CN113065017A - Medical image display method and related device, equipment and storage medium - Google Patents

Abstract

The application discloses a medical image display method and a related device, equipment and storage medium, wherein the medical image display method comprises the following steps: acquiring a medical image obtained by scanning based on at least one scanning parameter; dividing medical images obtained by scanning based on the same scanning parameter into the same group of image sequences; determining a target image sequence from at least one group of image sequences; medical images in the sequence of target images are displayed in a first region of the management interface. According to the scheme, the display effect of the medical image can be improved, and the film reading efficiency is improved.

Description

Medical image display method and related device, equipment and storage medium

Technical Field

The present application relates to the field of information management technologies, and in particular, to a medical image display method, and a related apparatus, device, and storage medium.

Background

Medical images such as CT (Computed Tomography) and MRI (Magnetic Resonance Imaging) are clinically significant.

In practical applications, users often need to combine different medical image analyzers to analyze physiological states of organs such as organs of heart, bones and the like. However, the conventional method generally provides only the medical images to be displayed by clicking and switching for the user, so when the user needs to switch to other medical images that the user wants to view, the user can only judge and screen out the required medical images from a plurality of medical images by naked eyes, and the film reading efficiency is low. In view of the above, how to improve the display effect of medical images and improve the film reading efficiency is an urgent problem to be solved.

Disclosure of Invention

The application provides a medical image display method and a related device, equipment and storage medium.

A first aspect of the present application provides a navigation method, including: acquiring a medical image obtained by scanning based on at least one scanning parameter; dividing medical images obtained by scanning based on the same scanning parameter into the same group of image sequences; determining a target image sequence from at least one group of image sequences; medical images in the sequence of target images are displayed in a first region of the management interface.

Therefore, by acquiring the medical image scanned based on at least one scanning parameter, dividing the medical image scanned based on the same scanning parameter into the same group of image sequences, then determining the target image sequence from the at least one group of image sequences, and displaying the medical image in the target image sequence in the first region of the management interface, the medical image is divided into different image sequences from the scanning parameter dimension, the target image sequence is automatically determined from the image sequences, and the medical image in the target image sequence is displayed, so that the required medical image can be screened in an auxiliary manner during reading, the display effect of the medical image is improved, and the reading efficiency is improved.

Wherein determining a target image sequence from at least one group of image sequences comprises: taking the image sequence meeting the first preset condition as a target image sequence; displaying a medical image in a sequence of target images in a first region of a management interface, comprising: and displaying the medical images meeting the second preset condition in the target image sequence in the first area.

Therefore, the image sequence meeting the first preset condition is used as the target image sequence, and the medical image meeting the second preset condition in the target image sequence is displayed in the first area, so that the preference of the user on the default loaded image sequence and the medical image can be favorably met, the use habit of the user can be favorably attached, and the user experience is improved.

Wherein, the first preset condition comprises: scanning parameters correspondingly adopted by the medical image are preset parameters; and/or the second preset condition comprises: the contrast duration for the medical image is in the first time duration range.

Therefore, the first preset condition is set to include the scanning parameters correspondingly adopted by the medical images as the preset parameters, so that the preference of the user on the default loaded image sequence can be favorably met, and the user experience is favorably improved; the second preset condition is set to include that the contrast duration corresponding to the medical image is within the first duration range, so that the preference of the user for the default loading phase can be favorably met, and the user experience is favorably improved.

Wherein, the target image sequence is determined from at least one group of image sequences, and the method further comprises the following steps: in response to a sequence selection instruction of a user, determining at least one group of image sequences selected by the user as a target image sequence; displaying a medical image in a sequence of target images in a first region of a management interface, comprising: at least one medical image is selected from the sequence of target images and the selected at least one medical image is displayed in the first region.

Therefore, by responding to a sequence selection instruction of a user, using at least one group of image sequences selected by the user as a target image sequence, selecting at least one medical image from the target image sequence, and displaying the selected at least one medical image in the first area, the user can directly select the medical image in the target image sequence which is expected to be displayed from the organized medical images, thereby being beneficial to improving the film reading efficiency.

Wherein, before determining at least one group of image sequences selected by the user as the target image sequence in response to the sequence selection instruction of the user, the method further comprises: displaying the sequence identification information of each group of image sequences in a second area of the management interface; and detecting the preset operation of the user on the sequence identification information, and generating a sequence selection instruction corresponding to the sequence identification information.

Therefore, the sequence identification information of each group of image sequences is displayed in the second area of the management interface, and when the preset operation of the user on the sequence identification information is detected, the sequence selection instruction corresponding to the sequence identification information is generated, so that the image sequences can be visually displayed for the user to select, the film reading efficiency can be improved, and the user experience is improved.

Wherein the sequence identification information includes at least one of: text for representing the image sequence, images for representing the image sequence, the number of medical images contained in the image sequence; and/or the second area comprises a plurality of sub-areas, and the sequence identification information of each group of image sequences is displayed in the second area of the management interface, and the method comprises the following steps: and correspondingly displaying the sequence identification information of an image sequence on each sub-area of the second area.

