JP5894649B2 - Image processing apparatus, image processing system, image processing method, and program - Google Patents

Description

The present invention relates to an image processing apparatus, an image processing system, an image processing method, and a program .

  Diagnosis and examination based on imaging using radiation (for example, X-rays) are actively performed. Such inspection or the like proceeds based on an inspection order including a plurality of imaging protocols. Here, the imaging protocol includes, for example, an imaging region, an imaging method, information on image processing, and the like that are manually created according to an examination order by a radiographer or the like and requested by a doctor.

  Online hospitals using HIS (Hospital Information System), RIS (Radiology Information System), etc. are advancing. Along with this, an examination order created outside may be transferred to the radiation imaging apparatus via a network. In this case, the operator selects an imaging protocol from the examination order displayed on the display unit of the radiation imaging apparatus. Then, a parameter based on the imaging protocol is set, and imaging based on the parameter is performed.

  Here, if the wrong photographing protocol is selected and photographing is performed, the intended photographing cannot be performed because the parameters are not appropriate. In order to cope with this, the technique of Patent Document 1 is known.

JP 2003-275194 A

  In the technique of Patent Document 1 described above, a shooting protocol that has already been shot can be changed to another shooting protocol. However, since the technique of Patent Document 1 does not consider a situation in which the inspection proceeds based on the inspection order, it cannot be changed to a pre-scheduled imaging protocol.

  Therefore, even if there is an imaging protocol to be changed in the inspection order, it is not possible to change to that imaging protocol, so the same imaging protocol may exist in the inspection order. There is. In addition, when photographing that has been mistakenly performed (photographing based on a photographing protocol) is performed again, an operation for newly adding the photographing protocol must be performed, and the operation procedure is troublesome.

  Therefore, the present invention has been made in view of the above problems, and can easily cope with a case where photographing is performed using an erroneous photographing protocol when performing photographing based on an inspection order. The purpose is to provide the technology.

In order to solve the above-described problem, an aspect of the present invention is an image processing apparatus that processes a radiographic image, and designates one of a plurality of pieces of imaging information included in an examination order for radiographing a subject. And image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information; Display control means for simultaneously displaying a plurality of imaging information included in the examination order and the processed image corresponding to the designated imaging information on a display unit, and imaging information corresponding to the radiation image In response to an operation input for changing to other imaging information, the radiographic image is input to the image processing means under other image processing conditions corresponding to the other imaging information. Get the other processed image obtained by causing the image processing, and have a, and a control means for performing control to display, instead of the other processed image to the displayed processed image by said display control means Then, the display control means is one of photographed photographing information associated with the photographed image and unphotographed photographing information not associated with the photographing information as the plurality of photographing information included in the inspection order. A plurality of shooting information is displayed on the display unit .

  According to the present invention, it is possible to easily cope with a case where photographing is performed using an erroneous photographing protocol when photographing based on an inspection order is performed. As a result, even if the photographing is performed using the wrong photographing protocol when performing the photographing based on the inspection order, it is not necessary to place an excessive burden on the operator.

1 is a diagram showing an example of an X-ray imaging system 10 to which a radiation imaging system according to an embodiment of the present invention is applied. FIG. 2 is a diagram illustrating an example of a functional configuration of an X-ray imaging control unit 25 illustrated in FIG. 1. The figure which shows an example of an imaging | photography protocol change screen. 3 is a flowchart showing an example of the operation of the X-ray imaging apparatus 20 shown in FIG. FIG. 6 is a diagram illustrating an example of a functional configuration of an X-ray imaging control unit 25 according to the second embodiment. 9 is a flowchart showing an example of the operation of the X-ray imaging apparatus 20 according to the second embodiment. FIG. 10 is a diagram illustrating an example of a functional configuration of an X-ray imaging control unit 25 according to the third embodiment. 10 is a flowchart showing an example of the operation of the X-ray imaging apparatus 20 according to the third embodiment.

  Hereinafter, an embodiment of a radiation imaging apparatus and a processing method thereof according to the present invention will be described in detail with reference to the accompanying drawings. In the embodiment described below, a case where X-rays are applied as radiation will be described as an example. However, the radiation is not limited to X-rays, for example, electromagnetic waves, α rays, β rays, γ rays, or the like. There may be.

(Embodiment 1)
FIG. 1 is a diagram showing an example of an X-ray imaging system 10 to which a radiation imaging system according to an embodiment of the present invention is applied.

  The X-ray imaging system 10 includes an RIS terminal 11, a PACS terminal 12, a viewer terminal 13, a printer 14, and an X-ray imaging apparatus 20. These devices are connected via a communication means 15 such as a network, for example.

  The RIS terminal 11 is an information system in the radiation department. The X-ray imaging apparatus 20 captures an X-ray digital image (hereinafter referred to as a captured image). The PACS terminal 12 stores and manages the captured image captured by the X-ray imaging apparatus 20. The viewer terminal 13 and the printer 14 output (display or print) a diagnostic image.

