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US-12620483-B2 - Systems and methods for contrast imaging

US12620483B2US 12620483 B2US12620483 B2US 12620483B2US-12620483-B2

Abstract

Systems and methods are provided for contrast scans. In one example, a computing device is configured to display a scan interface in a prescription view on a screen and to receive user input of a contrast observation slice for tracking arrival of a contrast bolus during a contrast scan. The screen is further configured to display a scanning button that can be reached directly from the scan interface, the scanning button selectable to launch a live scanning view of the scan interface that enables live 2D images of the contrast observation slice to seen within the scan interface. The live scanning view includes a contrast tracking display panel that displays an auto-triggering button that is selectable to enable auto-triggering of post-contrast image acquisition and that displays a contrast intensity plot determined from the live 2D images.

Inventors

  • Benjamin Gray
  • Aurelie Ribet Le Deley
  • Adwait Cheoolkar
  • Timothy Voiles
  • Nick Heil

Assignees

  • GE Precision Healthcare LLC

Dates

Publication Date
20260505
Application Date
20231031

Claims (20)

  1. 1 . A computing device comprising a display screen, the computing device being configured to display on the screen a scan interface in a prescription view, and further configured to receive user input via the scan interface in the prescription view to enable prescription of a contrast observation slice for tracking arrival of a contrast bolus during a contrast scan, and additionally being configured to display on the screen a scanning button that can be reached directly from the scan interface in the prescription view, wherein the scanning button is selectable to launch a live scanning view of the scan interface that enables live 2D images of the contrast observation slice to seen within the scan interface, the live scanning view further including a contrast tracking display panel that displays an auto-triggering button that is selectable to enable auto-triggering of post-contrast image acquisition and enable a contrast intensity plot determined from the live 2D images to be seen within the contrast tracking display panel.
  2. 2 . The computing device of claim 1 , wherein the computing device is configured to command initiation of live 2D scanning in response to selection of a live scanning button of the live scanning view, wherein the live 2D scanning comprises acquisition of first imaging data with a medical imaging apparatus and reconstruction of the first imaging data into the live 2D images.
  3. 3 . The computing device of claim 2 , wherein the computing device is further configured to display on the screen, via the live scanning view of the scan interface, an injection button that is selectable to trigger measurement of contrast intensity in a trigger region of interest (ROI) of the live 2D images and generation of the contrast intensity plot.
  4. 4 . The computing device of claim 3 , wherein the computing device is configured to, responsive to selection of the auto-triggering button and selection of the injection button of the live scanning view, generate the contrast intensity plot by measuring the contrast intensity in the trigger ROI of each of the live 2D images acquired after the selection of the injection button and display the contrast intensity plot within the contrast tracking display panel.
  5. 5 . The computing device of claim 4 , wherein the computing device is configured to command initiation of the post-contrast image acquisition in response to a contrast intensity level of the contrast intensity plot reaching a threshold intensity and without further user input, wherein the post-contrast image acquisition comprises acquisition of second imaging data with the medical imaging apparatus and reconstruction of the second imaging data into one or more post-contrast images.
  6. 6 . The computing device of claim 5 , wherein the contrast tracking display panel further displays a back-up timer button that is selectable to enable commencement of a back-up timer responsive to selection of the injection button and enable a visualization of the back-up timer to be seen within the contrast tracking display panel, wherein the computing device is configured to command initiation of the post-contrast image acquisition in response to the back-up timer reaching a threshold duration.
  7. 7 . The computing device of claim 6 , wherein the medical imaging apparatus comprises a magnetic resonance imaging (MRI) apparatus.
  8. 8 . The computing device of claim 1 , wherein the live scanning view of the scan interface displays an image subtraction button that is selectable to enable an image subtraction operation to be performed on the live 2D images.
  9. 9 . The computing device of claim 1 , wherein the live scanning view of the scan interface displays a saturation button that is selectable to enable a saturation operation to be performed on the live 2D images.
  10. 10 . The computing device of claim 1 , wherein the live scanning view of the scan interface displays a contrast scan button that is selectable to trigger the post-contrast image acquisition.
  11. 11 . The computing device of claim 1 , wherein the scan interface in the prescription view includes a scan prescription display panel that displays a scan prescription for at least the post-contrast image acquisition in a timeline format.
