CT CoPilot is intended for use in automating post-acquisition quantitative analy
CT CoPilot is intended for use in automating post-acquisition quantitative analysis of CT images of the brain for patients aged 18 or older. CT CoPilot performs automatic reformatting, labeling and quantification of segmentable structures from a set of CT images of the brain. Output of the software provides these values as numerical volumes and images which have been annotated with graphical color overlays, with each color representing a specific brain structure. When CT imaging is performed more than once on a patient, the current data is co-registered to the most recently processed prior exam of the same patient, facilitating comparison between the studies using CT CoPilot. Voxel-by-voxel subtraction maps of the pixel density change in Hounsfield Units (HU) are generated in up to 3 dimensions between the current and most recent processed prior exam of the patient.
HeartPro is a web-accessible, self-contained image analysis software application
HeartPro is a web-accessible, self-contained image analysis software application that analyzes DICOM-compliant cardiovascular images acquired from magnetic resonance (MR) scanners. HeartPro specifically analyzes the blood flow to the heart and its major vessels using multi-slice, multi-phase and velocity encoded MR images.
HeartPro is a web-accessible, self-contained image analysis software application
HeartPro is a web-accessible, self-contained image analysis software application that analyzes DICOM-compliant cardiovascular images acquired from magnetic resonance (MR) scanners. HeartPro specifically analyzes the blood flow to the heart and its major vessels using multi-slice, multi-phase and velocity encoded MR images.
The product mint Lesion helps qualified radiologists with the image-based diagno
The product mint Lesion helps qualified radiologists with the image-based diagnosis and treatment response assessment of oncological diseases. Fields of application are radiological diagnosis and follow-up examinations in oncology, as well as clinical or pharmaceutical drug trials across a defined group of patients. mint Lesion implements various radiological guidelines and response evaluation criteria, such as RECIST (Response Evaluation Criteria In Solid Tumors). This also includes the assessment of the stage of oncological disease (staging) and the objective response to therapy (e.g. timepoint response / overall response). The timepoint response is an empirical measure to evaluate therapy success according to the response criteria in use. It is mainly used to assess patient cohorts in the course of clinical trials of novel therapy agents. The timepoint response may differ from a radiological assessment of response to therapy and must not be used as a surrogate. mint Lesion allows for the documentation of size and assessment of changes in size of solid tumors described by the respective criteria that are monitored by means of radiological imaging (computed tomography (CT), magnetic resonance imaging (MRI), nuclear medicine (PET, NM), digital radiography (XR, CR)). mint Lesion follows the typical workflow of follow-up examinations, from assessment to reporting, and enables the integration of a clinical-radiological software environment (PACS, Picture Archiving and Communication System). Assessment results can be exported into different electronical formats and processed further by other applications.