CN113876348A - Scanning image generation method, system, device and processing equipment - Google Patents

Abstract

The application relates to a scanned image generation method, a scanned image generation system, a scanned image generation device and a scanned image generation processing device. The method comprises the following steps: the method comprises the steps of acquiring a locating piece scanning instruction based on a locating piece scanning parameter setting area in a locating piece scanning imaging interface, generating a locating piece scanning image of a detected object according to target locating piece scanning parameters when a locating piece scanning control is triggered, acquiring locating information of a to-be-scanned part of the detected object based on the locating piece scanning image and the locating parameter setting area, and scanning the to-be-scanned part of the detected object according to the locating information of the to-be-scanned part to obtain a target scanning image of the to-be-scanned part. By adopting the method, the scanning parameters of the positioning sheet can be modified based on the scanning imaging interface of the positioning sheet, the positioning image scanning control in the interface is triggered to quickly generate the scanning image of the positioning sheet, and the positioning information of the part to be scanned is further modified based on the scanning imaging interface of the positioning sheet to quickly generate the target scanning image of the part to be scanned, so that the generation efficiency of the target scanning image is improved.

Description

Scanning image generation method, system, device and processing equipment

Technical Field

The present application relates to the field of medical imaging technologies, and in particular, to a method, a system, an apparatus, and a processing device for generating a scan image.

Background

Before formal CT scanning is performed by using an electronic Computed Tomography (CT) system, a scout strip scan needs to be performed on a detected object once to obtain a scout strip image of the detected object, so that medical staff can determine at least one region of interest in the scout strip image and perform formal CT scanning according to the region of interest.

In the conventional technology, a functional item of a locating plate scanning protocol in a protocol comprehensive management area is triggered, locating plate scanning parameters are set based on a triggering result, then a locating plate scanning image is generated, and finally a scanning image of a diagnosis part is generated based on the locating plate scanning image. If the currently generated scanning image of the diagnosis part does not meet the actual clinical requirement, a spacer scanning protocol function item can be newly established in the protocol comprehensive management area, and the scanning parameters of the target spacer are reset so as to regenerate the target scanning image of the target diagnosis part. However, the conventional method has a problem that the target scanned image generation efficiency is low.

Disclosure of Invention

In view of the above, it is necessary to provide a scan image generating method, system, device and processing apparatus for solving the above technical problems.

A scan image generation method, the method comprising:

acquiring a locating plate scanning instruction based on a locating plate scanning parameter setting area in a locating plate scanning imaging interface, wherein the locating plate scanning instruction comprises a target locating plate scanning parameter;

when the positioning image scanning control is triggered, generating a positioning sheet scanning image of the detected object according to the target positioning sheet scanning parameters;

acquiring positioning information of a part to be scanned based on the positioning sheet scanning image and the positioning parameter setting area;

and scanning the part to be scanned of the detected object according to the positioning information of the part to be scanned to obtain a target scanning image of the part to be scanned.

In one embodiment, the obtaining a topogram scanning instruction based on a topogram scanning parameter setting region in the topogram scanning imaging interface includes:

acquiring modified initial positioning sheet scanning parameters based on the positioning sheet scanning parameter setting area, and determining the target positioning sheet scanning parameters according to the modified initial positioning sheet scanning parameters;

and generating the locating plate scanning instruction according to the target locating plate scanning parameter.

In one embodiment, the topogram scan parameter setting region comprises a topogram scan parameter setting item; the acquiring of the modified initial locating plate scanning parameters based on the locating plate scanning parameter setting area comprises:

and acquiring the modified initial positioning sheet scanning parameters based on the first parameter setting information in the positioning sheet scanning parameter setting item.

In one embodiment, after detecting that the scout scan control is triggered, the method further comprises:

and acquiring a positioning scanning frame, and setting the positioning parameter setting area to be in a modifiable state.

In one embodiment, the acquiring the positioning information of the to-be-scanned part based on the positioning sheet scanned image and the positioning parameter setting area includes:

when the positioning parameter setting area is in a modifiable state, acquiring initial positioning information through second parameter setting information in the positioning parameter setting area;

determining a selected area of the positioning scanning frame on the positioning sheet scanning image according to the initial positioning information;

and determining the positioning information of the part to be scanned according to the selected area and the initial positioning information.

In one embodiment, the second parameter setting information includes a frame length of the positioning scan frame, a start position point and an end position point of the positioning scan frame.

In one embodiment, the method further comprises:

when the fact that a scanning part setting item in the locating piece scanning imaging interface is triggered is detected, locating information of other parts to be scanned is obtained based on the locating piece scanning image and the locating parameter setting area;

and scanning the other parts to be scanned of the detected object based on the positioning information of the other parts to be scanned to obtain target scanning images of the other parts to be scanned.

A scanned image generation system, the system comprising: medical image scanning equipment and processing equipment;

the processing device is configured to perform the steps in any of the above embodiments, and is configured to control the medical image scanning device to scan a to-be-scanned portion of a detected object, so as to obtain a target scan image of the to-be-scanned portion.