  The X-ray imaging apparatus 20 proceeds with an inspection (imaging) based on an inspection order composed of a plurality of imaging protocols. Each shooting protocol defines shooting conditions, contents of image processing performed on a shot image, and the like. More specifically, it includes various parameter information at the time of shooting and image processing, sensor information, shooting execution information, and the like.

  The X-ray imaging apparatus 20 includes an imaging unit 28, an X-ray generation control unit 24, an X-ray imaging control unit 25, a display unit 26, and an operation unit 27.

  The imaging unit 28 includes an X-ray tube 21, a sensor unit 22, and a sensor 23. Here, the X-ray tube 21 functions as a radiation generating unit, and irradiates the subject (that is, the subject) with X-rays. The X-ray generation control unit 24 controls generation of X-rays based on the imaging protocol. Specifically, a voltage is applied to the X-ray tube 21 based on imaging conditions (for example, parameters such as tube current, tube voltage, and irradiation time) corresponding to the imaging protocol to generate X-rays.

  The sensor 23 functions as a radiation detection unit and detects X-rays transmitted through the subject. The sensor unit 22 performs A / D conversion on the electric charge corresponding to the transmitted X-ray dose of the subject detected by the sensor 23 and transfers it to the X-ray imaging control unit 25 as a captured image. The X-ray imaging control unit 25 performs overall control of X-ray imaging processing based on the imaging protocol. For example, the X-ray imaging control unit 25 performs image processing (for example, correction processing, gradation processing, frequency processing, etc.) on the captured image. Image processing is performed using image processing parameters corresponding to the shooting protocol at the time of shooting.

  The display unit 26 is composed of, for example, a display and displays the system status and the like for the operator. On the display unit 26, for example, the inspection order received from the RIS terminal 11 (or the inspection order created by the operator) is displayed. The operation unit 27 includes, for example, a keyboard, a mouse, or various buttons, and inputs an instruction from the operator into the apparatus. In the operation unit 27, for example, designation of a change source and a change destination imaging protocol is input into the apparatus.

  Here, an example of a functional configuration of the X-ray imaging control unit 25 illustrated in FIG. 1 will be described with reference to FIG.

  The X-ray imaging control unit 25 includes an examination information management unit 31, an examination information holding unit 38, a change source designation unit 34, a change destination designation unit 35, an imaging protocol change unit 30, an imaging control unit 37, and an image. And a processing unit 36.

  The image processing unit 36 performs image processing on the captured image. As described above, this image processing is performed using image processing parameters corresponding to the imaging protocol.

  The change source designation unit 34 designates the imaging protocol to be changed (change source) from the imaging protocols included in the currently executed inspection order. The change destination designation unit 35 designates the imaging protocol to be changed (change destination) from among the imaging protocols included in the currently executed inspection order. The designation by the change source designation unit 34 and the change destination designation unit 35 is performed based on an instruction from the operator via the operation unit 27.

  The examination information management unit 31 manages various types of information related to the examination being performed based on the examination order acquired from the RIS terminal 11 (or manually created by the operator). The inspection information management unit 31 includes an inspection information acquisition unit 32 and an inspection information update unit 33. The examination information acquisition unit 32 acquires the examination information being executed from the examination information holding unit 38, and the examination information update unit 33 updates the examination information held in the examination information holding unit 38.

  The shooting protocol changing unit 30 changes the correspondence between the shot image and the shooting protocol. Specifically, an image (before image processing) captured based on the change-source shooting protocol specified by the change-source specifying unit 34 is associated with the change-destination shooting protocol specified by the change-destination specifying unit 35. As a result, the image is subjected to image processing using the image processing parameter corresponding to the change-destination shooting protocol.

  The shooting control unit 37 controls shooting based on the shooting protocol. For example, when the imaging protocol is changed by the imaging protocol changing unit 30, execution of imaging based on the changed imaging protocol is controlled.

  Here, FIGS. 3A and 3B show an example of the imaging protocol change screen. FIG. 3A shows a screen 41 before the shooting protocol is changed, and FIG. 3B shows a screen 48 after the shooting protocol is changed. 3A and 3B, a subject information display area 43 that displays subject information and a preview image display area 47 that displays a captured image are provided. Further, an image adjustment button 45 for instructing adjustment of image processing parameters of a captured image being previewed and an inspection end button 46 for instructing the end of inspection are also provided. In addition, an inspection order display area 44 showing information on the inspection order being executed is provided. A plurality of imaging protocol buttons 410 are provided in the examination order display area 44.

  The imaging protocol button 410 includes a thumbnail display area 411 that displays thumbnails of captured images, a name display area 412 that displays the name of the imaging region, and a sensor type display that displays sensor type information such as standing and lying. A region 413 is provided. The shooting protocol button 410 also indicates states such as a shooting completed state (in preview), a shooting preparation state, and a shooting ready state. In addition, the screen shown in FIGS. 3A and 3B is also provided with a sensor state display area 42 indicating the state of the sensor relating to the imaging protocol being executed. In the screens shown in FIGS. 3A and 3B, the state is indicated by characters. For example, the state is indicated by a GUI such as changing the color of a button or displaying an animation. May be.

