Abstract: Various methods and systems are provided for a medical imaging system. In one embodiment, a method includes generating a three-dimensional (3D) pleural surface viewed from an inside of the lung and looking outward based on ultrasound imaging signals. The 3D pleural surface may be generated from 2D or 3D ultrasound images. The method further comprises shading the generated 3D pleural surface via at least one virtual light source positioned as if inside the lung.

Abstract: Various methods and systems are provided for a medical imaging system. In one embodiment, a method for generating a dynamic, three-dimensional (3D) ultrasound image comprises acquiring dynamic 3D ultrasound image data, generating a plurality of 3D rib space segments from the dynamic 3D ultrasound data, generating a dynamic panoramic 3D ultrasound image depicting the plurality of dynamic 3D rib space segments in an anatomical order, temporally synchronizing the plurality of dynamic 3D rib space segments, and outputting the dynamic panoramic 3D ultrasound image for display.

Abstract: Systems and methods for acquiring a target ultrasound image comprising acquiring an ultrasound image, processing the ultrasound image to identify a location of the ultrasound probe relative to the target view, presenting the ultrasound image and the reference target view image, wherein the ultrasound image is presented at a first position relative to a second position on the display system of the reference target view image, and wherein the first position and the second position provide feedback for moving the ultrasound probe to acquire the target ultrasound image having the target view, tracking the location of the ultrasound probe relative to the target view in one or more subsequently acquired ultrasound images, and updating the first position on the display system based on the location of the ultrasound probe.

Abstract: Various methods and systems are provided for imaging a needle using an ultrasound imager. In one example, a method may include receiving a target path or a target area of a needle, and adjusting a steering angle of an ultrasound beam emitted from an ultrasound probe based on the target path or the target area.

Abstract: An ultrasound imaging system and method for determining a measurement of an optic nerve sheath are provided. The ultrasound imaging system and method may include controlling an ultrasound probe to acquire three-dimensional (3D) ultrasound data of the optic nerve sheath. The ultrasound imaging system and method may include determining the measurement of the optic nerve sheath based on the 3D ultrasound data. The ultrasound imaging system and method may include controlling the display to display information related to the measurement of the optic nerve sheath.

Abstract: Various methods and systems are provided for a medical imaging system. In one embodiment, a method includes generating a three-dimensional (3D) pleural surface viewed from an inside of the lung and looking outward based on ultrasound imaging signals. The 3D pleural surface may be generated from 2D or 3D ultrasound images. The method further comprises shading the generated 3D pleural surface via at least one virtual light source positioned as if inside the lung.

Abstract: A system and method for dynamically adjusting imaging parameters during an ultrasound scan is provided. The method includes acquiring regular ultrasound image frames based on a first set of imaging parameters and displaying the regular frames at a display system. The method includes intermittently acquiring a test ultrasound image frame based on a second set of imaging parameters having at least one imaging parameter that is different from the first set of imaging parameters. The test frame is not displayed. The method includes determining a regular frame image quality of at least one of the regular frames and a test frame image quality of the test frame. The method includes applying, in response to determining the test frame image quality exceeds the regular frame image quality, the second set of imaging parameters to acquire additional regular frames and displaying the additional regular frames at the display system.

Abstract: Systems and methods are provided for ultrasound imaging with real-time feedback for cardiopulmonary resuscitation (CPR) compressions. Ultrasound images generated based on received echo ultrasound signals during cardiopulmonary resuscitation (CPR) of a patient may be processed, and based on the processing of the ultrasound images, real-time information relating to the cardiopulmonary resuscitation (CPR) may be determined. Feedback for assisting in conducting the cardiopulmonary resuscitation (CPR) may be generated based on the information. The feedback may include information and/or indications relating to compressions applied during the cardiopulmonary resuscitation (CPR). The feedback may be configured for outputting during displaying of the generated ultrasound images.

Abstract: A system and method for dynamically adjusting imaging parameters during an ultrasound scan is provided. The method includes acquiring regular ultrasound image frames based on a first set of imaging parameters and displaying the regular frames at a display system. The method includes intermittently acquiring a test ultrasound image frame based on a second set of imaging parameters having at least one imaging parameter that is different from the first set of imaging parameters. The test frame is not displayed. The method includes determining a regular frame image quality of at least one of the regular frames and a test frame image quality of the test frame. The method includes applying, in response to determining the test frame image quality exceeds the regular frame image quality, the second set of imaging parameters to acquire additional regular frames and displaying the additional regular frames at the display system.