A scanned image generating apparatus, the apparatus comprising:

the instruction acquisition module is used for acquiring a positioning sheet scanning instruction according to a positioning sheet scanning parameter setting area in a positioning sheet scanning imaging interface, wherein the positioning sheet scanning instruction comprises a target positioning sheet scanning parameter;

the positioning sheet scanning image generating module is used for generating a positioning sheet scanning image of the detected object according to the target positioning sheet scanning parameters when the positioning image scanning control is detected to be triggered;

the positioning information acquisition module is used for acquiring positioning information of a part to be scanned according to the positioning sheet scanning image and the positioning parameter setting area;

and the target scanning image acquisition module is used for scanning the part to be scanned of the detected object according to the positioning information of the part to be scanned to obtain a target scanning image of the part to be scanned.

A processing device comprising a memory and a processor, the memory storing a computer program, the processor implementing the following steps when executing the computer program:

acquiring a locating plate scanning instruction based on a locating plate scanning parameter setting area in a locating plate scanning imaging interface, wherein the locating plate scanning instruction comprises a target locating plate scanning parameter;

when the positioning image scanning control is triggered, generating a positioning sheet scanning image of the detected object according to the target positioning sheet scanning parameters;

acquiring positioning information of a part to be scanned based on the positioning sheet scanning image and the positioning parameter setting area;

and scanning the part to be scanned of the detected object according to the positioning information of the part to be scanned to obtain a target scanning image of the part to be scanned.

According to the scanning image generation method, the system, the device and the processing equipment, the processing equipment can acquire a positioning sheet scanning instruction based on a positioning sheet scanning parameter setting area in a positioning sheet scanning imaging interface, generate a positioning sheet scanning image of a detected object according to a target positioning sheet scanning parameter when a positioning image scanning control is detected to be triggered, acquire positioning information of a part to be scanned based on the positioning sheet scanning image and the positioning parameter setting area, and scan the part to be scanned of the detected object according to the positioning information of the part to be scanned to obtain a target scanning image of the part to be scanned; the method can directly, flexibly and conveniently modify the scanning parameters of the positioning sheet in real time based on the setting area of the scanning parameters of the positioning sheet in the scanning and imaging interface of the positioning sheet, and trigger the scanning control part of the positioning image in the scanning and imaging interface of the positioning sheet to quickly generate the scanning image of the positioning sheet, and further directly, flexibly and conveniently modify the positioning information of the part to be scanned in real time based on the setting area of the positioning parameters in the scanning and imaging interface of the positioning sheet to quickly generate the target scanning image of the part to be scanned, thereby improving the generation efficiency of the target scanning image.

Drawings

FIG. 1 is a diagram of the internal structure of a processing device in one embodiment;

FIG. 2 is a schematic flow chart diagram of a scanned image generation method in one embodiment;

FIG. 3 is a flowchart illustrating a method for generating a spacer scan command according to one embodiment;

FIG. 4 is a diagram illustrating a topogram scanning imaging interface in accordance with an alternative embodiment;

fig. 5 is a block diagram showing the structure of a scanned image generating apparatus according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The scanned image generation method provided by the application can be applied to the processing equipment shown in FIG. 1. As shown in fig. 1, the processing device includes a processor, a memory, a network interface, a display screen, and an input device connected by a system bus. Wherein the processor of the processing device is configured to provide computing and control capabilities. The memory of the processing device includes a nonvolatile storage medium, an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the processing device is used for storing the topogram scanned image and the target scanned image. The network interface of the processing device is used to communicate with an external endpoint via a network connection. The computer program is executed by a processor to implement a scan image generation method.

Those skilled in the art will appreciate that the configuration shown in fig. 1 is a block diagram of only a portion of the configuration associated with the present application and does not constitute a limitation on the processing apparatus to which the present application is applied, and that a particular processing apparatus may include more or less components than those shown, or combine certain components, or have a different arrangement of components.

It should be noted that, in the scanned image generation method provided in the embodiment of the present application, the execution main body may be a scanned image generation apparatus, and the apparatus may be implemented as part or all of a processing device by software, hardware, or a combination of software and hardware. The execution bodies of the following method embodiments are described taking a processing device as an example. The following embodiments are implementation flows for a processing device to perform the generation of a topogram image.

In one embodiment, as shown in fig. 2, a scanned image generating method is provided, which is exemplified by the method applied to the processing device in fig. 1, and includes the following steps:

s100, acquiring a locating piece scanning instruction based on a locating piece scanning parameter setting area in a locating piece scanning imaging interface, wherein the locating piece scanning instruction comprises a target locating piece scanning parameter.

Specifically, in order to further improve the generation efficiency of the target scanning image, the locating plate scanning imaging interface designed in this embodiment has a locating plate scanning parameter setting area, so that the target locating plate scanning parameter setting is more convenient and faster. The processing device can receive a locating plate scanning imaging interface opening instruction input by a user, open the locating plate scanning imaging interface after responding to the opening instruction, and then acquire the locating plate scanning instruction based on a locating plate scanning parameter setting area in the locating plate scanning imaging interface. The mode of the user inputting the microcomputer tomography software opening instruction can be a mode of double-clicking the microcomputer tomography software by a mouse, a mode of inputting the microcomputer tomography software by voice to open, and other input modes. The topogram scan instructions may include target topogram scan parameters, which may include topogram scan radiation dose, topogram scan range, topogram scan voltage, topogram scan current, and the like. The interface of the locating piece scanning and imaging may be an interface of a web page end, and may also be an interface of an application program, which is not limited to this. The application program may be microcomputer tomography software.

It should be noted that the target spacer scanning parameter may be represented by a character, and the character may be a numeric value, an english symbol, another special symbol, or the like, but in the present embodiment, the character may be a numeric value.

