CN113674848B - Method, device, equipment and storage medium for adding scanning protocol - Google Patents

Abstract

The embodiment of the invention discloses a method, a device, equipment and a storage medium for adding a scanning protocol. The method comprises the following steps: displaying a current scan image of the scan object; responding to a to-be-scanned instruction triggered based on the current scanned image to carry out image scanning on the scanned object again, and determining a target scanning protocol corresponding to the to-be-scanned instruction according to the current scanned image; and adding the target scanning protocol to a list to be checked. So as to realize the rapid addition of the scanning protocol to the scanning interface workflow, improve the working efficiency and optimize the scanning flow.

Description

Method, device, equipment and storage medium for adding scanning protocol

Technical Field

Embodiments of the present invention relate to magnetic resonance scanning technologies, and in particular, to a method, an apparatus, a device, and a storage medium for adding a scanning protocol.

Background

When the magnetic resonance is utilized to scan the scanning object, a scanning protocol of the scanning object is stored in the scanning device in advance, and when the scanning object needs to be subjected to the magnetic resonance scanning, the scanning protocol is found in the scanning device, and the scanning protocol is utilized to scan the scanning object.

At present, magnetic resonance has high requirements on protocol scanning speed and scanning workflow, the scanning flow is simple and easy to operate, and the scanning speed is ensured to be as high as possible under the condition of image quality. However, some problems may be encountered in the actual scanning process, for example, a doctor may need to check whether the image quality of the scanned image meets the requirement in time, if the diagnosis is affected due to motion artifacts caused by patient motion or system artifacts in the scanning process, supplementary scanning needs to be performed in time, generally, after the operator checks that the image does not achieve the ideal effect, the operator will find a corresponding protocol from the scanned protocol list and select the protocol to scan repeatedly, but if the protocols in the protocol list are more and have repeated naming, the searching of the scanned protocol is extremely inconvenient and the error is at the same time.

Disclosure of Invention

The embodiment of the invention provides a method, a device, equipment and a storage medium for adding a scanning protocol, which are used for realizing the rapid addition of the scanning protocol to a scanning interface workflow, improving the working efficiency and optimizing the scanning flow.

In a first aspect, an embodiment of the present invention provides a method for adding a scanning protocol, where the method includes:

Displaying a current scan image of the scan object;

responding to a to-be-scanned instruction triggered based on the current scanned image to carry out image scanning on the scanned object again, and determining a target scanning protocol corresponding to the to-be-scanned instruction according to the current scanned image;

And adding the target scanning protocol to a list to be checked.

In a second aspect, an embodiment of the present invention further provides an adding device for a scanning protocol, where the device includes:

the current scanning image display module is used for displaying a current scanning image of the scanning object;

The target scanning protocol determining module is used for responding to a to-be-scanned instruction triggered based on the current scanning image to carry out image scanning on the scanning object again and determining a target scanning protocol corresponding to the to-be-scanned instruction according to the current scanning image;

And the target scanning protocol adding module is used for adding the target scanning protocol into a list to be checked.

In a third aspect, an embodiment of the present invention further provides an apparatus, including:

One or more processors;

A storage means for storing one or more programs;

When the one or more programs are executed by the one or more processors, the one or more processors implement the method for adding a scanning protocol according to any one of the embodiments of the present invention.

In a fourth aspect, embodiments of the present invention also provide a storage medium containing computer-executable instructions, which when executed by a computer processor, are configured to perform the method of adding a scanning protocol according to any of the embodiments of the present invention.

According to the technical scheme, through the displayed current scanning image of the scanning object, operation is carried out in the current scanning image, and the target scanning protocol corresponding to the current scanning image is added into the list to be checked. In response to a to-be-scanned instruction for re-scanning the scanned object triggered based on the current scanning image, a target scanning protocol corresponding to the to-be-scanned instruction can be determined according to the current scanning image, so that the target scanning protocol corresponding to the to-be-scanned instruction can be immediately determined based on the current scanning image, a user does not need to search the target scanning protocol from an inspection list in sequence, the target scanning protocol can be rapidly extracted from the current scanning image, error efficiency is reduced, meanwhile, time for adding the scanning protocol is saved, and efficiency for adding the scanning protocol is improved. After the target scanning protocol is determined based on the current scanning image, the target scanning protocol can be directly and automatically added into the list to be checked, so that the target scanning protocol can be rapidly and directly loaded into the list to be checked from an imaging slice positioning window of the checking interface, an image scanning monitoring window of the checking interface or an image browsing interface, the working efficiency is improved, and the scanning flow is optimized.

Drawings

FIG. 1 is a flow chart of a method of adding a scanning protocol in a first embodiment of the invention;

FIG. 2 is a schematic diagram showing the division of windows of a scanning interface according to a first embodiment of the present invention;

FIG. 3 is a schematic diagram of an image browsing interface according to a first embodiment of the present invention;

FIG. 4 is a flow chart of a method of adding a scanning protocol in a second embodiment of the present invention;

FIG. 5 is a schematic diagram of a click through repeated scan instruction in a second embodiment of the invention determined to be responsive to a command to be scanned;

FIG. 6 is a flow chart of a method of adding a scanning protocol in a third embodiment of the present invention;

FIG. 7 is a flowchart of the method for adding a scanning protocol according to the third embodiment of the present invention;

FIG. 8 is a flow chart of a method of adding a scanning protocol in a fourth embodiment of the present invention;

fig. 9 is a flowchart of the execution of the method of adding a scanning protocol in the fourth embodiment of the present invention;

Fig. 10 is a schematic diagram illustrating adjustment of a scan range parameter of a scan object according to a fourth embodiment of the present invention;

fig. 11 is a schematic structural diagram of an adding device of a scanning protocol in the fifth embodiment of the present invention;

fig. 12 is a schematic structural view of an apparatus in a sixth embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present invention are shown in the drawings.