  Here, a specific example is given of an example of the flow of processing according to the first embodiment. It is assumed that the chest RL has been photographed with the chest AP photographing protocol 414 designated. In this case, the shooting direction is incorrect, and the image processing that is originally performed at the time of chest AP shooting is performed on the shot image of the chest RL.

  Therefore, the operator designates the chest AP imaging protocol 414 as the change source imaging protocol via the operation unit 27 in order to make the imaging protocol appropriate. Further, the operator designates the chest RL imaging protocol 415 from the examination order display area 44 as the change destination via the operation unit 27.

  Receiving this, the X-ray imaging apparatus 20 associates the captured image with the chest RL imaging protocol 417 in the imaging protocol changing unit 30 as shown in the screen 48 after the imaging protocol change. As a result, a thumbnail image of the photographed image is displayed on the chest RL photographing protocol button 417. In the X-ray imaging apparatus 20, the image processing unit 36 performs image processing again using image processing parameters corresponding to the chest RL imaging protocol 417. Thereafter, the X-ray imaging apparatus 20 updates the preview image in the preview image display area 47. The change-source AP shooting protocol 416 transitions to the preparation for shooting (that is, the non-shooting state), and the change-destination RL shooting protocol 417 changes to the shooting completed state. In addition, the sensor state display area 42 transitions to a photographing enabled state, and photographing can be performed again.

  Note that there is no particular limitation on how to specify the imaging protocol to be changed and changed. For example, it is performed by dragging and dropping a thumbnail image or a shooting protocol button, or by dragging and dropping from the preview image display area 47 to the change destination shooting protocol button. In addition, when there are a plurality of inspection orders in the inspection being performed, it may be possible to specify the imaging protocol of the change destination across the inspection orders.

  Next, an example of the operation in the X-ray imaging apparatus 20 shown in FIG. 1 will be described with reference to FIG.

  When imaging based on the examination order is started, an operator (for example, a radiographer) first presses the irradiation button. Then, the X-ray imaging apparatus 20 emits X-rays toward the subject with the X-ray tube 21 and detects X-rays transmitted through the subject with the sensor 23. The obtained captured image is subjected to image processing such as correction processing, gradation processing, and frequency processing in the X-ray imaging control unit 25.

  Thereafter, when the processed photographed image is displayed on the display unit 26, the operator confirms the image. As a result of the confirmation, it is assumed that the operator notices an error in the shooting protocol. Here, the operator inputs a change instruction via the operation unit 27 in order to correct the mistake. Specifically, the operator designates a photographing protocol that is a change source and a change destination. Then, the X-ray imaging apparatus 20 designates an imaging protocol based on the operator's instruction in the change source designation unit 34. That is, a photographing protocol that has been photographed as a change source is designated. In the examination information acquisition unit 32, the X-ray imaging apparatus 20 acquires information on the designated imaging protocol from the examination information holding unit 38, and notifies the imaging protocol change unit 30 of the information (S101). Note that the shooting protocol information includes, for example, various parameter information at the time of shooting and image processing, sensor information, shooting execution information, and the like.

  Next, in the X-ray imaging apparatus 20, the change destination designation unit 35 designates the change-destination imaging protocol from the examination order currently being executed based on an instruction from the operator. Then, the inspection information acquisition unit 32 acquires information on the designated imaging protocol from the inspection information holding unit 38, and notifies the imaging protocol change unit 30 of the information (S102).

  Here, the X-ray imaging apparatus 20 determines whether or not imaging using the imaging protocol specified by the change destination specifying unit 35 has been performed in the imaging protocol changing unit 30. This determination is made based on the information acquired in S102. As a result of the determination, if imaging using the imaging protocol has not been performed (NO in S103), the X-ray imaging apparatus 20 uses the imaging protocol changing unit 30 to change the imaging protocol specified as the change destination to the original of the change source. Corresponding images captured based on the protocol (S104). Then, the X-ray imaging apparatus 20 updates the information held in the examination information holding unit 38 in the examination information updating unit 33 (S104). The X-ray imaging apparatus 20 uses the image processing parameter corresponding to the change-destination imaging protocol in the image processing unit 36 for an image shot based on the change-source imaging protocol (image before image processing). Image processing is executed again (S105). Thereafter, the X-ray imaging apparatus 20 updates the preview image and displays it on the display unit 26. In the X-ray imaging apparatus 20, the imaging protocol changing unit 30 changes the imaging state based on the original imaging protocol to the imaging preparation in progress (non-imaging state) and the imaging state based on the destination imaging protocol. Is moved to the photographed state. At this time, the preparation state for photographing by the sensor is also shifted to the photographing ready state. This state transition is displayed on the display unit 26 as described in FIG. (S106).