S200, when the situation that the positioning image scanning control is triggered is detected, generating a positioning sheet scanning image of the detected object according to the target positioning sheet scanning parameters.

It should be noted that the spacer scanning imaging interface in this embodiment further includes a spacer scanning control, and the user may trigger the spacer scanning control through a mouse, and when the processing device detects that the spacer scanning control is triggered, the medical image scanning device may be controlled to scan the detected object according to the target spacer scanning parameter carried in the spacer scanning instruction, so as to generate a spacer scanning image of the detected object, and display the spacer scanning image. Alternatively, the scout scan image may be an overall scan image of the object to be examined.

In this embodiment, the topogram scanning imaging interface may further include a scanning body position selection area, where the scanning body position selection area may display a topogram scanning image, and the topogram scanning image may be displayed at any position of the scanning body position selection area. In practice, the processing device may control the medical image scanning device to scan the detected object according to the target topogram scanning parameter to generate a topogram scan image, and then display the topogram scan image in the scan body position selection area in the topogram scan imaging interface.

S300, based on the positioning sheet scanning image and the positioning parameter setting area, acquiring the positioning information of the part to be scanned.

It can be understood that, a user may directly set the positioning information of the to-be-scanned portion of the detected object in the positioning parameter setting area based on the positioning sheet scanned image and the positioning parameter setting area on the positioning sheet scanned imaging interface, the set positioning information of the to-be-scanned portion may be saved after the setting is completed, and then the processing device may obtain the set positioning information of the to-be-scanned portion, where the positioning information may be target positioning information or approximate positioning information, which is not limited herein. The positioning information may be represented by a character, which may be a numeric value, an english letter, other special symbols, or the like, but in the present embodiment, the character may be a numeric value.

S400, scanning the part to be scanned of the detected object according to the positioning information of the part to be scanned to obtain a target scanning image of the part to be scanned.

Specifically, the processing device may control the medical image scanning device to scan the to-be-scanned portion of the detected object according to the set positioning information of the to-be-scanned portion and the set scanning parameter of the to-be-scanned portion, so as to generate a target scanning image of the to-be-scanned portion of the detected object, and the target scanning image may be displayed in a scanning image display area on the topogram scanning imaging interface. In addition, if the scanning parameters of the target positioning sheet and the positioning information of the part to be scanned are modified for multiple times, a plurality of corresponding target scanning images can be generated, in this case, the plurality of target scanning images can be sequentially displayed in a scanning image display area in a row, the target scanning image displayed on the current interface is the latest generated scanning image, and the plurality of target scanning images can be displayed on the current interface of the scanning image display area in a mouse rolling manner.

In addition, the above-mentioned locating piece scanning instruction may also be understood as a locating piece scanning modification instruction, that is, when the target scanned image obtained after the last positioning scanning is completed does not meet the actual requirement, the target locating piece scanning parameter may be directly set on the locating piece scanning imaging interface to obtain the locating piece scanning modification instruction.

The target scan image may be understood as a scan image of a portion to be scanned of the object to be examined. The topogram scan image may include a target scan image. The area size of the topogram scan image may be greater than the area size of the target scan image. The part to be scanned may be an entire part of the head, arms, legs, hands, or the like of the subject, or may be a partial part of the head, arms, legs, hands, or the like.

In addition, the target scan image may overlay previously generated scan images that do not meet actual diagnostic requirements. The storage location of the target scan image may be local or cloud, or may be a hard disk, etc., which is not limited herein. In this embodiment, if the acquired scan image of the detected object does not meet the actual diagnosis requirement, the user can directly, flexibly and conveniently modify the scan parameters of the positioning sheet and the positioning information of the to-be-scanned part on the scanning imaging interface of the positioning sheet in real time, so as to further acquire the target scan image meeting the actual diagnosis requirement, thereby rapidly implementing the process of repeated positioning and scanning.

The scanning image generation method can directly, flexibly and conveniently modify the scanning parameters of the positioning sheet in real time based on the positioning sheet scanning parameter setting area in the positioning sheet scanning imaging interface, and trigger the positioning image scanning control in the positioning sheet scanning imaging interface to quickly generate the scanning image of the positioning sheet, and further directly, flexibly and conveniently modify the positioning information of the part to be scanned in real time based on the positioning parameter setting area in the positioning sheet scanning imaging interface to quickly generate the target scanning image of the part to be scanned, so that the generation efficiency of the target scanning image is improved; meanwhile, the method avoids the problem that the new functional item of the scanning protocol of the spacer can modify the scanning parameters of the spacer and the positioning information of the part to be scanned, can directly, flexibly and conveniently modify the scanning parameters of the spacer and the positioning information of the part to be scanned on the scanning imaging interface of the spacer so as to quickly generate a target scanning image which meets the actual diagnosis requirement, and can cover the scanning image which does not meet the actual diagnosis requirement before, thereby reducing the image storage space.

As an embodiment, as shown in fig. 3, the step of obtaining the topogram scanning instruction based on the topogram scanning parameter setting area in the topogram scanning imaging interface in S100 may be implemented by the following steps:

s110, acquiring the modified initial positioning sheet scanning parameters based on the positioning sheet scanning parameter setting area, and determining the target positioning sheet scanning parameters according to the modified initial positioning sheet scanning parameters.