Abstract: A system and method is provided for providing an indication of viewable and non-viewable parts of an interventional device in an ultrasound image. The system includes a processing unit including a detection and recognition system configured to detect a pattern of echogenic features within ultrasound images, and a memory unit operably connected to the processing unit storing information regarding echogenic patterns on individual interventional devices. The detection and recognition system determines viewable and non-viewable parts of detected echogenic patterns in the ultrasound image by comparing the dimensions of the stored echogenic patterns with the representation of the detected echogenic patterns in the ultrasound images and positions an indicator within the ultrasound image on the display in alignment with the locations of the viewable and non-viewable parts of the detected echogenic patterns on the interventional device.

Abstract: 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.

Abstract: Methods and systems are provided for tracking anatomical features across multiple images. One example method includes outputting, for display on a display device, an annotation indicative of a first location of an identified anatomical feature of a first ultrasound image, the annotation generated based on a first output of a model and outputting, for display on the display device, an adjusted annotation based on a second output of the model, the second output of the model generated based on a second ultrasound image and further based on the first output of the model, the adjusted annotation indicative of a second location of the identified anatomical feature in the second ultrasound image.

Abstract: An ultrasound imaging system and method includes acquiring ultrasound image data of an object while translating the ultrasound probe, where the ultrasound probe includes a scanning surface. The ultrasound imaging system and method includes displaying an acquisition view during the process of acquiring the panoramic ultrasound data. The ultrasound imaging system and method includes automatically determining acoustic contact of the scanning surface with the object while acquiring the panoramic ultrasound data and displaying a color-coded indicator at the same time as the acquisition view, where the color-coded indicator represents the acoustic contact of the scanning surface in real-time during the process of acquiring the panoramic ultrasound data.

Abstract: A system and a method of ultrasound imaging includes acquiring ultrasound data, acquiring a quality parameter while acquiring the ultrasound data, determining an acquisition quality level based on the quality parameter, displaying an image generated based on the ultrasound data and displaying an ROI on the ultrasound image, where a color of the ROI represents the acquisition quality level.

Abstract: Various methods and systems for displaying cine loops during a periodic imaging session are disclosed. In one example, a method includes acquiring, with an ultrasound probe, a first set of images of an imaging subject during a first imaging period, displaying the first set of images as a first cine loop at a first display area of a display, acquiring, with the ultrasound probe, a second set of images of the imaging subject during a second imaging period different than the first imaging period, and displaying the second set of images as a second cine loop at a second display area of the display, different than the first area, while maintaining display of the first cine loop at the first display area.

Abstract: 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.

Abstract: A system and method for tracking an anatomical structure over time based on Pulsed-Wave (PW) Doppler signals of a Multi-Gated Doppler (MGD) signal is provided. The method may include identifying a gate corresponding with a selected anatomical structure. The method may include analyzing an MGD signal to track the selected anatomical structure over an extended period of time by selecting, at a plurality of sample times during the extended period of time, a PW Doppler signal from a plurality of PW Doppler signals of the MGD signal. Each of the selected PW Doppler corresponds with the selected anatomical structure at the particular sample time. The method may include presenting a continuous PW Doppler signal generated from each of the PW Doppler signals selected at each of the sample times during the extended period of time at a display system.

Abstract: An ultrasound imaging system and method includes acquiring ultrasound image data while moving an ultrasound probe, automatically identifying a plurality of segments of interest in the ultrasound image data, automatically applying temporal scaling to at least one of the plurality of segments of interest, and displaying the ultrasound image data as a panoramic view comprising a plurality of videos, where each of the plurality of videos is based on a different one of the plurality of the segments of interest, and where, based on the temporal scaling, each of the plurality of videos in the panoramic view takes the same amount of time to play.

Abstract: An ultrasound imaging system and method includes acquiring ultrasound image data of an object while translating the ultrasound probe, where the ultrasound probe includes a scanning surface. The ultrasound imaging system and method includes displaying an acquisition view during the process of acquiring the panoramic ultrasound data. The ultrasound imaging system and method includes automatically determining acoustic contact of the scanning surface with the object while acquiring the panoramic ultrasound data and displaying a color-coded indicator at the same time as the acquisition view, where the color-coded indicator represents the acoustic contact of the scanning surface in real-time during the process of acquiring the panoramic ultrasound data.

Abstract: An ultrasound imaging system and method includes acquiring ultrasound image data while moving an ultrasound probe, automatically identifying a plurality of segments of interest in the ultrasound image data, automatically applying temporal scaling to at least one of the plurality of segments of interest, and displaying the ultrasound image data as a panoramic view comprising a plurality of videos, where each of the plurality of videos is based on a different one of the plurality of the segments of interest, and where, based on the temporal scaling, each of the plurality of videos in the panoramic view takes the same amount of time to play.