Accordingly, the sequence identification information is set to include at least one of: the characters used for representing the image sequence, the images used for representing the image sequence and the quantity of the medical images contained in the image sequence can be beneficial to visually displaying the related information of each group of image sequence to a user, so that the user can be further assisted to select the medical images which are expected to be displayed, the learning cost is further reduced, the workload is reduced, the film reading efficiency is improved, and the user experience is improved; by arranging a plurality of sub-areas in the second area and correspondingly displaying the sequence identification information of an image sequence on each sub-area of the second area, the organization of the image sequence can be improved, and the display effect of the medical image can be improved.

Wherein selecting at least one medical image from the sequence of target images comprises: displaying an image selection interface containing image identification information of each medical image in the target image sequence, and selecting the medical image corresponding to the image identification information selected by the user on the image selection interface; or selecting a medical image satisfying a third preset condition in the target image sequence.

Therefore, by displaying the image selection interface containing the image identification information of each medical image in the target image sequence and selecting the medical image corresponding to the image identification information selected by the user on the image selection interface, the relevant information of the medical images contained in the image sequence can be provided for the user, so that the user can be further assisted to select the medical image which is expected to be displayed, and the film reading efficiency is improved; and the medical image meeting the third preset condition is directly selected from the target image sequence, so that the preference of the user on the default loaded medical image of the selected image sequence can be favorably met, and the user experience is favorably improved.

Wherein selecting at least one medical image from the sequence of target images comprises: determining an instruction type of the sequence selection instruction; under the condition that the sequence selection instruction is of a first instruction type, executing and displaying an image selection interface containing image identification information of each medical image in the target image sequence, and selecting the medical image corresponding to the image identification information selected by the user on the image selection interface; in case the sequence selection instruction is of the second instruction type, selecting a medical image satisfying a third preset condition in the target image sequence is performed.

Therefore, by determining the instruction type of the sequence selection instruction, when the sequence selection instruction is the first instruction type, the image selection interface which contains the image identification information of each medical image in the target image sequence is executed and displayed, and the medical image corresponding to the image identification information selected by the user on the image selection interface is selected, and when the sequence selection instruction is the second instruction type, the medical image which meets the third preset condition is selected from the target image sequence, so that the medical image which is loaded and displayed can be determined according to different instruction types of the user, and further the user experience can be improved.

Wherein the first instruction type at least comprises: mouse-over, the second instruction type comprising at least: clicking by a mouse; and/or the image identification information is used for representing the contrast duration corresponding to the medical image; and/or the third preset condition comprises: the contrast duration corresponding to the medical image is within the second duration range.

Thus, the first instruction type is set to include at least: mouse-over, setting the second instruction type to include at least: the mouse is clicked, so that the interactive operation can be simplified, and the user experience is improved; the image identification information is used for representing the contrast duration corresponding to the medical image, so that the contrast duration of the medical image can be displayed in a hanging mode, a user can be assisted in selecting the medical image which is expected to be displayed, and the film reading efficiency is improved; the third preset condition is set to include that the contrast duration corresponding to the medical image is within the second duration range, so that the phase preference of the default loading is favorably met when the user switches the display, and the user experience is favorably improved.

A second aspect of the present application provides an image recognition apparatus comprising: the system comprises an image acquisition module, an image division module, a sequence selection module and an image display module, wherein the image acquisition module is used for acquiring a medical image obtained by scanning based on at least one scanning parameter; the image dividing module is used for dividing medical images obtained by scanning based on the same scanning parameter into the same group of image sequences; the sequence selection module is used for determining a target image sequence from at least one group of image sequences; the image display module is used for displaying the medical images in the target image sequence in a first area of the management interface.

A third aspect of the present application provides an electronic device comprising a memory, a human-computer interaction circuit and a processor, wherein the memory and the human-computer interaction circuit are coupled to the processor, and the processor is configured to execute program instructions stored in the memory so as to implement the medical image display method in the first aspect in combination with the human-computer interaction circuit.

A fourth aspect of the present application provides a computer-readable storage medium having stored thereon program instructions that, when executed by a processor, implement the medical image display method of the first aspect described above.

According to the scheme, the medical images obtained through scanning based on at least one scanning parameter are obtained, the medical images obtained through scanning based on the same scanning parameter are divided into the same group of image sequences, the target image sequence is determined from the at least one group of image sequences, and the medical images in the target image sequence are displayed in the first area of the management interface, so that the medical images are divided into different image sequences from the scanning parameter dimension, the target image sequence is automatically determined from the image sequences, the medical images in the target image sequence are displayed, the required medical images can be screened in an auxiliary mode during reading, the display effect of the medical images is improved, and the reading efficiency is improved.

Drawings

FIG. 1 is a schematic flow chart diagram illustrating an embodiment of a medical image display method of the present application;

FIG. 2 is a schematic flow chart diagram illustrating another embodiment of a medical image display method of the present application;

FIG. 3 is a schematic diagram of one embodiment of a management interface;

FIG. 4 is a schematic diagram of one embodiment of an image selection interface;

FIG. 5 is a schematic diagram of a framework of an embodiment of a medical image display apparatus according to the present application;

FIG. 6 is a block diagram of an embodiment of an electronic device of the present application;

FIG. 7 is a block diagram of an embodiment of a computer-readable storage medium of the present application.

