A hierarchical workflow is configured to associate examination information captured using an imaging platform with contextual metadata. The examination information may include ultrasound image data, which may be associated with annotations, measurements, pathology, body markers, and/or the like. The hierarchical workflow may comprise templates associated with respective anatomical regions, locations, volumes, and/or surfaces. A template may define configuration data to automatically adapt the imaging platform to capture imaging data in the corresponding anatomical region. The template may further include guidance information for the operator, including processing steps for capturing relevant examination information. Additional examination information may be captured and included in the hierarchical workflow.

Various methods and systems are provided for a medical imaging system. In one embodiment, a method includes acquiring a series of medical images of a lung, identifying a pleural line in each medical image of the series, evaluating the pleural line for irregularities in each medical image of the series, and outputting an annotated version of each medical image of the series, the annotated version including visual markers for healthy pleura and irregular pleura. In this way, an operator of the medical imaging system may be alerted to pleural irregularities during a scan.

A medical scan assisted review system is operable to receive, via a network, a medical scan for review. Abnormality data is generated by identifying a plurality of abnormalities in the medical scan by utilizing a computer vision model that is trained on a plurality of training medical scans. The abnormality data includes location data and classification data for each of the plurality of abnormalities. Text describing each of the plurality of abnormalities is generated based on the abnormality data. The abnormality data and the text is transmitted to a client device. A display device associated with the client device displays the abnormality data in conjunction with the medical scan via an interactive interface, and the display device further displays the text via the interactive interface.

An ultrasound diagnostic system (1) includes an ultrasound probe (2), a handheld type diagnostic apparatus main body (3), and a server (4), the ultrasound probe (2) includes a position sensor (14) that detects a measurement position of the ultrasound probe (2), the diagnostic apparatus main body (3) includes an image generation unit (22) that generates an ultrasound image and a monitor (24), the server (4) detects an organ of a subject by analyzing the ultrasound image and calculates a score of the measurement position with respect to an optimum position in a case of measuring the detected organ by the ultrasound probe (2), and the score is transmitted from the server (4) to the diagnostic apparatus main body (3) and displayed on the monitor (24).

Various methods and systems are provided for graphical grading of medical findings during a diagnostic imaging exam. In one example, a method includes displaying an acquired medical image on a display area of a display device, displaying a virtual anatomical diagram on the display area adjacent to the ultrasound medical image, responsive to selection of an anatomical region from the anatomical diagram, displaying a plurality of icons representing graded diagnostic findings associated with the anatomical region, and responsive to selection of an icon of the plurality of icons, storing the ultrasound medical image in permanent memory.

In an ultrasound system and a control method of the ultrasound system, a first position of an ultrasound probe on a nipple of a subject and a second position of the ultrasound probe on epidermis above a region of interest in a three-dimensional space are acquired, and the region of interest and the epidermis in an ultrasound image are specified. A first linear distance L1 from the first position to the second position in the three-dimensional space and a second linear distance L2 from the region of interest to the epidermis above the region of interest in the ultrasound image are calculated. Then, a third linear distance L3 from the nipple to the region of interest in the ultrasound image is calculated on the basis of the first linear distance L1 and the second linear distance L2.

An ultrasound system (1) includes an ultrasound probe (2); an image generation unit (22) that generates two-dimensional ultrasound images of a plurality of frames in which a region of interest of a breast of a subject is imaged by performing transmission and reception of an ultrasound beam with respect to the subject using the ultrasound probe (2); a volume rendering image generation unit (26) that generates a volume rendering image including the region of interest on the basis of the two-dimensional ultrasound images of the plurality of frames; and a reference information linking unit (27) that links the volume rendering image to reference information regarding the region of interest.

An ultrasound imaging system includes a transducer array with at least one transducer element. The system further includes an echo processor that processes ultrasound echo signals received by at least one transducer element, producing an image of scanned tissue of interest. The system further includes memory that stores a plurality of 3D pictogram, each representing different anatomical regions of a subject. The system further includes a pictogram processor that identifies a 3D pictogram of the plurality of 3D pictogram corresponding to the scanned tissue of interest. The 3D pictogram includes a 3D pictorial representation of an anatomical region including the scanned tissue of interest. The system further includes a display monitor. The system further includes a rendering engine that displays the image and the 3D pictogram via the display monitor. The 3D pictogram is overlaid over a pictogram region of the displayed image.

A method of evaluating a vessel of a patient is provided. The method includes outputting, to a display device, a screen display including: a visualization based on pressure measurements obtained from a first instrument and a second instrument positioned within the vessel of the patient while the second instrument is moved longitudinally through the vessel and the first instrument remains stationary within the vessel; and a visual representation of a vessel; receiving a user input to modify the visualization to simulate a therapeutic procedure; and updating the screen display, in response to the user input, including modifying the visualization based on the user input. A system for evaluating a vessel of a patient is also provided. The system includes first and second instruments sized and shaped for introduction into the vessel of the patient; and a processing system communicatively coupled to the first and second instruments and a display device.

An ultrasound imaging apparatus (10) for segmenting an anatomical object in a field of view (29) of an ultrasound acquisition unit (14) is disclosed. The ultrasound imaging apparatus comprises a data interface (32) configured to receive a two-dimensional ultrasound data (30) of the object in the field of view in an image plane from the ultrasound acquisition unit and to receive a three-dimensional segmentation model (46) as a three-dimensional representation of the object from a segmentation unit (36). An image processor (34) is configured to determine a two-dimensional segmentation model (50) on the basis of the three-dimensional segmentation model and a segmentation plane (48), wherein the segmentation plane and an image plane of the two-dimensional ultrasound data correspond to each other. The image processor is configured to adapt a contour of the two-dimensional segmentation model to the two-dimensional ultrasound data on the basis of pattern detection and where the image processor is configured to provide annotated two-dimensional image data (42) on the basis of the two-dimensional ultrasound data and the adapted segmentation model aligned to the two-dimensional ultrasound data.