Example 1

Fig. 1 is a flowchart of a method for adding a scan protocol according to an embodiment of the present invention, where the method may be applied to adding a scan protocol to a list to be examined in magnetic resonance so as to find a scan protocol quickly, and the method may be performed by a scan protocol adding device, where the scan protocol adding device may be implemented by software and/or hardware, and the scan protocol adding device may be configured on a computing device, and specifically includes the following steps:

S110, displaying a current scanning image of the scanning object.

By way of example, the scan object may be an object that is image scanned, for example, a patient, a body part of a patient, an area containing a plurality of body parts, and the like. The current scan image may be a current image of a scan object being scanned. In this way, the current scanning image of the displayed scanning object can be utilized to operate in the current scanning image, and the target scanning protocol corresponding to the current scanning image is added to the list to be checked.

Optionally, displaying the current scanned image of the scanned object includes at least one of the following operations: displaying a current scanning image of the scanning object in an imaging slice positioning window of the inspection interface; displaying a current scanning image of the scanning object in an image scanning monitoring window of the inspection interface; and displaying the current scanned image of the scanned object on the image browsing interface.

Illustratively, referring to the schematic division of the windows of the scan interface shown in FIG. 2, in FIG. 2 there is an imaged slice location window of the inspection interface, an image scan monitor window of the inspection interface, and an inspection list window. The first to third images of the first row are imaging slice positioning windows of the inspection interface, and are used for slice positioning and viewing the current scanning image; the fourth image in the first row of the images is an image scanning monitoring window of the inspection interface, and is used for monitoring the image quality of the current scanning image in real time, and if an abnormal image is found in the window, for example, an artifact and the like in the image can be immediately observed; the first of the second row of the figures is an examination list window containing the scan protocols that have been run for the magnetic resonance examination, the scan protocols to be executed.

Referring to the image browsing interface schematic diagram shown in fig. 3, as shown in fig. 3, the image browsing interface is used to browse the current scanned image in real time.

The imaging slice positioning window of the inspection interface, the image scanning monitoring window of the inspection interface, and the inspection list window are all common on the display interface as shown in fig. 2. The image browsing interface is on the display interface as shown in fig. 3. Fig. 2 and 3 are two display interfaces, respectively, and fig. 2 and 3 can be understood herein as two pages of the display interface of the display, fig. 2 being one page and fig. 3 being the other page, and being freely switchable between the two pages.

According to the embodiment of the invention, the current scanning images of the scanning objects are respectively displayed in different windows, different operation methods can be adopted according to the current scanning images of the scanning objects displayed in different windows, the target scanning protocol corresponding to the current scanning images can be quickly added into the list to be checked, and the target scanning protocol can be quickly found in the list to be checked.

S120, responding to a to-be-scanned instruction triggered based on the current scanned image to carry out image scanning on the scanned object again, and determining a target scanning protocol corresponding to the to-be-scanned instruction according to the current scanned image.

The instructions to be scanned may be, for example, instructions to rescan the scanned object. For example, when the scan object is scanned, after the current scan is completed, the image quality of the current scan image of the scan object is poor due to motion artifact or system artifact caused by the motion of the scan object during the scan, which affects the diagnosis, and at this time, the scan object needs to be rescanned. The instructions to be scanned can be triggered and generated based on the operation of the preset action on the current scanned image.

The acquisition of the instructions to be scanned may be an automatic acquisition, and the magnetic resonance system may, for example, comprise an image recognition model capable of processing the current scanned image to determine whether and/or the type of artifact is present in the current scanned image. The artifact types of the current scan image may be, for example, ghosting, motion artifact, fat artifact, fold artifact due to too small a Field of view (FOV), gibbs artifact due to too small a resolution, metal artifact due to implant in the patient, and the like. In one embodiment, the magnetic resonance system uses the image recognition model to determine the artifact type of the current scan image as motion artifact, and the target scan protocol may link a voice prompt, which may be, for example, a prompt tone to alert the patient "please stay still", "breath hold", etc. before the target scan protocol.

The target scan protocol may be a scan protocol corresponding to a current scan image of the scan object. Since the target scanning protocol is directly determined based on the current scanning image, the scanning parameters in the target scanning protocol are consistent with the scanning parameters of the scanning protocol of the current scanning image, so that the scanning parameters are consistent when the scanning object is scanned again, and the problem of the quality of the scanned image which is scanned again due to the influence of the scanning parameters is avoided.

After the current scanning image is subjected to the operation of the preset action, a to-be-scanned instruction is generated, and the target scanning protocol corresponding to the to-be-scanned instruction can be determined according to the current scanning image, so that the target scanning protocol corresponding to the to-be-scanned instruction can be immediately determined based on the current scanning image, a user does not need to search the target scanning protocol from an inspection list in sequence, the target scanning protocol can be rapidly extracted from the current scanning image, the error efficiency is reduced, meanwhile, the time for adding the scanning protocol is saved, and the efficiency for adding the scanning protocol is improved.

Of course, the target scan protocol may also be set to have a distinguishing parameter corresponding to the scan protocol of the current scan image of the scan object. In an embodiment, the magnetic resonance system determines the artifact type of the current scan image as a fat artifact by using an image recognition model, and the target scan protocol is determined by changing the transmission frequency in the scan protocol corresponding to the current scan image. In another embodiment, the current magnetic resonance scan involves a multi-couch scan (i.e., the current scan image is obtained from a stitching of images of multiple couch sub-scans). The magnetic resonance system uses the image recognition model to determine the artifact type of the current scan image as a metal artifact caused by the metal implant, the metal artifact being located in the center of the scan field of view. The current scanning image is obtained by image stitching under four beds, the metal artifact is larger for the film star of the second bed image, the magnetic resonance system optimizes the number of beds of the scanning protocol corresponding to the current scanning image, and the number of beds is changed to be five. By the above operation, the metal artifact area with larger influence can be moved between the second bed and the third bed after adjustment, so that the image of each bed can be accepted.