  If the result of determination in S103 is that imaging based on the imaging protocol of the change destination has been performed (YES in S103), the X-ray imaging apparatus 20 uses the imaging protocol change unit 30 to change the source and destination of imaging. Each image associated with the protocol is replaced. Then, in the inspection information update unit 33, the information held in the inspection information holding unit 38 is updated (S107). Further, the X-ray imaging apparatus 20 uses the image processing parameters corresponding to the change-source and change-destination imaging protocols in the image processing unit 36, and images captured based on these imaging protocols (images before image processing). ) Re-execute image processing for each (S108). Thereafter, the X-ray imaging apparatus 20 updates the preview image and displays it on the display unit 26 (S109).

  As described above, according to the first embodiment, it is possible to easily cope with a case where photographing is performed using a wrong photographing protocol when performing photographing based on an inspection order. In addition, re-shooting using a shooting protocol that has been mistakenly shot can be easily performed. As a result, even if the photographing is performed using the wrong photographing protocol when performing the photographing based on the inspection order, it is not necessary to place an excessive burden on the operator.

(Embodiment 2)
Next, Embodiment 2 will be described. In the second embodiment, a case where a change condition is provided when changing the imaging protocol will be described as an example.

  FIG. 5 illustrates an example of a functional configuration of the X-ray imaging control unit 25 according to the second embodiment. In addition, the same code | symbol is attached | subjected to the thing of the same structure as FIG. 2 explaining Embodiment 1. FIG.

  The change condition input unit 52 inputs a change condition based on an instruction from the operator via the operation unit 27. The change condition holding unit 56 holds the change condition corresponding to the shooting protocol, and the change condition management unit 53 manages the change condition corresponding to each of the shooting protocols. The change condition management unit 53 includes a change condition registration unit 54 and a change condition acquisition unit 55. The change condition registration unit 54 registers the change condition input by the change condition input unit 52 in the change condition holding unit 56. The change condition acquisition unit 55 acquires the change condition held in the change condition holding unit 56. The change condition held in the change condition holding unit 56 indicates, for example, information related to X-ray generation (for example, tube current, tube voltage, irradiation time, etc.), sensor type and type (standing position, standing position, etc.), and the like. Sensor information, information related to image processing, information related to grids, and the like.

  The change control unit 51 includes a change condition determination unit 50 that determines whether or not a change condition is satisfied, and an imaging protocol change unit 30 that performs a change process based on the determination.

  FIG. 6 illustrates an example of an operation in the X-ray imaging apparatus 20 according to the second embodiment. Here, for convenience of explanation, it is assumed that the photographing protocol changing condition is set in advance.

  Imaging based on the inspection order has started. Then, it is assumed that the operator notices a mistake in the shooting protocol as a result of checking the shot image. The operator inputs a change instruction via the operation unit 27 in order to correct the mistake. Specifically, the operator designates a photographing protocol that is a change source and a change destination. Then, the X-ray imaging apparatus 20 designates an imaging protocol based on the operator's instruction in the change source designation unit 34. That is, a photographing protocol that has been photographed as a change source is designated. In the X-ray imaging apparatus 20, the examination information acquisition unit 32 acquires information on the designated imaging protocol from the examination information holding unit 38 (S 201). As described above, the shooting protocol information includes, for example, various parameter information at the time of shooting and image processing, sensor information, shooting execution information, and the like.

  Next, the X-ray imaging apparatus 20 uses the change destination designation unit 35 to designate a change-destination imaging protocol from the examination orders currently being executed, based on instructions from the operator. Then, the inspection information acquisition unit 32 acquires information on the designated imaging protocol from the inspection information holding unit 38 (S202).

  Here, the X-ray imaging apparatus 20 acquires the change condition held in the change condition holding unit 56 in the change condition acquisition unit 55 (S203). Then, the change condition determination unit 50 checks whether or not the change destination imaging protocol acquired in S202 satisfies the change condition. If the change condition is not satisfied as a result of the check (NO in S204), the change process is prohibited. On the other hand, if the change condition is satisfied (YES in S204), processing similar to that in the first embodiment is performed thereafter. Specifically, the processing after S103 in FIG. 4 is performed.

  Here, a specific example is given of an example of the flow of processing according to the second embodiment. The radiologist sets sensor type match or the like as a change condition on the system setting screen or the like. Here, for example, if the type of shooting based on the shooting protocol before the change is standing and the type of shooting based on the shooting protocol of the change destination is supine, the change does not satisfy the condition and is prohibited. It will be. For example, display of a prohibition icon on a photographing protocol button, display of a message, or the like may be used for notification of prohibition of change. In addition, examples of the changing conditions include X-ray irradiation time, tube voltage, tube current, dose, and the like, as well as sensor conditions. A plurality of these conditions can be set simultaneously.

  As described above, according to the second embodiment, in addition to the effects of the first embodiment, an unintended change to a shooting protocol can be prohibited. Thereby, since an operator's change mistake can be prevented, a smooth inspection progress is possible.

(Embodiment 3)
Next, Embodiment 3 will be described. In the third embodiment, a case will be described as an example in which, after changing the shooting protocol, the information of the change-source shooting protocol is taken over to the change-destination shooting protocol.