Detailed Description

The following describes in detail the embodiments of the present application with reference to the drawings attached hereto.

In the following description, for purposes of explanation and not limitation, specific details are set forth such as particular system structures, interfaces, techniques, etc. in order to provide a thorough understanding of the present application.

The terms "system" and "network" are often used interchangeably herein. The term "and/or" herein is merely an association describing an associated object, meaning that three relationships may exist, e.g., a and/or B, may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship. Further, the term "plurality" herein means two or more than two.

Referring to fig. 1, fig. 1 is a schematic flow chart of an embodiment of a medical image display method according to the present application. Specifically, the method may include the steps of:

step S11: a medical image scanned based on at least one scanning parameter is acquired.

In the embodiment of the present disclosure, the medical image is set as a CT image or an MR image according to the actual application requirement, and is not limited herein. Specifically, the medical image may be obtained by scanning an area such as the abdomen and the chest, for example, when the medical image of the heart needs to be acquired, the area of the chest may be scanned, and may be specifically set according to an actual application, which is not limited herein.

In the disclosed embodiment, the scan parameters may be set to thin-layer scans (e.g., 64-row helical CT scans); alternatively, enhanced scanning may be set, and other scenes may be set according to actual needs, which is not limited herein.

In one implementation scenario, the system may be communicatively connected to an instrument for performing a medical scan, such that a medical image scanned by the instrument may be acquired; in another implementation scenario, the medical image may also be obtained by means of a flash medium, an email, and the like, which is not limited herein.

Step S12: and dividing medical images obtained by scanning based on the same scanning parameter into the same group of image sequences.

Specifically, the medical images may be divided according to different scanning parameters, so that the medical images scanned based on the same scanning parameter are divided into the same group of image sequences. For example, the acquired medical images specifically include: the medical image 1 of the thin layer scan, the medical image 2 of the thin layer scan, the medical image 3 of the enhanced scan, the medical image 4 of the enhanced scan, the medical image 5 of the enhanced scan, and the medical image 6 of the enhanced scan may be divided into the same group of image sequences, which may be referred to as an image sequence a for convenience of description, and the medical image 4 to the medical image 6 may be divided into the same group of image sequences, which may be referred to as an image sequence B for convenience of description. Other scenarios may be analogized, and are not exemplified here.

Step S13: a target image sequence is determined from at least one set of image sequences.

In one implementation scenario, the image sequence satisfying the first preset condition may be directly used as the target image sequence. Specifically, the first preset condition may include that the scanning parameter adopted by the medical image is a preset parameter. The preset reference may be specifically set according to the actual application requirement, and is not limited herein. For example, the preset parameters may be set as thin layer scanning according to the use habit of the user; alternatively, the preset parameters may be set to enhance scanning according to the usage preference of the medical institution, and are not limited herein. In addition, the first preset condition may also be set as other information according to application requirements, for example, the first preset condition may further include: the number of medical images included in the image sequence is the largest, and the like, and is not limited herein.

In a specific implementation scenario, the medical image display method in the embodiment of the present disclosure may be executed by an electronic device such as a microcomputer or a tablet computer, and the electronic device may run a medical image management program, and when the medical image management program is executed by a processor, the medical image display method in the embodiment of the present disclosure may be implemented. Specifically, after the electronic device acquires the medical images, the medical images scanned based on the same scanning parameter may be divided into the same group of image sequences, and a target image sequence satisfying a first preset condition is determined from at least one group of image sequences by default.

In another implementation scenario, at least one group of image sequences selected by the user can be determined as the target image sequence in response to a sequence selection instruction of the user, so that the target image sequence can be determined in response to the selection operation of the user to meet the film reading requirement of the user.

In a specific implementation scenario, in order to provide the user with auxiliary information for selecting the image sequences, a management interface may be further displayed, and a first region of the management interface may be configured to display the medical images, and a second region of the management interface may display sequence identification information of each group of image sequences, where the sequence identification information may specifically include at least one of: the text for representing the image sequence (e.g., "sequence 1", "sequence 2", etc.), the images for representing the image sequence (e.g., thumbnails of the image sequence), and the number of medical images included in the image sequence (e.g., "2", "3", etc.) may be specifically set according to the actual application requirement, and are not limited herein. By displaying the sequence identification information of each group of image sequences in the second area, auxiliary information for selecting the image sequences can be provided for the user, so that when the selection operation of the user on a certain image sequence is detected, the selected image sequence is taken as the target image sequence.

In another specific implementation scenario, the medical image display method in the embodiment of the present disclosure may be executed by an electronic device, and the electronic device may run a medical image management program, and when the medical image management program is executed by a processor, the medical image display method in the embodiment of the present disclosure may be implemented. Specifically, after determining a target image sequence satisfying the first preset condition from the at least one group of image sequences by default, the at least one group of image sequences selected by the user may be further determined as a new target image sequence in response to a sequence selection instruction by the user.

Step S14: medical images in the sequence of target images are displayed in a first region of the management interface.