S130, adding the target scanning protocol to a list to be checked.

The list to be checked may be, for example, a list storing a scanning protocol to be scanned. As shown in the checklist window of fig. 2, the checklist stores scanning protocols, where the scanning protocols have been run, running and not run, so that the scanning protocols of different running states are stored in different sub-lists of the checklist. Wherein the running scanning protocol is stored in the running list of the checking list, such as the dark color list (1 and 2) in the checking list window in fig. 2, and the non-running (to-be-executed) scanning protocol is stored in the non-running list of the checking list, such as the dark color list (3) in the checking list window in fig. 2, where the to-be-checked list may be the non-running list of the checking list. The running scan protocols are between the running list and the non-running list (not shown in fig. 2), and in the running state, if a scan protocol is running, it can be understood that there is a progress bar in the running scan protocols in the list, which indicates that the running scan protocols are running, and from which the running progress of the running scan protocols can be intuitively understood. The target scan protocol is used for rescanning the scan object, and thus can be stored in an une list of the inspection list.

After the target scanning protocol is determined based on the current scanning image, the target scanning protocol can be directly and automatically added into the list to be checked, so that the target scanning protocol can be rapidly and directly loaded into the list to be checked from an imaging slice positioning window of the checking interface, an image scanning monitoring window of the checking interface or an image browsing interface, the working efficiency is improved, and the scanning flow is optimized.

Optionally, the target scanning protocol may be stored in the first position of the list to be checked, that is, in the first position of the non-running list of the checking list, so that the target scanning protocol may be quickly found in the list to be checked, thereby improving the efficiency of finding the target scanning protocol and further improving the efficiency of rescanning the scanned object.

It should be noted that, when the target scanning protocol is added to the to-be-checked list, the default state of the target scanning protocol is a confirmation state, that is, the user does not need to click to confirm that the target scanning protocol is used, so that after the target scanning protocol is added to the to-be-checked list, the target scanning protocol can be directly used, the efficiency of finding the addition of the target scanning protocol is improved, and the efficiency of rescanning the scanning object by using the target scanning protocol is also improved.

According to the technical scheme, through the displayed current scanning image of the scanning object, operation is carried out in the current scanning image, and the target scanning protocol corresponding to the current scanning image is added into the list to be checked. In response to a to-be-scanned instruction for re-scanning the scanned object triggered based on the current scanning image, a target scanning protocol corresponding to the to-be-scanned instruction can be determined according to the current scanning image, so that the target scanning protocol corresponding to the to-be-scanned instruction can be immediately determined based on the current scanning image, a user does not need to search the target scanning protocol from an inspection list in sequence, the target scanning protocol can be rapidly extracted from the current scanning image, error efficiency is reduced, meanwhile, time for adding the scanning protocol is saved, and efficiency for adding the scanning protocol is improved. After the target scanning protocol is determined based on the current scanning image, the target scanning protocol can be directly and automatically added into the list to be checked, so that the target scanning protocol can be rapidly and directly loaded into the list to be checked from an imaging slice positioning window of the checking interface, an image scanning monitoring window of the checking interface or an image browsing interface, the working efficiency is improved, and the scanning flow is optimized.

Example two

Fig. 4 is a flowchart of a method for adding a scanning protocol according to a second embodiment of the present invention, where the embodiments of the present invention may be combined with each of the alternatives in the foregoing embodiments. In an embodiment of the present invention, optionally, responding to a to-be-scanned instruction triggered based on the current scanned image to perform image scanning on the scanned object again includes: determining to-be-scanned instructions for re-scanning the scanned object in response to triggering based on the current scanning image when detecting that the current scanning image is selected and dragging the current scanning image to a to-be-checked list; or when detecting that the preset repeated scanning instruction is triggered by clicking the right button and/or the left button of the mouse on the current scanning image, determining to be a to-be-scanned instruction for re-scanning the image of the scanning object, wherein the to-be-scanned instruction is triggered based on the current scanning image.

As shown in fig. 4, the method in the embodiment of the present invention specifically includes the following steps:

S210, displaying a current scanning image of the scanning object.

S220, determining to respond to a to-be-scanned instruction triggered based on the current scanning image to perform image scanning on the scanning object again when detecting that the current scanning image is selected and dragging the current scanning image to a to-be-inspected list; or when detecting that the preset repeated scanning instruction is triggered by clicking the right button and/or the left button of the mouse on the current scanning image, determining to be a to-be-scanned instruction for re-scanning the image of the scanning object, wherein the to-be-scanned instruction is triggered based on the current scanning image.

For example, the preset repeated scan command may be a preset repeated scan command, and when the mouse clicks the repeated scan command, the preset repeated scan command may respond to the command to be scanned. For example, the repeated scan instruction may be a button or an icon identification, or the like.

The response to the instruction to be scanned may be determined as the response to the instruction to be scanned when the dragging of the current scanned image into the list to be inspected is detected.

It should be noted that, as shown in fig. 2, the current scan image of the imaging slice positioning window of the inspection interface and the image scanning monitoring window of the inspection interface may be dragged into the list to be inspected, or the current scan image of the imaging slice positioning window of the inspection interface and/or the image scanning monitoring window of the inspection interface may be directly dragged into the list to be inspected by using a mouse. And drag the current scanned image in the image browsing interface shown in fig. 3 to the inspection list, it may be that the current scanned image in fig. 3 is dragged across the interface to the list to be inspected in fig. 2. It will be understood that fig. 2 and 3 are two pages in the display interface of the display, fig. 2 is one page, fig. 3 is another page, and an icon in fig. 3 is dragged to a designated position in the page of fig. 2.