Specifically, if the set initial positioning sheet scanning parameters exist in the positioning sheet scanning parameter setting area, but the corresponding target scanning image generated by the initial positioning sheet scanning parameters does not meet the actual diagnosis requirement, at this time, the user can directly modify the initial positioning sheet scanning parameters based on the positioning sheet scanning parameter setting area, and meanwhile, the processing device can acquire the modified initial positioning sheet scanning parameters and determine the modified initial positioning sheet scanning parameters as the target positioning sheet scanning parameters, so that the processing device can generate the corresponding target scanning image meeting the actual diagnosis requirement through the set target positioning sheet scanning parameters. After the scanning parameters of the target positioning sheet are set, the scanning parameters of the target positioning sheet can be always displayed in the scanning parameter setting area of the positioning sheet. The initial locating piece scanning parameter can be a locating piece scanning parameter displayed in a locating piece scanning parameter setting area before a user does not modify operation.

And S120, generating a locating piece scanning instruction according to the target locating piece scanning parameters.

It should be noted that the processing device may input the target topogram scanning parameter in the topogram scanning parameter setting area directly displayed on the topogram scanning imaging interface according to the user, so as to generate the topogram scanning instruction.

The scanning image generation method can be based on the setting area of the scanning parameter of the positioning sheet, determine the scanning parameter of the target positioning sheet through the modified scanning parameter of the initial positioning sheet, generate the scanning instruction of the positioning sheet according to the scanning parameter of the target positioning sheet, and further generate the scanning image of the positioning sheet of the detected object based on the scanning instruction of the positioning sheet.

As one of the embodiments, the topogram scan parameter setting region includes a topogram scan parameter setting item; the step of obtaining the modified initial positioning sheet scanning parameter based on the positioning sheet scanning parameter setting area in S110 may specifically include: and acquiring the modified initial positioning sheet scanning parameters based on the first parameter setting information in the positioning sheet scanning parameter setting item.

Specifically, the setting item of the scanning parameter of the spacer in the setting area of the scanning parameter of the spacer may be a setting item of a scanning radiation dose of the spacer, a setting item of a scanning range of the spacer, a setting item of a scanning voltage of the spacer, a setting item of a scanning current of the spacer, and correspondingly, the setting information of the first parameter in the setting item of the scanning parameter of the spacer may be a setting item of a scanning radiation dose of the spacer, a scanning range of the spacer, a scanning voltage of the spacer, a scanning current of the spacer, and the like. The user can modify the initial positioning sheet scanning parameters based on the first parameter setting information in the positioning sheet scanning parameter setting item, after the modification is finished, the processing device can acquire the modified initial positioning sheet scanning parameters, and then the modified initial positioning sheet scanning parameters are determined as the target positioning sheet scanning parameters.

The first parameter setting information comprises scanning voltage, scanning current, scanning exposure time and a locating piece scanning mode.

In this embodiment, the first parameter setting information in the above item of spacer scanning parameter setting may be a scanning voltage, a scanning current, a scanning exposure time, and a spacer scanning manner. The term "view angle of the spacer" is understood to mean the scanning angle of the spacer, and in this embodiment, the scanning mode of the spacer displayed in the parameter setting area of the spacer is a scanning mode, which includes a top-down shooting mode (i.e. front), a side scanning mode (i.e. late), and a mode supporting both top-down and side scanning (i.e. Dual). If the acquired scanning image of the detected object does not meet the actual diagnosis requirement, the user can modify the first parameter setting information to acquire the scanning parameters of the target positioning sheet meeting the actual diagnosis requirement. The problems that the contrast ratio of a scanned image is low, the definition of the scanned image is low and the like can be understood when the actual diagnosis requirements are not met, for example, the problems that the definition of the scanned image is low and the like can be caused when the scanning voltage and the scanning current of the positioning plate are too low, and the problems that the definition of the scanned image of soft tissues is low and the like can be caused when the scanning voltage and the scanning current of the positioning plate are too high are solved.

The scanning image generation method can obtain the modified initial positioning sheet scanning parameters based on the first parameter setting information in the positioning sheet scanning parameter setting items, determine the target positioning sheet scanning parameters through the modified initial positioning sheet scanning parameters, and further generate the positioning sheet scanning images of the detected object through the target positioning sheet scanning parameters.

As one embodiment, after detecting that the scout scan control is triggered, the scan image generation method may further include: and acquiring a positioning scanning frame, and setting the positioning parameter setting area to be in a modifiable state.

Specifically, after the processing device detects that the scout scan control is triggered, the scout scan image may be displayed in a scan body position selection area in the scout scan imaging interface, and the scan body position selection area may further display a positioning scan frame, that is, a planbox frame. In this embodiment, after the control for scanning the positioning image is triggered, scanning of the positioning sheet of the object to be detected is performed, and after scanning of the positioning sheet is completed, the setting area of the positioning parameter in the scanning imaging interface of the positioning sheet can be unlocked, i.e., the state can be modified, so that a user can set the positioning information of the part to be scanned in the setting area of the positioning parameter, that is, after scanning of the positioning sheet of the object to be detected is not completed, the setting area of the scanning parameter of the positioning sheet in the scanning imaging interface of the positioning sheet is in an unlocked state, and the setting area of the positioning parameter is in a locked state. In this embodiment, the topogram scan parameter setting area is always in the unlocked state so that the user can frequently modify the topogram scan parameters.