In one implementation scenario, medical images of the target image sequence that satisfy the second preset condition may be displayed in the first region. Specifically, the second preset condition may include: the contrast duration for the medical image is in the first time duration range. In the embodiment of the present disclosure, the contrast duration represents the duration from the current time to the time when the contrast agent is injected into the blood vessel, and the medical images of different phases generally correspond to different contrast durations. Taking liver radiography as an example, the contrast time duration corresponding to the medical image in the arterial phase is about 30 seconds, the contrast time duration corresponding to the medical image in the portal phase is 31 to 120 seconds, and the contrast time duration corresponding to the medical image in the delay phase is 121 seconds to 6 minutes. Specifically, the first time length range may be set according to practical application requirements, for example, may be set to 20 seconds to 40 seconds, 40 seconds to 60 seconds, and the like, and is not limited herein. Still taking liver angiography as an example, the medical images of the arterial phase and the delay phase may be set to less than or equal to 30 seconds, or greater than 120 seconds, due to their greater reference value for the space-occupying lesion. The other organs can be set according to actual conditions, and the examples are not repeated.

In another implementation scenario, after determining the at least one set of image sequences selected by the user as the target image sequence in response to the sequence selection instruction of the user, at least one medical image may be selected from the target image sequence and the selected at least one medical image may be displayed in the first region. Specifically, the selected at least one medical image may be displayed in the first area according to detection of a user selection operation on the medical image in the target image sequence.

In yet another implementation scenario, after the medical image in the target image sequence is displayed in the first region of the management interface, the medical image may be further zoomed to a preset scale in response to a zoom operation of the medical image in the first region by the user; or, the marking information (e.g., circle drawing, etc.) of the medical image by the user may also be received in response to the marking operation of the medical image by the user in the first area, and other scenes may be set according to the actual application needs, which is not illustrated here.

In one implementation scenario, taking the heart as an example, medical images obtained by scanning based on scanning parameter a (such as thin layer scanning) and medical images obtained by scanning based on scanning parameter B (such as enhanced scanning) can be acquired, so that the medical images obtained by scanning based on scanning parameter a can be divided into image sequence 1 and the medical images obtained by scanning based on scanning parameter B can be divided into image sequence 2. On this basis, from the two sets of image sequences, one set of image sequence using the preset scanning parameters is selected as the target image sequence, and in the case where the preset scanning parameters are enhanced scanning, the image sequence 2 may be selected as the target image sequence. At this time, the second region of the management interface may display the sequence identification information of the image sequence 1 and the image sequence 2, and the sequence identification information may include: thumbnails representing the sets of image sequences, the phase images of the default loading of the sets of image sequences, the number of medical images included in the sets of image sequences, and so on, wherein the phase images of the default loading may specifically be the medical images satisfying the second preset condition as described above, such as for enhanced scanning, the phase images of the default loading may be the medical images of the arterial phase. At the same time, the first region of the management interface may display medical images of the arterial phase loaded by default by the target image sequence (i.e., image sequence 1). In the case where the user wants to view medical images of other image sequences (such as the image sequence 2), the image sequence selected by the user (such as the image sequence 2) may be taken as the target image sequence to switch the medical images displayed in the first region in response to the sequence selection instruction of the user in the second region. In this case, the first region may display the medical image loaded by default for a new target image sequence (e.g., image sequence 2). For example, in response to a sequence selection instruction for thumbnails of the image sequence 2 in the second area, the image sequence 2 may be taken as a target image sequence, and medical images of an arterial phase in which the image sequence 2 is loaded by default may be displayed in the first area. In addition, it should be noted that, no matter how many (e.g., one or more) image sequences are displayed in the second area, the image sequence selected by the user may be used as the target image sequence in response to the sequence selection instruction of the user in the second area. Other cases may be analogized, and no one example is given here.

According to the scheme, the medical images obtained through scanning based on at least one scanning parameter are obtained, the medical images obtained through scanning based on the same scanning parameter are divided into the same group of image sequences, the target image sequence is determined from the at least one group of image sequences, and the medical images in the target image sequence are displayed in the first area of the management interface, so that the medical images are divided into different image sequences from the scanning parameter dimension, the target image sequence is automatically determined from the image sequences, the medical images in the target image sequence are displayed, the required medical images can be screened in an auxiliary mode during reading, the display effect of the medical images is improved, and the reading efficiency is improved.

Referring to fig. 2, fig. 2 is a schematic flow chart of another embodiment of a medical image display method according to the present application. The method specifically comprises the following steps:

step S21: a medical image scanned based on at least one scanning parameter is acquired.

Reference may be made in particular to the relevant steps in the embodiments of the foregoing disclosure.

Step S22: and dividing medical images obtained by scanning based on the same scanning parameter into the same group of image sequences.

Reference may be made in particular to the relevant steps in the embodiments of the foregoing disclosure.

Step S23: and displaying the sequence identification information of each group of image sequences in a second area of the management interface.

Referring to fig. 3, fig. 3 is a schematic diagram of an embodiment of a management interface, as shown in fig. 3, a second region of the management interface may include a plurality of sub-regions, so that sequence identification information of an image sequence may be correspondingly displayed on each sub-region of the second region. For example, the number of medical images included in the image sequence may be displayed, such as "2" displayed in the first sub-region 301, which indicates that 2 medical images are included in the image sequence; alternatively, a "1" as displayed by the second sub-region 302 indicates that 1 medical image is included in the image sequence; alternatively, "2" as shown in the third sub-region 303 indicates that 2 medical images are included in the image sequence, and so on, which is not illustrated here. Furthermore, when the image sequence contains only 1 medical image, the sub-region may also not display the number "1". Through the arrangement, the logical relation between the image sequence and the medical image can be clearly understood, and the convenience of user management operation is improved.