In addition, the current scanning image can be dragged to any position of the list to be checked, when the current scanning image is dragged to the appointed position of the list to be checked, a gray thin line is generated at the position, so that a user can clearly and quickly find out the specific position of the current scanning image dragged to the list to be checked according to the thin line, and the mouse is prevented from shaking after the current scanning image is dragged to any position of the list to be checked, and the position of the current scanning image dragged to the list to be checked is not known.

And responding to the command to be scanned, or determining to respond to the command to be scanned when detecting that the right button and/or the left button of the mouse clicks a preset repeated scanning command in the current scanning image.

The click repeat scan command shown with reference to fig. 5 is determined as a schematic diagram in response to the command to be scanned, and as shown in fig. 5, the preset repeat scan command may be a button of "repeat scan". In fig. 5, a is a preset repeated scanning instruction, namely a "repeated scanning" button, clicked by a right button and/or a left button of a mouse in a current scanning image in an imaging slice positioning window (any position from a first image to a third image in a first row in the drawing) of an inspection interface; the b diagram in fig. 5 is that in the image scanning monitoring window (any position of the fourth diagram in the first row of the diagram) of the inspection interface, the right button and/or the left button of the mouse clicks a preset repeated scanning instruction, namely a "repeated scanning" button, in the current scanning image.

The specific operation process can be as follows: taking the current scanning image of the imaging slice positioning window of the inspection interface as an example, a menu list shown in a graph a in fig. 5 can appear by clicking a right button in the current scanning image of the imaging slice positioning window of the inspection interface, and the buttons of repetition and opening can appear by placing the mouse or clicking a button of repeated scanning of the menu list by clicking a left button, and when the button of repetition or repetition and opening is clicked by clicking a left button, the response to the command to be scanned can be determined.

The operation process can also be as follows: taking the current scanning image of the imaging slice positioning window of the inspection interface as an example, the menu list shown in the figure a in fig. 5 can be directly displayed by double clicking the left key in the current scanning image of the imaging slice positioning window of the inspection interface, the repeated and repeated opening buttons can be displayed by placing the mouse or clicking the repeated scanning button of the menu list by the left key, and when the repeated and opening buttons are clicked by the left key, the response to the command to be scanned can be determined.

The operation process can also be as follows: taking the current scanning image of the imaging slice positioning window of the inspection interface as an example, the right key double-click of the mouse in the current scanning image of the imaging slice positioning window of the inspection interface can determine to respond to the command to be scanned.

The specific operation process for determining the response to the to-be-scanned instruction can be determined according to the needs of the user, and is not limited herein.

The current scanning image is dragged into the list to be checked, or the preset repeated scanning instruction is clicked by a mouse to determine to respond to the to-be-scanned instruction, so that the responding to-be-scanned instruction can be determined specifically and definitely, and the repeated scanning of the scanned object caused by misoperation by a user is avoided, and the scanning time is wasted. And based on preset operation, the method determines to respond to the to-be-scanned instruction, can directly determine the target scanning protocol corresponding to the to-be-scanned instruction based on the to-be-scanned instruction, and automatically adds the target scanning protocol in the first position of the to-be-inspected list, so that the adding efficiency of the target scanning protocol is also improved.

S230, determining a target scanning protocol corresponding to the to-be-scanned instruction according to the current scanning image.

S240, adding the target scanning protocol to a list to be checked.

According to the technical scheme, the current scanning image is dragged into the list to be checked, or the preset repeated scanning instruction is clicked by the mouse to determine the response to the instruction to be scanned, so that the response to the instruction to be scanned can be determined specifically and definitely, repeated scanning of the scanning object due to misoperation by a user is avoided, and the scanning time is wasted. And the target scanning protocol corresponding to the to-be-scanned instruction can be directly determined based on the to-be-scanned instruction and automatically added in the first position of the to-be-inspected list when the to-be-scanned instruction which is responded is determined based on dragging the current scanning image to the to-be-inspected list or clicking a preset repeated scanning instruction through a mouse, so that the target scanning protocol is not required to be sequentially searched from the inspection list by a user, the target scanning protocol can be rapidly extracted from the current scanning image, and the error efficiency is reduced.

Example III

Fig. 6 is a flowchart of a method for adding a scanning protocol according to the third embodiment of the present invention, where the embodiments of the present invention may be combined with each of the alternatives in the foregoing embodiments. In an embodiment of the present invention, optionally, after the adding the target scanning protocol to the to-be-checked list, the method further includes: receiving an externally input parameter adjustment instruction for adjusting parameters of the target scanning protocol, and displaying a parameter adjustment interface of the target scanning protocol, wherein the parameter adjustment interface comprises at least one scanning parameter; and receiving a parameter adjustment operation for adjusting at least one scanning parameter, and adjusting the scanning parameter of the target scanning protocol based on the parameter adjustment operation. And re-scanning the image of the scanned object based on the target scanning protocol, and displaying a scanned image obtained by re-scanning the image.

As shown in fig. 6, the method in the embodiment of the present invention specifically includes the following steps:

S310, displaying a current scanning image of the scanning object.

S320, determining to respond to a to-be-scanned instruction triggered based on the current scanning image to perform image scanning on the scanning object again when detecting that the current scanning image is selected and dragging the current scanning image to a to-be-inspected list; or when detecting that the preset repeated scanning instruction is triggered by clicking the right button and/or the left button of the mouse on the current scanning image, determining to be a to-be-scanned instruction for re-scanning the image of the scanning object, wherein the to-be-scanned instruction is triggered based on the current scanning image.