  FIG. 7 illustrates an example of a functional configuration of the X-ray imaging control unit 25 according to the third embodiment. In addition, the same code | symbol is attached | subjected to the thing of the same structure as FIG.2 and FIG.5 which demonstrated Embodiment 1 and 2. FIG.

  The takeover information setting unit 62 sets which information to take over among the information related to the imaging protocol. This setting is performed based on an instruction from the operator via the operation unit 27. The handover information is, for example, information related to X-ray generation (for example, tube current, tube voltage, irradiation time, etc.), sensor information indicating the type and type of sensor (standing position, standing position, etc.), and image processing. Information, information on the grid, and the like. For example, it includes information related to image processing that depends on shooting conditions such as the presence or absence of a grid and the type of grid.

  The takeover information holding unit 66 holds the takeover information corresponding to the shooting protocol, and the takeover information management unit 63 manages the takeover information corresponding to each of the shooting protocols. The takeover information management unit 63 includes a takeover information registration unit 64 and a takeover information acquisition unit 65. The takeover information registration unit 64 registers information corresponding to the takeover information set by the takeover information setting unit 62 in the takeover information holding unit 66. The takeover information acquisition unit 65 acquires the takeover information held in the takeover information holding unit 66. Further, the change control unit 51 is further provided with a takeover information reflecting unit 60 that checks the presence / absence of takeover information and performs a reflection process of the takeover information based on the result.

  FIG. 8 illustrates an example of the operation in the X-ray imaging apparatus 20 according to the third embodiment. Here, for convenience of explanation, it is assumed that the shooting protocol handover information is set in advance.

  Imaging based on the inspection order has started. Then, it is assumed that the operator notices a mistake in the shooting protocol as a result of checking the shot image. The operator inputs a change instruction via the operation unit 27 in order to correct the mistake. Specifically, the operator designates a photographing protocol that is a change source and a change destination. Then, the X-ray imaging apparatus 20 designates an imaging protocol based on the operator's instruction in the change source designation unit 34. That is, a photographing protocol that has been photographed as a change source is designated. The X-ray imaging apparatus 20 acquires the information of the designated imaging protocol from the inspection information holding unit 38 in the inspection information acquisition unit 32 (S301). As described above, the shooting protocol information includes, for example, various parameter information at the time of shooting and image processing, sensor information, shooting execution information, and the like.

  Next, the X-ray imaging apparatus 20 specifies the change-destination imaging protocol from the examination order currently being executed in the change-destination specifying unit 35 based on the instruction of the operator. Then, the inspection information acquisition unit 32 acquires information on the designated imaging protocol from the inspection information holding unit 38 (S302).

  Here, the X-ray imaging apparatus 20 acquires, in the transfer information acquisition unit 65, transfer information related to the original imaging protocol from the transfer information holding unit 66 (S303). Then, the takeover information reflecting unit 60 checks whether or not there is the takeover information acquired in S302. If there is no takeover information (YES in S304), processing similar to that in the first embodiment is performed thereafter. Specifically, the processing after S103 in FIG. 4 is performed. On the other hand, if there is takeover information (NO in S304), after reflecting the takeover information on the imaging protocol of the change destination, the same processing as in the first embodiment is performed.

  Here, a specific example is given of an example of the flow of processing according to the third embodiment. The radiologist sets takeover information and the like on the system setting screen and the like. Here, it is assumed that the takeover information is, for example, grid information. In this state, it is assumed that the radiologist mistakenly photographed the chest RL with the chest AP imaging protocol 414 designated. The shooting protocol does not match the shooting direction. For this reason, image processing that is originally performed at the time of chest AP shooting has been performed on the shot image of the chest RL. Therefore, the operator designates the chest AP imaging protocol 414 as the change source imaging protocol via the operation unit 27 in order to make the imaging protocol appropriate. Further, the operator designates the chest RL imaging protocol 415 from the examination order display area 44 as the change destination via the operation unit 27. At this time, the handover information reflecting unit 60 reflects the setting with the grid in the change source chest AP imaging protocol 414 in the change destination chest RL imaging protocol 415.

  As described above, according to the third embodiment, the information of the change-source shooting protocol is taken over by the change-destination shooting protocol. Thereby, for example, the trouble of adjusting the image processing after changing the imaging protocol can be saved, so that the burden on the operator accompanying the change can be reduced.

  The above is an example of a typical embodiment of the present invention, but the present invention is not limited to the embodiment described above and shown in the drawings, and can be appropriately modified and implemented without departing from the scope of the present invention. . For example, you may implement combining the structure demonstrated in the said Embodiment 2 and 3.

  In addition, the present invention can take an embodiment as a system, apparatus, method, program, storage medium, or the like. Specifically, the present invention may be applied to a system composed of a plurality of devices, or may be applied to an apparatus composed of a single device.

(Other embodiments)
The present invention is also realized by executing the following processing. That is, software (program) that realizes the functions of the above-described embodiments is supplied to a system or apparatus via a network or various storage media, and a computer (or CPU, MPU, etc.) of the system or apparatus reads the program. It is a process to be executed.