In addition, the sub-region may further display image identification information of at least one medical image in the corresponding image sequence, which is used to indicate that when the sub-region is selected, the first region displays the medical image corresponding to the image identification information by default. Specifically, the image identification information is used to indicate a contrast duration corresponding to the medical image, as shown in fig. 3, the contrast duration may be expressed by a percentage, and a smaller percentage may indicate a shorter contrast duration, whereas a larger percentage may indicate a longer contrast duration.

In an implementation scenario, sequence identification information of an image sequence that satisfies a first preset condition may be displayed on a first sub-region of a second region, where the first preset condition may specifically refer to relevant descriptions in the foregoing disclosed embodiments, and details are not described here. In addition, if an image sequence which does not support display exists in at least one group of image sequences, sequence identification information of the image sequence which does not support display can be displayed on the last second area. By the arrangement, the image sequences which can support display, the image sequences which are preferentially displayed and the image sequences which cannot support display can be clearly and definitely distinguished, and the user experience is improved.

Step S24: and detecting the preset operation of the user on the sequence identification information, and generating a sequence selection instruction corresponding to the sequence identification information.

The preset operations may include, but are not limited to: the area where the click sequence identification information is located (e.g., the sub-area shown in fig. 3), the area where the long sequence identification information is located (e.g., the sub-area shown in fig. 3), and the area where the mouse hover sequence identification information is located (e.g., the sub-area shown in fig. 3) may be specifically set according to the actual application requirements, and are not limited herein.

Step S25: and determining at least one group of image sequences selected by the user as the target image sequence in response to the sequence selection instruction of the user.

Specifically, in response to the user clicking a region (e.g., a sub-region shown in fig. 3) where the sequence identification information is located, the selected image sequence may be taken as the target image sequence; alternatively, the selected image sequence may be used as the target image sequence in response to the user long-pressing the region (e.g., the sub-region shown in fig. 3) where the sequence identification information is located; alternatively, the selected image sequence may be used as the target image sequence in response to the region (e.g., the sub-region shown in fig. 3) where the mouse-over sequence identification information is located, and so on for other scenes, which is not illustrated here.

Step S26: at least one medical image is selected from the sequence of target images and the selected at least one medical image is displayed in the first region.

In one implementation scenario, an image selection interface including image identification information of each medical image in the target image sequence may be displayed, and a medical image corresponding to the image identification information selected by the user on the image selection interface may be selected. Specifically, the image identification information may be used to indicate a contrast duration corresponding to the medical image, which may specifically refer to the foregoing description and is not described herein again.

Specifically, referring to fig. 4, fig. 4 is a schematic diagram of an embodiment of an image selection interface. As shown in fig. 4, an image selection interface may be displayed within a preset range of a sub-region corresponding to the target image sequence (e.g., on a side of the sub-region), the image selection interface may display image identification information (e.g., percentage used for indicating contrast duration shown in fig. 4) of a medical image included in the target image sequence, and each image identification information is correspondingly provided with a selection box, and when a check of the selection box by the user is detected, the medical image to which the corresponding image identification information belongs may be determined as the medical image selected by the user.

In another implementation scenario, a medical image satisfying the third preset condition may also be directly selected in the target image sequence. Specifically, the third preset condition includes: the contrast duration corresponding to the medical image is within a second duration range, and the second duration range can be set according to actual application needs. For example, in the case of liver imaging, the medical images in the arterial phase and the delayed phase may be set to less than or equal to 30 seconds, or greater than 120 seconds, since they have a greater reference value for the space-occupying lesion. The other organs can be set according to actual conditions, and the examples are not repeated.

In yet another implementation scenario, an instruction type of the sequence selection instruction may also be determined, and specifically, the instruction type may include but is not limited to: mouse hovering, mouse clicking, long-time pressing operation and the like, which can be specifically set according to the actual application needs, and are not limited herein. After the instruction type of the sequence selection instruction is determined, in a case that the sequence selection instruction is of the first instruction type, performing an image selection interface that displays image identification information of each medical image in the target image sequence, and selecting a medical image corresponding to the image identification information selected by the user on the image selection interface. The first type of instruction may include at least a mouse hover. In addition, under the condition that the sequence selection instruction is of the second instruction type, selecting a medical image meeting a third preset condition in the target image sequence may be performed, which may specifically refer to the foregoing description and is not described herein again. The second instruction type may include at least: and clicking by a mouse. Through the arrangement, the medical image which is expected to be displayed can be selected by the user in an auxiliary mode, and therefore the film reading efficiency can be improved.

In a specific implementation scenario, when a mouse-over operation on the sequence identification information is detected, an image sequence to which the sequence identification information belongs may be used as a target image sequence, and an image selection interface is displayed, so as to select a medical image corresponding to the image identification information (shown in fig. 4 as a percentage for representing a contrast duration) selected by a user on the image selection interface, on the basis of which the first area may be switched to display the medical image corresponding to the image identification information. Therefore, when the target image sequence comprises a plurality of medical images, the medical images required to be displayed can be switched quickly by the user through the image selection interface, and the film reading efficiency is improved.