S330, determining a target scanning protocol corresponding to the to-be-scanned instruction according to the current scanning image.

S340, adding the target scanning protocol to a list to be checked.

S350, receiving an externally input parameter adjustment instruction for adjusting parameters of the target scanning protocol, and displaying a parameter adjustment interface of the target scanning protocol, wherein the parameter adjustment interface comprises at least one scanning parameter; and receiving a parameter adjustment operation for adjusting at least one scanning parameter, and adjusting the scanning parameter of the target scanning protocol based on the parameter adjustment operation.

The parameter adjustment instructions may be, for example, instructions to adjust scan parameters in a target scan protocol. The parameter adjustment interface may be an interface capable of adjusting scan parameters in the target scan protocol, where the parameter adjustment interface includes at least one scan parameter.

The parameter adjustment instruction may be externally input, for example, the "repeat and open" button in fig. 5 may be clicked, and when the user clicks the "repeat and open" button, the target scan protocol may be automatically added to the list to be checked, and opened, and a parameter adjustment interface of the target scan protocol is displayed, where the user may modify the scan parameter according to the requirement.

It will be appreciated that: specifically, in a specific application scene, in response to a to-be-scanned instruction triggered and generated based on a current scanning image, a target scanning protocol is automatically added into a to-be-inspected list, wherein scanning parameters in the target scanning protocol are consistent with scanning parameters used in the generation of the current scanning image. After the current scanning image is generated, because the artifacts possibly occur in the current scanning image due to the movement of the patient in the scanning process, the doctor is not satisfied with the image quality of the current scanning image, and needs to scan the patient again, at the moment, the doctor can click a repeat button, so that a target scanning protocol can be automatically added in a list to be checked, at the moment, the scanning parameters in the target scanning protocol are consistent with the scanning parameters of the current scanning image, the doctor scans the image of the patient again based on the target scanning protocol, the generated scanning image is finished, and if the image quality reaches the standard of image diagnosis, the scanning is finished, so that the artifacts in the current scanning image are caused by the movement of the patient in the scanning process.

If the patient is scanned again based on the target scanning protocol, the patient is found to still have the artifact in the scanned image, which is probably due to unreasonable setting of the scanning parameters in the target scanning protocol, then a doctor can click a repeat and open button, thus the target scanning protocol can be automatically added in the list to be checked, a parameter adjustment interface of the target scanning protocol is displayed, the doctor can adjust the scanning parameters in the parameter adjustment interface, the patient is scanned again based on the target scanning protocol after the adjustment of the scanning parameters, and if the image quality reaches the standard of image diagnosis, the scanning is ended, and the artifact in the current scanned image is indicated to be generated due to unreasonable system scanning parameters.

Based on the parameter adjustment instruction, the scanning parameters are adjusted at the parameter adjustment interface, so that when the current scanning image is abnormal due to the system scanning parameters, the scanning parameters can be adjusted, and the high-quality scanning image which can be used for diagnosis can be obtained. In an embodiment, taking the adjustment of the size of the K space as an example, the magnetic resonance system or the doctor evaluates the quality of the current scanned image, and when the evaluation result indicates that the quality of the current image does not meet the diagnostic requirement, the matrix of the K space is enlarged to obtain the K space of a larger matrix, so as to improve the contrast of the image.

S360, carrying out image scanning on the scanning object again based on the target scanning protocol, and displaying a scanning image obtained by carrying out image scanning again.

For example, referring to the execution flow chart of the adding method of the scanning protocol shown in fig. 7, after the scanning object is scanned again based on the target scanning protocol, the scanned image obtained by scanning again may be displayed on the image display interface, for example, may be an imaging slice positioning window of the inspection interface and/or an image scanning monitoring window of the inspection interface shown in fig. 2, and the scanned image obtained by scanning again is automatically displayed on the image display interface by the image browsing interface shown in fig. 3. Thus, the user can judge the quality of the scanned image according to the displayed scanned image to judge whether the rescanning needs to be continued or not.

It should be noted that, while the scanned image obtained by rescanning the image is displayed, a prompting message may be generated to prompt the user to confirm whether the rescanning needs to be continued, for example, a pop-up frame may be displayed in the interface of fig. 2 and 3. If the user judges that the image quality of the scanned image scanned by the re-image can be used for diagnosis, the user can click a 'determination' button in the bullet voice frame to indicate that the image scanning of the scanned object is finished, and the image scanning is not needed; if the user judges that the image quality of the scanned image scanned again is not available for diagnosis, the user can click a cancel button in the bullet frame to indicate that the image scanning of the scanned object is not finished and the image scanning is needed to be carried out again.

Of course, the bullet box is shown in fig. 2 and 3, which is only one form of prompting message for prompting the user to confirm whether to continue rescanning, and any form that can be used for prompting falls within the scope of the embodiments of the present invention.

According to the technical scheme, the image scanning is carried out again on the scanning object based on the target scanning protocol, and the scanning image obtained by carrying out image scanning again is displayed, so that a user can judge the quality of the scanning image according to the displayed scanning image, and whether the scanning needs to be continued or not is judged.