In addition, the processing device may synthetically modify the positioning parameters based on the positioning scanning frame and/or the positioning parameter setting area to obtain the positioning information of the part to be scanned, i.e., the target positioning information.

The scanning image generation method can acquire the positioning scanning frame, set the positioning parameter setting area to be in a modifiable state, further acquire the positioning information of the part to be scanned according to the positioning scanning frame and/or the positioning parameter setting area, and scan the part to be scanned of the detected object according to the positioning information of the part to be scanned to obtain a target scanning image of the detected object; the method can directly, flexibly and conveniently modify the positioning information of the part to be scanned in real time based on the positioning parameter setting area in the scanning imaging interface of the positioning scanning frame and/or the positioning sheet so as to quickly generate the target scanning image of the part to be scanned, thereby improving the generation efficiency of the target scanning image.

As an embodiment, the step of acquiring the positioning information of the to-be-scanned part based on the positioning sheet scanned image and the positioning parameter setting area in S300 may specifically include: when the positioning parameter setting area is in a modifiable state, acquiring initial positioning information through second parameter setting information in the positioning parameter setting area; determining a selected area of a positioning scanning frame on a scanned image of a positioning sheet according to the initial positioning information; and determining the positioning information of the part to be scanned according to the selected area and the initial positioning information.

Specifically, when the positioning parameter setting area is in a modifiable state, the user may modify the second parameter setting information in the positioning parameter setting area in an input manner such as a mouse or a keyboard in the positioning parameter setting area to obtain initial positioning information, and at this time, the computer device may obtain the initial positioning information and output the positioning scan frame in a corresponding selected area on the positioning sheet scanned image according to the initial positioning information. After the initial positioning information is set, the positioning scanning frame can be automatically dragged, the specific position information of the dragged positioning scanning frame corresponds to the initial positioning information after the setting is completed, that is, the position of the positioning scanning frame and the second parameter setting information in the positioning parameter setting area can be synchronously updated. In the initial state, the initial position information corresponding to the positioning scanning frame may be the same as the positioning information displayed by the second parameter setting information in the positioning parameter setting area in the initial state.

Further, the computer device may obtain the positioning information storage instruction or the positioning information modification instruction based on the selected area where the positioning scanning frame is located, and obtain the positioning information of the part to be scanned after responding to the determination instruction or the positioning information modification instruction. The user can determine whether the part to be scanned of the detected object is selected according to the selected area, if the part to be scanned is determined to be selected, a positioning information storage instruction can be input to the computer equipment in an input mode of voice or moving a mouse arrow to any other position outside the positioning parameter setting area, so that the computer equipment stores the currently set initial positioning information, and the currently set initial positioning information is determined as the positioning information of the part to be scanned; if the part to be scanned is determined not to be selected, at this time, the initial positioning information can be continuously modified in the positioning parameter setting area so that the computer equipment can receive the positioning information modification instruction, then whether the modified initial positioning information is the positioning information of the part to be scanned is determined according to the modified initial positioning information and the currently selected area, if yes, the modified initial positioning information is determined as the positioning information of the part to be scanned, and if not, the steps are continued until the modified initial positioning information is the positioning information of the part to be scanned.

Meanwhile, when the positioning parameter setting area is in a modifiable state, a user can drag the positioning scanning frame through a mouse to drag the positioning scanning frame to a position corresponding to a part to be scanned in a scanned image of the positioning sheet so as to generate positioning information of the part to be scanned, meanwhile, second parameter setting information in the positioning parameter setting area can be automatically updated, and the updated second parameter setting information corresponds to specific position information of the dragged positioning scanning frame. It is understood that, when the positioning parameter setting area is in a modifiable state, the positioning information of the part to be scanned may be modified comprehensively based on the initial position information of the positioning scanning frame and/or the second parameter setting information in the positioning parameter setting area, so that the processing device acquires the positioning information of the part to be scanned. The shape of the positioning scanning frame can be rectangular, circular, oval, and other shapes.

The second parameter setting information comprises the frame length of the positioning scanning frame, and the starting position point and the ending position point of the positioning scanning frame.

In this embodiment, the positioning scan frame may be square, and the second parameter setting information displayed in the positioning parameter setting area in the topogram scanning imaging interface may include a frame length of the positioning scan frame, and a start position point and an end position point of the positioning scan frame. As shown in fig. 4, ScanRange displayed in the positioning parameter setting area may represent second parameter setting information, which includes a frame Length of the positioning scan frame, a Start position point and an End position point of the positioning scan frame, or the positioning parameter setting area may directly display three setting items, namely, the frame Length of the positioning scan frame, the Start position point and the End position point of the positioning scan frame, without displaying ScanRange setting items, where Length displayed in the positioning parameter setting area represents the frame Length of the positioning scan frame, Start represents the Start position point of the positioning scan frame, and End represents the End position point of the positioning scan frame.

Illustratively, fig. 4 is a diagram showing a topogram scanning imaging interface in which Top and Side controls below the scan body position selection area are simultaneously presented on the interface in the Dual mode in the topogram scanning mode. If the scanning mode of the positioning sheet is set to be a Frantal mode, the Top control can be in a locking state, and under the condition, a scanning image of the positioning sheet displayed in the scanning body position selection area is an image scanned from Top to bottom; if the locating piece scanning mode is set to be in a Lateral mode, the Side control can be in a locked state, in this case, a locating piece scanning image displayed in the scanning body position selection area is an image scanned from the Side, the images can be displayed in the scanning body position selection area, the scanning body position selection area can be a left black rounded rectangle area in fig. 4, a black maximum rounded rectangle area (middle area) displayed in fig. 4 can display a target scanning image, two rounded rectangle strips carrying time below the black maximum rounded rectangle area can display the progress of generating the target scanning image in each positioning scanning process, namely 1StepAndShoot and 2StepAndShoot, and the time on each progress strip can represent the total time of generating the target scanning image.