In another specific implementation scenario, when a mouse click operation on the sequence identification information is detected, an image sequence to which the sequence identification information belongs may be used as a target image sequence, and a medical image meeting a third preset condition is directly selected from the target image sequence, for example, a medical image with a contrast duration longer than 120 seconds is selected. Therefore, the corresponding third preset condition is set by user-definition, the default displayed medical image set by the user-definition can be quickly switched to, and the switching speed is favorably improved.

In yet another implementation scenario, when the target image sequence includes only one medical image, an image selection interface including image identification information of each medical image in the target image sequence may be displayed in response to a mouse-over instruction of the user, and a medical image corresponding to the image identification information selected by the user on the image selection interface may be selected, or a unique medical image in the target image sequence may be directly displayed in the first area in response to a mouse-click instruction of the user.

In one implementation scenario, still taking the heart as an example, as described in the foregoing disclosure, the user may learn the number of medical images included in each group of image sequences and the default loaded phase image through the sequence identification information of the image sequences displayed in the second region, then, in the case where the user wants to switch the phase image currently displayed in the first area, the mouse may be hovered over the sequence of images, an image selection interface may be displayed after the mouse is hovered over, the image selection interface may display image identification information (as shown in figure 4 for indicating a percentage of contrast time) for medical images included in the image sequence, and selecting a phase image (such as a delayed medical image) corresponding to a percentage in the image selection interface, so that the first area can switch and display the selected phase image (such as the delayed medical image).

Different from the embodiment, the medical image obtained by scanning based on at least one scanning parameter is obtained, the medical image obtained by scanning based on the same scanning parameter is divided into the same group of image sequences, the sequence identification information of each group of image sequences is displayed in the second area of the management interface, the preset operation of the user on the sequence identification information is detected, and the sequence selection instruction corresponding to the sequence identification information is generated.

Referring to fig. 5, fig. 5 is a schematic diagram of a medical image display apparatus 50 according to an embodiment of the present application. Specifically, the medical image display apparatus 50 includes: the system comprises an image acquisition module 51, an image dividing module 52, a sequence selection module 53 and an image display module 54, wherein the image acquisition module 51 is used for acquiring a medical image obtained by scanning based on at least one scanning parameter; the image dividing module 52 is configured to divide medical images obtained by scanning based on the same scanning parameter into the same group of image sequences; the sequence selection module 53 is configured to determine a target image sequence from at least one group of image sequences; the image display module 54 is configured to display the medical images in the target image sequence in a first region of the management interface.

According to the scheme, the medical images obtained through scanning based on at least one scanning parameter are obtained, the medical images obtained through scanning based on the same scanning parameter are divided into the same group of image sequences, the target image sequence is determined from the at least one group of image sequences, and the medical images in the target image sequence are displayed in the first area of the management interface, so that the medical images are divided into different image sequences from the scanning parameter dimension, the target image sequence is automatically determined from the image sequences, the medical images in the target image sequence are displayed, the required medical images can be screened in an auxiliary mode during reading, the display effect of the medical images is improved, and the reading efficiency is improved.

In some disclosed embodiments, the sequence selection module 53 is specifically configured to select, as the target image sequence, an image sequence satisfying a first preset condition, and the image display module 54 is specifically configured to display, in the first area, a medical image in the target image sequence that satisfies a second preset condition.

Different from the foregoing embodiment, by taking the image sequence satisfying the first preset condition as the target image sequence and displaying the medical image satisfying the second preset condition in the target image sequence in the first region, the preference of the user for the default loaded image sequence and the medical image can be favorably satisfied, so that the use habit of the user can be favorably attached, and the user experience can be improved.

In some disclosed embodiments, the first preset condition comprises: scanning parameters correspondingly adopted by the medical image are preset parameters; and/or the second preset condition comprises: the contrast duration for the medical image is in the first time duration range.

Different from the foregoing embodiment, setting the first preset condition to include that the scanning parameter correspondingly adopted by the medical image is the preset parameter can help to meet the preference of the user for the default loaded image sequence, and is favorable for improving the user experience; the second preset condition is set to include that the contrast duration corresponding to the medical image is within the first duration range, so that the preference of the user for the default loading phase can be favorably met, and the user experience is favorably improved.

In some disclosed embodiments, the sequence selection module 53 is further specifically configured to determine the at least one image sequence selected by the user as the target image sequence in response to a sequence selection instruction of the user, and the image display module 54 is further specifically configured to select at least one medical image from the target image sequence and display the selected at least one medical image in the first area.

In contrast to the foregoing embodiment, by responding to a sequence selection instruction of a user, taking at least one group of image sequences selected by the user as a target image sequence, selecting at least one medical image from the target image sequence, and displaying the selected at least one medical image in the first region, the user can be enabled to directly select a medical image in the target image sequence desired to be displayed from the organized medical images, thereby being capable of facilitating the improvement of the radiograph interpretation efficiency.