Example IV

Fig. 8 is a flowchart of a method for adding a scanning protocol according to a fourth embodiment of the present invention, where the embodiments of the present invention may be combined with each of the alternatives in the foregoing embodiments. In this embodiment of the present invention, optionally, the receiving an externally input parameter adjustment instruction for adjusting parameters of the target scan protocol displays a parameter adjustment interface of the target scan protocol, where the parameter adjustment interface includes at least one scan parameter; receiving a parameter adjustment operation for adjusting at least one of the scan parameters, adjusting the scan parameters of the target scan protocol based on the parameter adjustment operation, comprising: receiving a parameter adjustment instruction which is input from the outside and used for adjusting the parameters of the scanning range of the scanning object, and displaying a parameter adjustment interface of the target scanning protocol, wherein the parameter adjustment interface comprises at least one scanning parameter; and receiving a parameter adjustment operation for adjusting at least one scanning parameter, and adjusting the scanning parameter of the target scanning protocol based on the parameter adjustment operation.

As shown in fig. 8, the method in the embodiment of the present invention specifically includes the following steps:

s410, displaying the current scanning image of the scanning object.

S420, determining to respond to a to-be-scanned instruction triggered based on the current scanning image to perform image scanning on the scanning object again when detecting that the current scanning image is selected and dragging the current scanning image to a to-be-inspected list; or when detecting that the preset repeated scanning instruction is triggered by clicking the right button and/or the left button of the mouse on the current scanning image, determining to be a to-be-scanned instruction for re-scanning the image of the scanning object, wherein the to-be-scanned instruction is triggered based on the current scanning image.

S430, determining a target scanning protocol corresponding to the to-be-scanned instruction according to the current scanning image.

S440, adding the target scanning protocol to a list to be checked.

S450, receiving an externally input parameter adjustment instruction for adjusting parameters of a scanning range of the scanning object, and displaying a parameter adjustment interface of the target scanning protocol, wherein the parameter adjustment interface comprises at least one scanning parameter; and receiving a parameter adjustment operation for adjusting at least one scanning parameter, and adjusting the scanning parameter of the target scanning protocol based on the parameter adjustment operation.

Here, the parameter adjustment instruction may be an instruction to adjust a parameter in a scanning range of the scanning object, for example. The adjustment of the parameters of the scanning range of the scanning object can be to add and delete slice layers, adjust FOV, adjust uniform field area, add and delete saturation band, etc. of the scanning image of the scanning object.

It can be understood that, when the parameter adjustment is required for both the scanning range of the scanning object and the parameter adjustment is required for the scanning device, the parameter adjustment is performed by clicking the "repeat and open" button in fig. 5 in the third step S350 of the above embodiment. If the parameter adjustment command is only for adjusting the scanning range of the scanning object, the technical solution of the embodiment of the present invention may be adopted to adjust the scanning range of the scanning object without clicking the "repeat and open" button in fig. 5 in step S350 of the above embodiment.

The specific parameter adjustment method comprises the following steps: referring to the execution flow chart of the method for adding the scanning protocol described in fig. 9, in response to the parameter adjustment instruction, it is first determined whether the parameter adjustment instruction is an instruction for adjusting parameters of the scanning range of the scanning object only, if yes, the current scanning image of the scanning object may be selected in the imaging slice positioning window of the inspection interface, the image scanning monitoring window of the inspection interface or the image browsing interface, and the instruction for adjusting parameters of the scanning range of the scanning object is triggered by clicking the right button and/or the left button of the mouse on the current scanning image.

Specifically, the schematic adjustment of the scan range parameter of the scan object described with reference to fig. 10 may be an imaging slice positioning window of the inspection interface of the a-view in fig. 10 or an image scanning monitoring window of the inspection interface, or the image browsing interface of fig. 3, where the current scan image of the scan object is selected, clicking the right button of the mouse, the menu bar in the a-view in fig. 10 is popped up, where three buttons, namely, the "repeat scan", "auto window adjustment" and "repositioning" are provided, and clicking the "repositioning" button, the small window of the imaging slice positioning window of the inspection interface in the b-view in fig. 10 may be popped up, and the small window may support all functions of the imaging slice positioning window of the inspection interface.

The small window can be used for adjusting parameters in the scanning range of the scanning object, such as adding and deleting slice layers, adjusting FOV, adjusting uniform field region, adding and deleting saturated band, and the like. Specifically, the position (arrow direction in the figure), azimuth, layer number, and FOV (two boxes in the figure, larger or smaller) of the required adjustment sheet layer can be solved by adjusting each horizontal line in the small window in the b-diagram in fig. 10 (horizontal lines in the last 2 diagrams of the small window in the b-diagram in fig. 10). It will of course be appreciated that only a region of interest of the scan object may be selected in the widget, which may be a local region within the scan range.

After the parameter adjustment of the scanning range of the scanning object in the small window is completed, the 'send and check' button in the small window can be clicked to automatically generate a target scanning protocol with the adjusted parameter at the first position of the list to be checked, and automatically confirm, and meanwhile, the small window disappears. The target scanning protocol with the parameters adjusted can be dragged to any position of the list to be checked by clicking a 'drag' button in the small window, and the automatic confirmation is carried out, and meanwhile, the small window disappears.

It should be noted that, after the adjustment of the parameters in the scanning range of the scanning object in the widget is completed, if the doctor does not need to adjust the parameters in the scanning range of the scanning object, that is, the adjustment of the parameters in the scanning range of the scanning object is abandoned, the adjustment of the parameters in the scanning range of the scanning object can be canceled by clicking a cancel button in the widget, and the widget disappears at the same time.

It should be noted that, when the "repositioning" button in the a diagram in fig. 10 is clicked on the right button, after the small window in the b diagram in fig. 10 is flicked, if the current scanned image to be repositioned is not satisfied, other reference images may be reloaded for repositioning, and specific loading other reference images may be: dragging the reference image satisfactory to the doctor in the imaging slice positioning window of the inspection interface, the image scanning monitoring window of the inspection interface, the image browsing interface or the running list to the small window in the b diagram in fig. 10, and then carrying out parameter adjustment in the scanning range on the reloaded reference image.