Meanwhile, the area below the area displaying the progress bar in the locating piece scanning imaging interface may also display the vital sign information of the detected subject, such as the respiration curve graph, the electrocardiogram curve graph, the body temperature and the blood oxygen concentration shown in fig. 4, and the vital sign information of the detected subject may be displayed on the locating piece scanning imaging interface in the initial state. In addition, two items of StepAndShoot displayed in the right area of the locating piece scanning imaging interface can set items for scanning parts set in the locating scanning process, the experimental information displayed below the locating piece scanning imaging interface can be ID information of a detected object currently operating and processing equipment, a currently processed item name, a position where a target scanning image is stored, and the like, the equipment state displayed below the locating piece scanning imaging interface can be position information of a scanning bed and control information of medical image scanning equipment, the scanning parameters (i.e. the scanning parameters of the part to be scanned) on the right side of the locating piece scanning imaging interface and second parameter setting information can be synchronously set, the reconstruction parameters and the second parameter setting information on the right side of the locating piece scanning imaging interface can also be synchronously set, in this embodiment, after a user sets the locating information, the scanning parameters and the reconstruction parameters of the part to be scanned, the start scanning control on the locating piece scanning imaging interface can be triggered, and then the processing device can control the medical image scanning device to scan the part to be scanned of the detected object so as to generate a target scanning image, and the target scanning image is displayed at any position in the black maximum rounded rectangle area. The locating piece scanning imaging interface also comprises a scanning ending control, and a user can trigger the scanning ending control in an input mode to stop the scanning process at any time. The function of the locating piece scanning imaging interface for setting the reconstruction parameters is that the processing equipment reconstructs scanning data based on the set reconstruction parameters after receiving the scanning data sent by the medical image scanning equipment so as to obtain a target scanning image.

The scanning image generation method can acquire the positioning information of the part to be scanned based on the initial position information of the positioning scanning frame and the second parameter setting information in the positioning parameter setting area when the positioning parameter setting area is in a modifiable state, and then scan the part to be scanned of the detected object according to the positioning information of the part to be scanned to obtain a target scanning image of the detected object; the method can directly, flexibly and conveniently modify the positioning information of the part to be scanned in real time based on the positioning parameter setting area in the scanning imaging interface of the positioning scanning frame and/or the positioning sheet so as to quickly generate the target scanning image of the part to be scanned, thereby improving the generation efficiency of the target scanning image.

As an embodiment, after all the steps are performed, the method for generating a scan image may further include: when the fact that a scanning part setting item in a locating piece scanning imaging interface is triggered is detected, locating information of other parts to be scanned is obtained based on a locating piece scanning image and a locating parameter setting area; and scanning other parts to be scanned of the detected object based on the positioning information of other parts to be scanned to obtain target scanning images of other parts to be scanned.

Specifically, if a user needs to perform positioning scanning on multiple parts of an object to be detected, after the positioning scanning of a part to be scanned is completed, each scanning part setting item in the positioning sheet scanning imaging interface can be continuously triggered, after the computer device detects that the scanning part setting item is triggered, the positioning parameter setting area can be set to be in a modifiable state, then the positioning information of other parts to be scanned is set through the second parameter setting information in the positioning parameter setting area, and further, based on the positioning information of other parts to be scanned, other parts to be scanned of the object to be detected are scanned, so as to obtain target scanning images corresponding to the other parts to be scanned. Wherein, different scanning position setting items correspond to different positions to be scanned.

It should be noted that, for the same object to be examined, target scan images corresponding to multiple parts to be scanned may be displayed on the same interface, so that the user may view the scan results of multiple parts to be scanned at the same time.

The scanning image generation method can unlock the positioning parameter setting item and the scanning parameter setting item of the positioning parameter setting area only by one-time positioning sheet scanning when a plurality of parts to be scanned are scanned, and can start scanning other parts to be scanned of the same detected object by setting the positioning parameter information and the scanning parameter information; therefore, a plurality of parts to be scanned of the same detected object can be rapidly positioned and scanned, and the generation efficiency of the target scanning image is improved.

In order to facilitate understanding of those skilled in the art, the scan image generation method provided in the present application is described by taking an execution subject as a processing device, and specifically, the method includes:

(1) and acquiring the modified initial positioning sheet scanning parameters based on the first parameter setting information in the positioning sheet scanning parameter setting items in the positioning sheet scanning parameter setting area, and determining the target positioning sheet scanning parameters according to the modified initial positioning sheet scanning parameters.

(2) And generating a locating piece scanning instruction according to the target locating piece scanning parameters.

(3) When the positioning image scanning control is triggered, generating a positioning sheet scanning image of the detected object according to the target positioning sheet scanning parameters, and acquiring a positioning scanning frame and setting a positioning parameter setting area to be in a modifiable state.