In some disclosed embodiments, the medical image display apparatus 50 further includes an identifier display module configured to display the sequence identifier information of each group of image sequences in the second area of the management interface, and the medical image display apparatus 50 further includes an instruction generation module configured to detect a preset operation performed by the user on the sequence identifier information, and generate a sequence selection instruction corresponding to the sequence identifier information.

Different from the embodiment, the sequence identification information of each group of image sequences is displayed in the second area of the management interface, and when the preset operation of the user on the sequence identification information is detected, the sequence selection instruction corresponding to the sequence identification information is generated, so that the image sequences can be visually displayed for the user to select, the film reading efficiency can be improved, and the user experience is improved.

In some disclosed embodiments, the sequence identification information includes at least one of: the second region comprises a plurality of sub-regions, and the identification display module is specifically used for correspondingly displaying sequence identification information of an image sequence on each sub-region of the second region.

Unlike the foregoing embodiment, the sequence identification information is set to include at least one of: the characters used for representing the image sequence, the images used for representing the image sequence and the quantity of the medical images contained in the image sequence can be beneficial to visually displaying the related information of each group of image sequence to a user, so that the user can be further assisted to select the medical images which are expected to be displayed, the learning cost is further reduced, the workload is reduced, the film reading efficiency is improved, and the user experience is improved; by arranging a plurality of sub-areas in the second area and correspondingly displaying the sequence identification information of an image sequence on each sub-area of the second area, the organization of the image sequence can be improved, and the display effect of the medical image can be improved.

In some disclosed embodiments, the image display module 54 includes a first selection sub-module configured to display an image selection interface including image identification information of each medical image in the target image sequence and select a medical image corresponding to the image identification information selected by the user on the image selection interface, or the image display module 54 includes a second selection sub-module configured to select a medical image satisfying a third preset condition in the target image sequence.

Different from the foregoing embodiment, by displaying an image selection interface including image identification information of each medical image in the target image sequence and selecting a medical image corresponding to the image identification information selected by the user on the image selection interface, relevant information of the medical images included in the image sequence can be provided for the user, so that the user can be further assisted in selecting a medical image desired to be displayed, and the image interpretation efficiency is improved; and the medical image meeting the third preset condition is directly selected from the target image sequence, so that the preference of the user on the default loaded medical image of the selected image sequence can be favorably met, and the user experience is favorably improved.

In some disclosed embodiments, the image display module 54 further includes an instruction determining sub-module, configured to determine an instruction type of the sequence selection instruction, where the first selection sub-module is specifically configured to, if the sequence selection instruction is of the first instruction type, execute an image selection interface that displays image identification information of each medical image in the target image sequence, and select a medical image corresponding to the image identification information selected on the image selection interface by the user, and the second selection sub-module is specifically configured to, if the sequence selection instruction is of the second instruction type, execute selection of a medical image that meets a third preset condition in the target image sequence.

Different from the foregoing embodiment, by determining the instruction type of the sequence selection instruction, in the case that the sequence selection instruction is the first instruction type, the image selection interface that includes the image identification information of each medical image in the target image sequence is executed and displayed, and the medical image corresponding to the image identification information selected by the user on the image selection interface is selected, and in the case that the sequence selection instruction is the second instruction type, the medical image that meets the third preset condition is selected in the target image sequence, and the medical image that is loaded and displayed can be determined according to different instruction types of the user, which can be further beneficial to improving user experience.

In some disclosed embodiments, the first instruction type includes at least: mouse-over, the second instruction type comprising at least: clicking by a mouse; and/or the image identification information is used for representing the contrast duration corresponding to the medical image; and/or the third preset condition comprises: the contrast duration corresponding to the medical image is within the second duration range.

Unlike the foregoing embodiment, the first instruction type is set to include at least: mouse-over, setting the second instruction type to include at least: the mouse is clicked, so that the interactive operation can be simplified, and the user experience is improved; the image identification information is used for representing the contrast duration corresponding to the medical image, so that the contrast duration of the medical image can be displayed in a hanging mode, a user can be assisted in selecting the medical image which is expected to be displayed, and the film reading efficiency is improved; the third preset condition is set to include that the contrast duration corresponding to the medical image is within the second duration range, so that the phase preference of the default loading is favorably met when the user switches the display, and the user experience is favorably improved.

Referring to fig. 6, fig. 6 is a schematic diagram of a frame of an embodiment of an electronic device 60 according to the present application. The electronic device 60 comprises a memory 61 and a processor 62, a human-computer interaction circuit 63, the memory 61 and the human-computer interaction circuit 63 are coupled to the processor 62, and the processor 62 is configured to execute program instructions stored in the memory 61 to implement the steps of any one of the above-mentioned embodiments of the medical image display method in combination with the human-computer interaction circuit 63. In one particular implementation scenario, electronic device 60 may include, but is not limited to: a microcomputer, a notebook computer, a tablet computer, etc., which are not limited herein.

In particular, the processor 62 is configured to control itself and the memory 61 and the human-computer interaction circuit 63 to implement the steps of any of the above-described embodiments of the medical image display method. The processor 62 may also be referred to as a CPU (Central Processing Unit). The processor 62 may be an integrated circuit chip having signal processing capabilities. The Processor 62 may also be a general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic, discrete hardware components. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. In addition, the processor 62 may be collectively implemented by an integrated circuit chip.