  12. 12 . A method for a contrast scan, comprising: displaying, in a prescription view of a scan interface on a display device, a set of initial 2D images of an imaging subject; receiving, via the prescription view of the scan interface, user selection of a contrast observation slice and a trigger region of interest (ROI) on the contrast observation slice; displaying, in response to a first user input, a live scanning view of the scan interface that includes a viewport for displaying a live 2D image of the contrast observation slice and a contrast tracking display panel; updating the live 2D image in the viewport as new live 2D images are received; receiving a second user input indicating injection of a contrast agent to the imaging subject has begun, and responsive to the second user input, displaying, in the contrast tracking display panel, a live curve plotting measured contrast intensity of the trigger ROI as a function of time since the injection, while continuing to update the live 2D image of the contrast observation slice in the viewport; and commanding initiation of one or more post-contrast acquisitions responsive to any of the live curve reaching a threshold intensity, a third user input being received, and a back-up timer reaching a threshold duration.
  13. 13 . The method of claim 12 , wherein commanding initiation of the one or more post-contrast acquisitions responsive to any of the live curve reaching the threshold intensity, the third user input being received, and the back-up timer reaching the threshold duration comprises commanding initiation of the one or more post-contrast acquisitions responsive to whichever of the live curve reaching the threshold intensity, the third user input being received, and the back-up timer reaching the threshold duration occurs first in time.
  14. 14 . The method of claim 12 , further comprising: displaying, via the prescription view of the scan interface, a scan prescription display panel including an editable timeline; setting a scan prescription for at least the one or more post-contrast acquisitions via user input to the editable timeline; displaying, via the live scanning view, a visualization of the scan prescription in the scan prescription display panel; and carrying out the one or more post-contrast acquisitions according to the scan prescription.
  15. 15 . A system, comprising: a display device; one or more processors; and memory storing instructions executable by the one or more processors to: display, in a prescription view of a scan interface on the display device, a set of initial 2D images of an imaging subject; receive, via the prescription view of the scan interface, user selection of a contrast observation slice and a trigger region of interest (ROI) on the contrast observation slice; display, in response to a first user input and on the display device, a live scanning view of the scan interface that includes a viewport for displaying a live 2D image of the contrast observation slice and a contrast tracking display panel; update the live 2D image in the viewport as new live 2D images of the contrast observation slice are received; responsive to receiving a second user input indicating injection of a contrast agent to the imaging subject has begun, display, in the contrast tracking display panel, a live curve plotting measured contrast intensity of the trigger ROI as a function of time since the injection, while continuing to update the live 2D image of the contrast observation slice in the viewport; and command initiation of one or more post-contrast acquisitions responsive to any of the live curve reaching a threshold intensity, a third user input being received, and a back-up timer reaching a threshold duration.
  16. 16 . The system of claim 15 , wherein the instructions are executable to: responsive to receiving a fourth user input selecting an auto-triggering button of the scan interface and receiving a fifth user input selecting a back-up timer button of the scan interface, command initiation of the one or more post-contrast acquisitions responsive to the live curve reaching the threshold intensity unless the third user input is received before the live curve reaches the threshold intensity or unless the back-up timer reaches the threshold duration before the live curve reaches the threshold intensity.
  17. 17 . The system of claim 16 , wherein the instructions are executable to: responsive to not receiving the fourth user input selecting the auto-triggering button of the scan interface and receiving the fifth user input selecting the back-up timer button of the scan interface, command initiation of the one or more post-contrast acquisitions responsive to the third user input being received unless the back-up timer reaches the threshold duration before the third user input is received.
  18. 18 . The system of claim 15 , further comprising a magnetic resonance imaging (MRI) scanner, and wherein the instructions are further executable to: command the MRI scanner to obtain the live 2D image and the new live 2D images of the contrast observation slice; and responsive to receiving a fourth user input, via the live scanning view, adjust the contrast observation slice to a new contrast observation slice, command the MRI scanner to obtain additional new live 2D images of the new contrast observation slice, and display the additional new live 2D images of the new contrast observation slice in the viewport.
  19. 19 . The system of claim 15 , wherein the instructions are executable to acquire a baseline image and wherein the baseline image is subtracted from each live 2D image of the contrast observation slice in response to selection of an image subtraction button of the live scanning view of the scan interface.
  20. 20 . The system of claim 15 , wherein the instructions are executable to acquire each live 2D image of the contrast observation slice with a saturation pulse sequence in response to selection of a saturation button of the live scanning view of the scan interface.