Claims (33)

An image processing apparatus that processes a radiation image,
A designation means for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
Image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information;
Display control means for simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. Control means for obtaining other post-processing images obtained by processing, and performing control for displaying the other post-processing images instead of the displayed post-processing images by the display control means;
I have a,
The display control means includes a plurality of pieces of photographing information included in the examination order, which are one of photographed photographing information associated with a photographed image and unphotographed photographing information not associated with the photographing information. An image processing apparatus that displays photographing information on a display unit . In the state where at least one of the plurality of pieces of photographing information displayed by the display control unit is unphotographed photographing information and at least one of the photographing information is photographed, The image processing apparatus according to claim 1, wherein control is performed. The image processing apparatus according to claim 2 , wherein the display control unit displays a thumbnail image of a radiographic image corresponding to the captured imaging information together with the captured imaging information on a display unit. It said specifying means, the image processing apparatus according to any one of claims 1 to 3, characterized in that specifying one of the plurality of imaging information displayed on the display unit. The control means performs control to change the state of the digital X-ray image detector corresponding to the photographing information when the photographing information designated by the designation means is unphotographed photographing information. Item 5. The image processing apparatus according to any one of Items 1 to 4 . A determination unit that determines whether or not a change condition for changing the designated shooting information to the other shooting information is satisfied;
The control means is obtained by causing the image processing means to perform image processing on the radiographic image under other image processing conditions corresponding to the other imaging information when it is determined that the change condition is satisfied. image acquires after treatment, and any one of claims 1 to 5, characterized in that the other processed image by the display control unit performs control to display in place of the displayed processed image 1 The image processing apparatus according to item. It said determination means to claim 6, wherein the digital X-ray detector corresponding to the designated photographing information, to determine on the basis of the characteristics of the digital X-ray detector corresponding to the other photographing information The image processing apparatus described. 2. The information processing apparatus according to claim 1, further comprising a specifying unit that specifies information to be taken over from the specified shooting information in response to an operation input for changing the specified shooting information to the other shooting information. 8. The image processing apparatus according to any one of items 1 to 7 . The specifying means includes information relating to characteristics of a digital X-ray detector used for radiographic imaging corresponding to the designated radiographic information, X-ray generation conditions during radiographic imaging, and radiographic imaging The image processing apparatus according to claim 8 , wherein at least one of pieces of information regarding the grid at the time is specified as the inherited information. The display control unit displays the radiographic image under other image processing conditions corresponding to the other imaging information in response to an operation input for changing the imaging information corresponding to the radiographic image to other imaging information. Other processed images obtained by causing the image processing means to perform image processing are displayed in place of the displayed processed images, and thumbnail images of the other processed images are displayed as thumbnails of the processed images. the image processing apparatus according to any one of claims 1 to 9, characterized in that to display in place of the image. A first operation input for instructing to change the designated shooting information without specifying a change destination; and a second operation input after the first operation input for specifying the change shooting information. The image processing apparatus further includes an acquisition unit that acquires another post-processing image obtained by causing the image processing unit to perform image processing on the radiation image under an image processing condition corresponding to the change-destination imaging information in response to the operation input. the image processing apparatus according to any one of claims 1 to 10, characterized in that. An image processing apparatus that processes a radiation image,
A designation means for designating imaging information for radiographing the subject;
Image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information;
Display control means for causing the display unit to display the processed image corresponding to the shooting information specified by the specifying means, the shooting information, and a thumbnail image of the processed image;
The display control unit displays the radiographic image under other image processing conditions corresponding to the other imaging information in response to an operation input for changing the imaging information corresponding to the radiographic image to other imaging information. Other processed images obtained by causing the image processing means to perform image processing are displayed in place of the displayed processed images, and thumbnail images of the other processed images are displayed as thumbnail images of the processed images. place to display,
The display control means causes the display unit to display, as the shooting information, shooting information that is one of shot shooting information associated with a shot image and unshooted shooting information not associated with shooting information. An image processing apparatus. An image processing apparatus that processes a radiation image,
A designation means for designating imaging information for radiographing the subject;
Image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information;
Display control means for causing the display unit to display photographing information designated by the designation means and the processed image corresponding to the photographing information;
A first operation input for instructing a change of the designated shooting information without specifying a change destination, and a second operation input after the first operation input for specifying the change shooting information Acquisition means for acquiring other post-processing images obtained by causing the image processing means to perform image processing on the radiation image under image processing conditions corresponding to the change-destination imaging information in response to an operation input. And
The image processing apparatus, wherein the display control means displays the other processed image in place of the displayed processed image. An image processing system for processing radiographic images,
A designation means for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
Image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information;
Display control means for simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. Control means for obtaining other post-processing images obtained by processing, and performing control for displaying the other post-processing images instead of the displayed post-processing images by the display control means;
I have a,
The display control means includes a plurality of pieces of photographing information included in the examination order, which are one of photographed photographing information associated with a photographed image and unphotographed photographing information not associated with the photographing information. An image processing system for displaying photographing information on a display unit . An image processing system for processing radiographic images,
A designation means for designating imaging information for radiographing the subject;
Image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information;
Display control means for causing the display unit to display the processed image corresponding to the shooting information specified by the specifying means, the shooting information, and a thumbnail image of the processed image;
