) based on imported CT image data, optionally aligned to an optical 3D surface scan. Virtual Crowns can be used for optimized implant positioning under the prosthetic aspect. The digital three dimensional model of a surgical guide for a guided surgery can be designed based on the approved implant position. This 3D data can be exported to manufacture a separate physical product. Indications of the dental implants do not change with guided surgery compared to conventional surgery. Use of the software requires that the user has the necessary medical training in implantology and surgical dentistry.
DentiqAir is a software application for the visualization and segmentation of im
DentiqAir is a software application for the visualization and segmentation of imaging information of the oral-maxillofacial region. The imaging data originates from medical scanners such as CT or CBCT scanners. The software is intended to create design outputs to fabricate intraoral mandibular advancement devices used for the reduction of snoring. The dental professionals' planning data may be exported from DentiqAir and used as input data for CAD or Rapid Prototyping Systems. Output of DentiqAir has not been 510(k) cleared yet. The export of the device design file should only be sent to manufacturer who hold a 510(k) for intraoral mandibular advancement devices using DentiqAir software. The manufacture of the device should occur as per the design specifications provided within the 510(k) clearance.
DentiqGuide is a software device used to pre-operatively plan the placement of a
DentiqGuide is a software device used to pre-operatively plan the placement of a dental implant and to visualize a patient’s CT image optionally aligned to an optical 3D surface data. Virtual crowns can be used to guide the planning under the final prosthetic aspect. The surgical guide data can be designed then exported to an external system for manufacturing. Key Lock.
Dentiq3D is a 3D visualization software for the analysis of various dental CT da
Dentiq3D is a 3D visualization software for the analysis of various dental CT data. Dentiq3D provides intuitive and real-time 3D volume processing functions.
EzDent-i is dental imaging software that is intended to provide diagnostic tools
EzDent-i is dental imaging software that is intended to provide diagnostic tools for maxillofacial radiographic imaging. These tools are available to view and interpret a series of DICOM compliant dental radiology images and are meant to be used by trained medical professionals such as radiologist and dentist. EzDent-i is intended for use as software to acquire, view, save 2D image files, and load DICOM project files from panorama, cephalometric, and intra-oral imaging equipment.
Ez3D-i is dental imaging software that is intended to provide diagnostic tools f
Ez3D-i is dental imaging software that is intended to provide diagnostic tools for maxillofacial radiographic imaging. These tools are available to view and interpret a series of DICOM compliant dental radiology images and are meant to be used by trained medical professionals such as radiologist and dentist. Ez3D-i is intended for use as software to load, view and save DICOM images from CT, panorama, cephalometric and intraoral imaging equipment and to provide 3D visualization, 2D analysis, in various MPR (Multi-Planar Reconstruction) functions.