(4) When the positioning parameter setting area is in a modifiable state, acquiring initial positioning information through second parameter setting information in the positioning parameter setting area; the second parameter setting information includes the frame length of the positioning scanning frame, and the start position point and the end position point of the positioning scanning frame.

(5) And determining the selected area of the positioning scanning frame on the scanned image of the positioning film through the initial positioning information.

(6) And determining the positioning information of the part to be scanned according to the selected area and the initial positioning information.

(7) And scanning the part to be scanned of the detected object according to the positioning information of the part to be scanned to obtain a target scanning image of the detected object.

(8) When the scanning part setting item in the locating piece scanning imaging interface is triggered, the locating information of other parts to be scanned is acquired based on the locating piece scanning image and the locating parameter setting area.

(9) And scanning other parts to be scanned of the detected object based on the positioning information of other parts to be scanned to obtain target scanning images of other parts to be scanned.

For the implementation processes of (1) to (9), reference may be specifically made to the description of the above embodiments, and the implementation principles and technical effects thereof are similar and will not be described herein again.

Another embodiment provides a scanned image generating system; the scanned image generation system includes: medical image scanning equipment and processing equipment.

Wherein the processing device is configured to perform the method in any of the embodiments corresponding to fig. 2 to 3.

Specifically, the processing device may obtain a locating plate scanning instruction based on a locating plate scanning parameter setting region in a locating plate scanning imaging interface, generate a locating plate scanning image of the detected object according to the target locating plate scanning parameter when it is detected that a locating image scanning control is triggered, obtain locating information of the to-be-scanned portion based on the locating plate scanning image and the locating parameter setting region, and control the medical image scanning device to scan the to-be-scanned portion of the detected object according to the locating information of the to-be-scanned portion, so as to obtain a target scanning image of the detected object. The medical image scanning device may be a CT device, a positron emission computed tomography system, a single photon emission computed tomography device, and the like, which is not limited in this embodiment.

The scanned image generation system provided in this embodiment may implement the above method embodiments, and the implementation principle and technical effect are similar, which are not described herein again.

It should be understood that although the various steps in the flow charts of fig. 2-3 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2-3 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed in turn or alternately with other steps or at least some of the other steps.

In one embodiment, as shown in fig. 5, there is provided a scanned image generating apparatus including: the system comprises an instruction acquisition module 11, a locating piece image generation module 12, a locating information acquisition module 13 and a first control scanning module 14, wherein:

the instruction acquisition module 11 is configured to acquire a locating plate scanning instruction according to a locating plate scanning parameter setting area in a locating plate scanning imaging interface, where the locating plate scanning instruction includes a target locating plate scanning parameter;

the locating plate image generating module 12 is configured to generate a locating plate scanning image of the detected object according to the target locating plate scanning parameter when the locating image scanning control is triggered;

a positioning information obtaining module 13, configured to obtain positioning information of a to-be-scanned portion according to the positioning sheet scanned image and the positioning parameter setting area;

the first control scanning module 14 is configured to scan a to-be-scanned portion of the detected object according to the positioning information of the to-be-scanned portion, so as to obtain a target scanning image of the to-be-scanned portion.

The scanned image generating apparatus provided in this embodiment may implement the above method embodiments, and the implementation principle and the technical effect are similar, which are not described herein again.

In one embodiment, the instruction obtaining module 11 includes: wherein:

the scanning parameter acquiring unit is used for acquiring modified initial positioning sheet scanning parameters based on the positioning sheet scanning parameter setting area and determining target positioning sheet scanning parameters according to the modified initial positioning sheet scanning parameters;

and the instruction generating unit is used for generating a positioning sheet scanning instruction according to the target positioning sheet scanning parameters.

The scanned image generating apparatus provided in this embodiment may implement the above method embodiments, and the implementation principle and the technical effect are similar, which are not described herein again.

In one embodiment, the topogram scan parameter setting region includes a topogram scan parameter setting item; the scanning parameter obtaining unit is specifically configured to obtain the modified initial positioning sheet scanning parameter according to the first parameter setting information in the positioning sheet scanning parameter setting item.

The scanned image generating apparatus provided in this embodiment may implement the above method embodiments, and the implementation principle and the technical effect are similar, which are not described herein again.

In one embodiment, the scan image generating apparatus further includes: a scan frame acquisition module, wherein:

and the scanning frame acquisition module is used for acquiring the positioning scanning frame and setting the positioning parameter setting area into a modifiable state.

The scanned image generating apparatus provided in this embodiment may implement the above method embodiments, and the implementation principle and the technical effect are similar, which are not described herein again.

In one embodiment, the positioning information obtaining module 13 includes: the device comprises an initial information acquisition unit, a selected area determination unit and a positioning information determination unit, wherein:

the initial information acquisition unit is used for acquiring initial positioning information through second parameter setting information in the positioning parameter setting area when the positioning parameter setting area is in a modifiable state;

the selected area determining unit is used for determining the selected area of the positioning scanning frame on the scanned image of the positioning sheet according to the initial positioning information;

the positioning information determining unit is used for determining the positioning information of the part to be scanned according to the selected area and the initial positioning information;

the second parameter setting information comprises the frame length of the positioning scanning frame, and the starting position point and the ending position point of the positioning scanning frame.

The scanned image generating apparatus provided in this embodiment may implement the above method embodiments, and the implementation principle and the technical effect are similar, which are not described herein again.