The display control unit displays the radiographic image under other image processing conditions corresponding to the other imaging information in response to an operation input for changing the imaging information corresponding to the radiographic image to other imaging information. Other processed images obtained by causing the image processing means to perform image processing are displayed in place of the displayed processed images, and thumbnail images of the other processed images are displayed as thumbnail images of the processed images. place to display,
The display control means causes the display unit to display, as the shooting information, shooting information that is one of shot shooting information associated with a shot image and unshooted shooting information not associated with shooting information. An image processing system. An image processing system for processing radiographic images,
A designation means for designating imaging information for radiographing the subject;
Image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information;
Display control means for causing the display unit to display photographing information designated by the designation means and the processed image corresponding to the photographing information;
A first operation input for instructing a change of the designated shooting information without specifying a change destination, and a second operation input after the first operation input for specifying the change shooting information Acquisition means for acquiring other post-processing images obtained by causing the image processing means to perform image processing on the radiation image under image processing conditions corresponding to the change-destination imaging information in response to an operation input. And
The display control means displays the other processed image in place of the displayed processed image. An image processing method for processing a radiation image,
A designation step for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
An image processing step in which an image processing unit obtains a processed image by subjecting a radiographic image obtained by radiography corresponding to the radiographing information designated by the designation step to image processing under an image processing condition corresponding to the radiographic information; ,
A display control step of simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. A control step of obtaining other post-processing images obtained by processing, and performing control to display the other post-processing images instead of the displayed post-processing images by the display control step;
As the plurality of pieces of photographing information included in the inspection order, a plurality of pieces of photographing information that is one of photographed photographing information associated with the photographed image and unphotographed photographing information not associated with the photographing information is displayed on the display unit. A process of displaying;
An image processing method comprising: An image processing method for processing a radiation image,
A designation step for designating imaging information for radiographing the subject;
An image processing step in which an image processing unit obtains a processed image by subjecting a radiographic image obtained by radiography corresponding to the radiographing information designated by the designation step to image processing under an image processing condition corresponding to the radiographic information; ,
A display control step for causing the display unit to display the processed image corresponding to the shooting information specified in the specifying step, the shooting information, and a thumbnail image of the processed image;
In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. Displaying other processed images obtained by processing instead of the displayed processed images and displaying thumbnail images of the other processed images instead of the thumbnail images of the processed images; ,
As the shooting information, a step of displaying on the display unit shooting information that has been shot and associated with a shot image and shooting information that is not yet shot and that is not associated with shooting information;
An image processing method comprising: An image processing method for processing a radiation image,
A designation step for designating imaging information for radiographing the subject;
An image processing step in which an image processing unit obtains a processed image by subjecting a radiographic image obtained by radiography corresponding to the radiographing information designated by the designation step to image processing under an image processing condition corresponding to the radiographic information; ,
A display control step of causing the display unit to display the shooting information specified by the specifying step and the processed image corresponding to the shooting information;
A first operation input for instructing a change of the designated shooting information without specifying a change destination, and a second operation input after the first operation input for specifying the change shooting information In accordance with an operation input, an acquisition step of acquiring other post-processing images obtained by causing the image processing means to perform image processing of the radiation image under image processing conditions corresponding to the imaging information of the change destination,
Displaying the other processed image instead of the displayed processed image;
An image processing method comprising: A program for causing a computer to execute each step of the image processing method according to any one of claims 17 to 19 . The program for functioning a computer as each means of the image processing apparatus of any one of Claims 1 thru | or 13 . An image processing apparatus that processes a radiation image,
  A designation means for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
  Image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information;
  Display control means for simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
  In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. Control means for obtaining other post-processing images obtained by processing, and performing control for displaying the other post-processing images instead of the displayed post-processing images by the display control means;
  Have
  In the state where at least one of the plurality of pieces of photographing information displayed by the display control unit is unphotographed photographing information and at least one of the photographing information is photographed, To control
  An image processing apparatus. An image processing apparatus that processes a radiation image,
  A designation means for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
  Image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information;
  Display control means for simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
  In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. Control means for obtaining other post-processing images obtained by processing, and performing control for displaying the other post-processing images instead of the displayed post-processing images by the display control means;
  Have
  The control means performs control to change the state of the digital X-ray image detector corresponding to the photographing information when the photographing information designated by the designation means is unphotographed photographing information. Processing equipment. An image processing apparatus that processes a radiation image,
  A designation means for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
  Image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information;
  Display control means for simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
  In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. Control means for obtaining other post-processing images obtained by processing, and performing control for displaying the other post-processing images instead of the displayed post-processing images by the display control means;
  Determination means for determining whether or not a change condition for changing the specified shooting information to the other shooting information is satisfied,
  The control means is obtained by causing the image processing means to perform image processing on the radiographic image under other image processing conditions corresponding to the other imaging information when it is determined that the change condition is satisfied. An image processing apparatus, wherein the post-processing image is acquired, and the display control unit performs control to display the other post-processing image instead of the displayed post-processing image. An image processing apparatus that processes a radiation image,
  A designation means for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
  Image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information;