Description

TECHNICAL FIELD The present description relates generally to medical imaging. More specifically, the present disclosure relates to contrast-enhanced magnetic resonance imaging. BACKGROUND Magnetic resonance imaging (MRI) is a medical imaging modality that can create images of the inside of a human body without using x-rays or other ionizing radiation. An MRI scan typically includes a series of radiofrequency (RF) excitation pulses and magnetic field gradient pulses that are played out with specific timings and in a specific sequence to prepare contrast and encode spatial information into the signal to generate an image. To enhance certain anatomical features, some MRI scans may include the administration of a contrast agent to a subject being imaged. BRIEF DESCRIPTION In one example, a computing device comprises a display screen, the computing device being configured to display on the screen a scan interface in a prescription view, and further configured to receive user input via the scan interface in the prescription view to enable prescription of a contrast observation slice for tracking arrival of a contrast bolus during a contrast scan, and additionally being configured to display on the screen a scanning button that can be reached directly from the scan interface in the prescription view, wherein the scanning button is selectable to launch a live scanning view of the scan interface that enables live 2D images of the contrast observation slice to seen within the scan interface, the live scanning view further including a contrast tracking display panel that displays an auto-triggering button that is selectable to enable auto-triggering of post-contrast image acquisition and enable a contrast intensity plot determined from the live 2D images to be seen within the contrast tracking display panel. It should be understood that the summary above is provided to introduce in simplified form a selection of concepts that are further described in the detailed description. It is not meant to identify key or essential features of the claimed subject matter, the scope of which is defined uniquely by the claims that follow the detailed description. Furthermore, the claimed subject matter is not limited to implementations that solve any disadvantages noted above or in any part of this disclosure. BRIEF DESCRIPTION OF THE DRAWINGS The present disclosure will be better understood from reading the following description of non-limiting embodiments, with reference to the attached drawings, wherein below: FIG. 1 is a block diagram of an MRI apparatus according to an embodiment of the disclosure; FIG. 2 schematically shows an example scan control device of the MRI apparatus of FIG. 1; FIG. 3 shows a timeline of events carried out by the scan control device of FIG. 2 during a contrast scan, according to embodiments of the disclosure; FIG. 4 illustrates an example scan interface in a first state during a first stage of a contrast scan; FIG. 5 illustrates the scan interface in a second state during a second stage of the contrast scan; FIG. 6 illustrates the scan interface in a third state during a third stage of the contrast scan; FIG. 7 illustrates a contrast plot and timer of the scan interface over time during a contrast scan; FIG. 8 is a high-level flow chart of a method for a contrast scan, according to embodiments of the disclosure; FIGS. 9A and 9B show a flow chart illustrating a method for a scan interface during the contrast scan, according to embodiments of the disclosure; FIG. 10 shows an example of a scan prescription display panel in a first timeline view; FIG. 11 shows the example of the scan prescription display panel in a second timeline view; FIG. 12 shows the example of the scan prescription display panel in a table view; FIG. 13 shows the example of the scan prescription display panel in a scanning view; and FIG. 14 is a flow chart illustrating an example method for setting a scan prescription via a scan prescription display panel. DETAILED DESCRIPTION The following description relates to medical imaging workflows, and in particular contrast-enhanced magnetic resonance (MR) workflows. Contrast-enhanced MR imaging (MRI) scans include the administration of a paramagnetic contrast agent, such as gadolinium-based contrast agents, to an imaging subject in order to enhance contrast of various tissues of the imaging subject. Contrast-enhanced MRI scans demand that imaging start at the beginning or peak level of contrast enhancement in a region of interest (such as an artery). A typical workflow for a contrast-enhanced MRI scan includes an estimation of the time for a contrast bolus of the contrast agent to travel from the injection site to the region of interest (ROI) and the acquisition is started by an operator of the MRI system in the hopes that the operator has the timing correct. To estimate the time from when the contrast bolus is injected to when the contrast bolus arrives at the ROI, low-resolution live 2D im