According to the scheme, the display effect of the medical image can be improved, and the film reading efficiency is improved.

Referring to fig. 7, fig. 7 is a block diagram illustrating an embodiment of a computer readable storage medium 70 according to the present application. The computer-readable storage medium 70 stores program instructions 701 executable by the processor, the program instructions 701 being for implementing the steps of any one of the embodiments of the medical image display method described above.

According to the scheme, the display effect of the medical image can be improved, and the film reading efficiency is improved.

In some embodiments, functions of or modules included in the apparatus provided in the embodiments of the present disclosure may be used to execute the method described in the above method embodiments, and specific implementation thereof may refer to the description of the above method embodiments, and for brevity, will not be described again here.

The foregoing description of the various embodiments is intended to highlight various differences between the embodiments, and the same or similar parts may be referred to each other, and for brevity, will not be described again herein.

In the several embodiments provided in the present application, it should be understood that the disclosed method and apparatus may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, a division of a module or a unit is merely one type of logical division, and an actual implementation may have another division, for example, a unit or a component may be combined or integrated with another system, or some features may be omitted, or not implemented. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some interfaces, and may be in an electrical, mechanical or other form.

Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on network elements. Some or all of the units can be selected according to actual needs to achieve the purpose of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

Claims (12)

1. A medical image display method, comprising:

acquiring a medical image obtained by scanning based on at least one scanning parameter;

dividing the medical images obtained by scanning based on the same scanning parameter into the same group of image sequences;

determining a target image sequence from at least one set of the image sequences; and

displaying the medical images in the target image sequence in a first area of a management interface.

2. The method of claim 1, wherein determining a target image sequence from at least one of the sets of image sequences comprises:

taking the image sequence meeting the first preset condition as the target image sequence; and

the displaying of the medical images in the target image sequence in a first region of a management interface includes:

and displaying medical images meeting a second preset condition in the target image sequence in the first area.

3. The method according to claim 2, wherein the first preset condition comprises: the scanning parameters correspondingly adopted by the medical image are preset parameters;

and/or the second preset condition comprises: the contrast duration corresponding to the medical image is within a first duration range.

4. The method of claim 1, wherein determining a target image sequence from at least one of the sets of image sequences further comprises:

in response to a sequence selection instruction of a user, determining at least one group of the image sequences selected by the user as the target image sequence; and

the displaying of the medical images in the target image sequence in a first region of a management interface includes:

selecting at least one medical image from the sequence of target images and displaying the selected at least one medical image in the first region.

5. The method of claim 4, wherein prior to said determining at least one set of said image sequences selected by a user as said target image sequence in response to a sequence selection instruction by a user, said method further comprises:

displaying the sequence identification information of each group of the image sequences in a second area of the management interface;

and detecting the preset operation of the user on the sequence identification information, and generating the sequence selection instruction corresponding to the sequence identification information.

6. The method of claim 5, wherein the sequence identification information comprises at least one of: text for representing the image sequence, images for representing the image sequence, the number of medical images comprised by the image sequence; and/or the presence of a gas in the gas,

the second area includes a plurality of sub-areas, and the displaying of the sequence identification information of each group of the image sequences in the second area of the management interface includes:

and correspondingly displaying sequence identification information of the image sequence on each sub-area of the second area.

7. The method according to any one of claims 4 to 6, wherein the selecting at least one medical image from the sequence of target images comprises:

displaying an image selection interface containing image identification information of each medical image in the target image sequence, and selecting the medical image corresponding to the image identification information selected by the user on the image selection interface; alternatively, the first and second electrodes may be,

and selecting a medical image meeting a third preset condition in the target image sequence.

8. The method of claim 7, wherein selecting at least one medical image from the sequence of target images comprises:

determining an instruction type of the sequence selection instruction;

under the condition that the sequence selection instruction is of a first instruction type, executing the image selection interface which displays the image identification information of each medical image in the target image sequence, and selecting the medical image corresponding to the image identification information selected by the user on the image selection interface;

and in the case that the sequence selection instruction is of a second instruction type, executing the selection of the medical image meeting a third preset condition in the target image sequence.

9. The method of claim 8, wherein the first instruction type comprises at least: mouse-over, the second instruction type comprising at least: clicking by a mouse;

and/or the image identification information is used for representing contrast duration corresponding to the medical image;

and/or the third preset condition comprises: the contrast duration corresponding to the medical image is within a second duration range.

10. A medical image display apparatus, characterized by comprising:

the image acquisition module is used for acquiring a medical image obtained by scanning based on at least one scanning parameter;

the image dividing module is used for dividing the medical images obtained by scanning based on the same scanning parameter into the same group of image sequences;

a sequence selection module for determining a target image sequence from at least one set of said image sequences;

and the image display module is used for displaying the medical images in the target image sequence in a first area of a management interface.

11. An electronic device comprising a memory, human-computer interaction circuitry, and a processor, the memory and the human-computer interaction circuitry coupled to the processor, the processor being configured to execute program instructions stored in the memory to implement the medical image display method of any one of claims 1 to 9 in conjunction with the human-computer interaction circuitry.

12. A computer-readable storage medium on which program instructions are stored, which program instructions, when executed by a processor, implement the medical image display method of any one of claims 1 to 9.

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