Therefore, the unsatisfied image can be directly repositioned by slices or the saturated band is added and deleted, the target scanning protocol with the adjusted parameters is directly generated in a transmission or dragging mode to the list to be checked, the target scanning protocol is not required to be sequentially searched from the checking list by a user, the target scanning protocol can be rapidly extracted from the current scanning image, the error efficiency is reduced, meanwhile, the adding time of the scanning protocol is saved, the adding efficiency of the scanning protocol is improved, and the scanning workflow is optimized.

S460, carrying out image scanning on the scanning object again based on the target scanning protocol, and displaying a scanning image obtained by carrying out image scanning again.

In an embodiment, the current scan image of the scan object is set as a first image, only the region of interest of the scan object is selected in the small window, the scan image obtained by performing image scanning again is set as a second image, and the patient region corresponding to the first image is larger than the region of interest corresponding to the second image. The second image may be used to replace the corresponding region of the first image to generate a fused image. In the last processing process, only the interested area of the scanned object is repeatedly scanned, and the scanning speed can be improved on the premise of ensuring the image quality.

According to the technical scheme, the parameter adjustment interface of the target scanning protocol is displayed by receiving the parameter adjustment instruction which is input from the outside and is used for adjusting the parameters of the scanning range of the scanning object, and then the parameters of the scanning object in the scanning range are adjusted, so that unsatisfactory images can be directly repositioned or saturated bands can be added and deleted, the target scanning protocol with the adjusted parameters is directly generated into the list to be checked in a transmitting or dragging mode, a user does not need to search the target scanning protocol from the checking list in sequence, the target scanning protocol can be rapidly extracted from the current scanning image, the error efficiency is reduced, meanwhile, the adding time of the scanning protocol is saved, the adding efficiency of the scanning protocol is improved, and the scanning workflow is optimized.

Example five

Fig. 11 is a schematic structural diagram of an adding device of a scanning protocol according to a fifth embodiment of the present invention, as shown in fig. 11, the device includes: a current scan image display module 31, a target scan protocol determination module 32, and a target scan protocol addition module 33.

Wherein, the current scanning image display module 31 is used for displaying the current scanning image of the scanning object;

A target scan protocol determining module 32, responsive to a scan command triggered based on the current scan image to re-scan the scan object, for determining a target scan protocol corresponding to the scan command according to the current scan image;

The target scanning protocol adding module 33 is configured to add the target scanning protocol to a list to be inspected.

On the basis of the technical solutions of the above embodiments, the current scan image display module 31 is specifically configured to:

displaying a current scanning image of the scanning object in an imaging slice positioning window of the inspection interface;

displaying a current scanning image of the scanning object in an image scanning monitoring window of the inspection interface;

and displaying the current scanned image of the scanned object on the image browsing interface.

Based on the technical solutions of the foregoing embodiments, the target scan protocol adding module 33 is specifically configured to:

And adding the target scanning protocol to the first bit of a list to be checked.

On the basis of the technical solution of the foregoing embodiment, the apparatus further includes:

the parameter adjustment instruction receiving module is used for receiving an externally input parameter adjustment instruction for carrying out parameter adjustment on the target scanning protocol and displaying a parameter adjustment interface of the target scanning protocol, wherein the parameter adjustment interface comprises at least one scanning parameter;

And the scanning parameter adjustment module is used for receiving parameter adjustment operation for adjusting at least one scanning parameter and adjusting the scanning parameter of the target scanning protocol based on the parameter adjustment operation.

On the basis of the technical solution of the foregoing embodiment, the apparatus further includes:

and the display module is used for carrying out image scanning on the scanning object again based on the target scanning protocol and displaying a scanning image obtained by carrying out image scanning again.

Optionally, when detecting that the current scanning image is selected and dragging the current scanning image to a to-be-checked list, determining to be in response to a to-be-scanned instruction triggered based on the current scanning image to perform image scanning on the scanning object again; or alternatively

And when detecting that the preset repeated scanning instruction is triggered by clicking the right button and/or the left button of the mouse on the current scanning image, determining to be a to-be-scanned instruction for re-scanning the image of the scanning object, wherein the to-be-scanned instruction is triggered based on the current scanning image.

Optionally, the scan parameters of the target scan protocol are consistent with the scan parameters of the scan protocol of the current scan image.

The device for adding the scanning protocol provided by the embodiment of the invention can execute the method for adding the scanning protocol provided by any embodiment of the invention, and has the corresponding functional modules and beneficial effects of the execution method.

Example six

Fig. 12 is a schematic structural diagram of an apparatus according to a sixth embodiment of the present invention, and as shown in fig. 12, the apparatus includes a processor 70, a memory 71, an input device 72, and an output device 73; the number of processors 70 in the device may be one or more, one processor 70 being taken as an example in fig. 12; the processor 70, memory 71, input means 72 and output means 73 in the device may be connected by a bus or other means, in fig. 12 by way of example.

The memory 71 is a computer-readable storage medium that can be used to store a software program, a computer-executable program, and modules such as program instructions/modules (e.g., the current scan image display module 31, the target scan protocol determination module 32, and the target scan protocol addition module 33) corresponding to the addition method of the scan protocol in the embodiment of the present invention. The processor 70 executes various functional applications of the device and data processing, i.e., implements the above-described method of adding a scan protocol, by running software programs, instructions, and modules stored in the memory 71.

The memory 71 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, at least one application program required for functions; the storage data area may store data created according to the use of the terminal, etc. In addition, memory 71 may include high-speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid-state storage device. In some examples, memory 71 may further include memory remotely located relative to processor 70, which may be connected to the device via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The input device 72 may be used to receive entered numeric or character information and to generate key signal inputs related to user settings and function control of the apparatus. The output means 73 may comprise a display device such as a display screen.