In one embodiment, the scan image generating apparatus further includes: a setup module and a second control scan module, wherein:

the setting module is used for acquiring positioning information of other parts to be scanned based on a positioning sheet scanning image and a positioning parameter setting area when a scanning part setting item in a positioning sheet scanning imaging interface is triggered;

and the second control scanning module is used for scanning other parts to be scanned of the detected object based on the positioning information of other parts to be scanned to obtain target scanning images of other parts to be scanned.

The scanned image generating apparatus provided in this embodiment may implement the above method embodiments, and the implementation principle and the technical effect are similar, which are not described herein again.

In one embodiment, there is provided a processing device comprising a memory and a processor, the memory having stored therein a computer program, the processor implementing the following steps when executing the computer program:

acquiring a locating plate scanning instruction based on a locating plate scanning parameter setting area in a locating plate scanning imaging interface, wherein the locating plate scanning instruction comprises a target locating plate scanning parameter;

when the positioning image scanning control is triggered, generating a positioning sheet scanning image of the detected object according to the target positioning sheet scanning parameters;

based on the positioning sheet scanning image and the positioning parameter setting area, acquiring positioning information of a part to be scanned;

and scanning the part to be scanned of the detected object according to the positioning information of the part to be scanned to obtain a target scanning image of the part to be scanned.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of:

acquiring a locating plate scanning instruction based on a locating plate scanning parameter setting area in a locating plate scanning imaging interface, wherein the locating plate scanning instruction comprises a target locating plate scanning parameter;

when the positioning image scanning control is triggered, generating a positioning sheet scanning image of the detected object according to the target positioning sheet scanning parameters;

based on the positioning sheet scanning image and the positioning parameter setting area, acquiring positioning information of a part to be scanned;

and scanning the part to be scanned of the detected object according to the positioning information of the part to be scanned to obtain a target scanning image of the part to be scanned.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A scan image generation method, the method comprising:

acquiring a locating plate scanning instruction based on a locating plate scanning parameter setting area in a locating plate scanning imaging interface, wherein the locating plate scanning instruction comprises a target locating plate scanning parameter;

when the positioning image scanning control is triggered, generating a positioning sheet scanning image of the detected object according to the target positioning sheet scanning parameters;

acquiring positioning information of a part to be scanned based on the positioning sheet scanning image and the positioning parameter setting area;

and scanning the part to be scanned of the detected object based on the positioning information of the part to be scanned to obtain a target scanning image of the part to be scanned.

2. The method of claim 1, wherein obtaining the topogram scan command based on the topogram scan parameter setting region in the topogram scan imaging interface comprises:

acquiring modified initial positioning sheet scanning parameters based on the positioning sheet scanning parameter setting area, and determining the target positioning sheet scanning parameters according to the modified initial positioning sheet scanning parameters;

and generating the locating plate scanning instruction according to the target locating plate scanning parameter.

3. The method of claim 2, wherein the topogram scan parameter setting region includes a topogram scan parameter setting item; the acquiring of the modified initial locating plate scanning parameters based on the locating plate scanning parameter setting area comprises:

and acquiring the modified initial positioning sheet scanning parameters based on the first parameter setting information in the positioning sheet scanning parameter setting item.

4. The method of any of claims 1-3, wherein after detecting that a scout scan control is triggered, the method further comprises:

and acquiring a positioning scanning frame, and setting the positioning parameter setting area to be in a modifiable state.

5. The method according to claim 4, wherein the acquiring the positioning information of the part to be scanned based on the positioning sheet scanning image and the positioning parameter setting area comprises:

when the positioning parameter setting area is in a modifiable state, acquiring initial positioning information through second parameter setting information in the positioning parameter setting area;

determining a selected area of the positioning scanning frame on the positioning sheet scanning image according to the initial positioning information;

and determining the positioning information of the part to be scanned according to the selected area and the initial positioning information.

6. The method according to claim 5, wherein the second parameter setting information comprises a frame length of the positioning scan frame, a start position point and an end position point of the positioning scan frame.

7. The method of claim 1, further comprising:

when the fact that a scanning part setting item in the locating piece scanning imaging interface is triggered is detected, locating information of other parts to be scanned is obtained based on the locating piece scanning image and the locating parameter setting area;

and scanning the other parts to be scanned of the detected object based on the positioning information of the other parts to be scanned to obtain target scanning images of the other parts to be scanned.

8. A scanned image generation system, the system comprising: medical image scanning equipment and processing equipment;

the processing device is adapted to perform the steps of the method of any one of claims 1-7.

9. A scanned image generating apparatus, characterized in that the apparatus comprises:

the instruction acquisition module is used for acquiring a positioning sheet scanning instruction according to a positioning sheet scanning parameter setting area in a positioning sheet scanning imaging interface, wherein the positioning sheet scanning instruction comprises a target positioning sheet scanning parameter;

the positioning sheet scanning image generating module is used for generating a positioning sheet scanning image of the detected object according to the target positioning sheet scanning parameters when the positioning image scanning control is detected to be triggered;

the positioning information acquisition module is used for acquiring positioning information of a part to be scanned according to the positioning sheet scanning image and the positioning parameter setting area;

and the target scanning image acquisition module is used for scanning the part to be scanned of the detected object according to the positioning information of the part to be scanned to obtain a target scanning image of the part to be scanned.

10. A processing device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor realizes the steps of the method according to any of claims 1-7 when executing the computer program.

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