Example seven

The seventh embodiment of the present invention also provides a storage medium containing computer-executable instructions for performing a method of adding a scanning protocol when executed by a computer processor.

Of course, the storage medium containing the computer executable instructions provided in the embodiments of the present invention is not limited to the method operations described above, and may also perform the related operations in the method for adding a scanning protocol provided in any embodiment of the present invention.

From the above description of embodiments, it will be clear to a person skilled in the art that the present invention may be implemented by means of software and necessary general purpose hardware, but of course also by means of hardware, although in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product, which may be stored in a computer readable storage medium, such as a floppy disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a FLASH Memory (FLASH), a hard disk, or an optical disk of a computer, etc., and include several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the embodiments of the present invention.

It should be noted that, in the embodiment of the adding device of the scanning protocol, each unit and module included are only divided according to the functional logic, but not limited to the above-mentioned division, so long as the corresponding functions can be implemented; in addition, the specific names of the functional units are also only for distinguishing from each other, and are not used to limit the protection scope of the present invention.

Note that the above is only a preferred embodiment of the present invention and the technical principle applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, while the invention has been described in connection with the above embodiments, the invention is not limited to the embodiments, but may be embodied in many other equivalent forms without departing from the spirit or scope of the invention, which is set forth in the following claims.

Claims (8)

1. The method for adding the scanning protocol is suitable for an inspection interface and an image browsing interface, wherein the inspection interface and the image browsing interface are in different pages, and the inspection interface comprises an imaging slice positioning window, an image scanning monitoring window and an inspection list window of the inspection interface, and is characterized by comprising the following steps:

Displaying a current scanning image of a scanning object in at least one of the imaging slice positioning window, the image scanning monitoring window of the inspection interface or the image browsing interface;

responding to a to-be-scanned instruction triggered based on the current scanned image to carry out image scanning on the scanned object again, and determining a target scanning protocol corresponding to the to-be-scanned instruction according to the current scanned image;

Automatically adding the target scanning protocol to a list to be checked;

the method further comprises the steps of:

When detecting that the current scanning image is selected and dragging the current scanning image from the imaging slice positioning window and/or the image scanning monitoring window of the inspection interface to the to-be-inspected list, determining the current scanning image to be the to-be-scanned instruction for re-scanning the scanning object in response to triggering based on the current scanning image; or alternatively

When detecting that a preset repeated scanning instruction is triggered by clicking a right button and/or a left button of a mouse on the imaging slice positioning window, the image scanning monitoring window of the inspection interface or the current scanning image of the image browsing interface, determining that the instruction to be scanned is the instruction to be scanned, which is triggered based on the current scanning image and is used for carrying out image scanning on the scanning object again, and popping up a small window of the imaging slice positioning window, wherein the small window is used for adjusting parameters in a scanning range of the scanning object.

2. The method of claim 1, wherein adding the target scan protocol to a list to be inspected comprises:

And adding the target scanning protocol to the first bit of a list to be checked.

3. The method of claim 1, further comprising, after said adding said target scan protocol to a list to be inspected:

Receiving an externally input parameter adjustment instruction for adjusting parameters of the target scanning protocol, and displaying a parameter adjustment interface of the target scanning protocol, wherein the parameter adjustment interface comprises at least one scanning parameter;

And receiving a parameter adjustment operation for adjusting at least one scanning parameter, and adjusting the scanning parameter of the target scanning protocol based on the parameter adjustment operation.

4. The method of claim 1, further comprising, after said adding said target scan protocol to a list to be inspected:

and re-scanning the image of the scanned object based on the target scanning protocol, and displaying a scanned image obtained by re-scanning the image.

5. The method of claim 1, wherein the scan parameters of the target scan protocol are consistent with the scan parameters of the scan protocol of the current scan image.

6. The utility model provides a magnetic resonance scanning protocol searching device, is applicable to inspection interface and image browsing interface, inspection interface and image browsing interface are in different paging, the inspection interface includes imaging slice location window, inspection interface's image scanning monitor window and inspection list window, characterized in that includes:

The current scanning image display module is used for displaying a current scanning image of a scanning object in at least one of the imaging slice positioning window, the image scanning monitoring window of the inspection interface or the image browsing interface;

The target scanning protocol determining module is used for responding to a to-be-scanned instruction triggered based on the current scanning image to carry out image scanning on the scanning object again and determining a target scanning protocol corresponding to the to-be-scanned instruction according to the current scanning image;

the target scanning protocol adding module is used for automatically adding the target scanning protocol into a list to be checked;

the device is further configured to:

When detecting that the current scanning image is selected and dragging the current scanning image from the imaging slice positioning window and/or the image scanning monitoring window of the inspection interface to the to-be-inspected list, determining the current scanning image to be the to-be-scanned instruction for re-scanning the scanning object in response to triggering based on the current scanning image; or when detecting that a preset repeated scanning instruction is triggered by clicking a right button and/or a left button of a mouse on the imaging slice positioning window, the image scanning monitoring window of the inspection interface or the current scanning image of the image browsing interface, determining that the instruction to be scanned is the instruction to be scanned, which is triggered based on the current scanning image and is used for carrying out image scanning on the scanning object again, and popping up a small window of the imaging slice positioning window, wherein the small window is used for adjusting parameters in a scanning range of the scanning object.

7. An apparatus, the apparatus comprising:

One or more processors;

A storage means for storing one or more programs;

the one or more programs, when executed by the one or more processors, cause the one or more processors to implement the method of adding a scanning protocol as recited in any of claims 1-5.

8. A storage medium containing computer executable instructions which, when executed by a computer processor, are for performing the method of adding a scanning protocol according to any of claims 1-5.