  Display control means for simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
  In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. Control means for obtaining other post-processing images obtained by processing, and performing control for displaying the other post-processing images instead of the displayed post-processing images by the display control means;
  A specifying means for specifying information to be taken over of the specified shooting information in response to an operation input for changing the specified shooting information to the other shooting information;
  An image processing apparatus comprising: An image processing system for processing radiographic images,
  A designation means for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
  Image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information;
  Display control means for simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
  In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. Control means for obtaining other post-processing images obtained by processing, and performing control for displaying the other post-processing images instead of the displayed post-processing images by the display control means;
  Have
  In the state where at least one of the plurality of pieces of photographing information displayed by the display control unit is unphotographed photographing information and at least one of the photographing information is photographed, To control
  An image processing system. An image processing system for processing radiographic images,
  A designation means for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
  Image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information;
  Display control means for simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
  In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. Control means for obtaining other post-processing images obtained by processing, and performing control for displaying the other post-processing images instead of the displayed post-processing images by the display control means;
  Have
  The control means performs control to change the state of the digital X-ray image detector corresponding to the photographing information when the photographing information designated by the designation means is unphotographed photographing information. Processing system. An image processing system for processing radiographic images,
  A designation means for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
  Image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information;
  Display control means for simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
  In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. Control means for obtaining other post-processing images obtained by processing, and performing control for displaying the other post-processing images instead of the displayed post-processing images by the display control means;
  Determination means for determining whether or not a change condition for changing the specified shooting information to the other shooting information is satisfied,
  The control means is obtained by causing the image processing means to perform image processing on the radiographic image under other image processing conditions corresponding to the other imaging information when it is determined that the change condition is satisfied. An image processing system characterized in that the post-processing image is acquired, and the display control means controls to display the other post-processing image instead of the displayed post-processing image. An image processing system for processing radiographic images,
  A designation means for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
  Image processing means for obtaining a processed image by performing image processing on a radiation image obtained by radiation imaging corresponding to imaging information designated by the designation means under an image processing condition corresponding to the imaging information;
  Display control means for simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
  In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. Control means for obtaining other post-processing images obtained by processing, and performing control for displaying the other post-processing images instead of the displayed post-processing images by the display control means;
  A specifying means for specifying information to be taken over of the specified shooting information in response to an operation input for changing the specified shooting information to the other shooting information;
  An image processing system comprising: An image processing method for processing a radiation image,
  A designation step for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
  An image processing step in which an image processing unit obtains a processed image by subjecting a radiographic image obtained by radiography corresponding to the radiographing information designated by the designation step to image processing under an image processing condition corresponding to the radiographic information; ,
  A display control step of simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
  In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. A control step of obtaining other post-processing images obtained by processing, and performing control to display the other post-processing images instead of the displayed post-processing images by the display control step;
  A step of performing the control on the photographed photographing information in a state where at least one of the plurality of photographing information displayed by the display control step is unphotographed photographing information and at least one of the photographing information is photographed. ,
  An image processing method comprising: An image processing method for processing a radiation image,
  A designation step for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
  An image processing step in which an image processing unit obtains a processed image by subjecting a radiographic image obtained by radiography corresponding to the radiographing information designated by the designation step to image processing under an image processing condition corresponding to the radiographic information; ,
  A display control step of simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
  In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. A control step of obtaining other post-processing images obtained by processing, and performing control to display the other post-processing images instead of the displayed post-processing images by the display control step;
  A step of performing control to change the state of the digital X-ray image detector corresponding to the photographing information when the photographing information designated by the designation step is unphotographed photographing information;
  An image processing method comprising: An image processing method for processing a radiation image,
  A designation step for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
  An image processing step in which an image processing unit obtains a processed image by subjecting a radiographic image obtained by radiography corresponding to the radiographing information designated by the designation step to image processing under an image processing condition corresponding to the radiographic information; ,
  A display control step of simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
  In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. A control step of obtaining other post-processing images obtained by processing, and performing control to display the other post-processing images instead of the displayed post-processing images by the display control step;
  A determination step of determining whether or not a change condition for changing the specified shooting information to the other shooting information is satisfied;
  When it is determined that the change condition is satisfied, other post-processing images obtained by causing the image processing unit to perform image processing on the radiation image under other image processing conditions corresponding to the other imaging information. Obtaining and performing a control to display the other processed image in place of the displayed processed image by the display control step;
  An image processing method comprising: An image processing method for processing a radiation image,
  A designation step for designating one of a plurality of pieces of imaging information included in an examination order for radiographing the subject;
  An image processing step in which an image processing unit obtains a processed image by subjecting a radiographic image obtained by radiography corresponding to the radiographing information designated by the designation step to image processing under an image processing condition corresponding to the radiographic information; ,
  A display control step of simultaneously displaying a plurality of pieces of photographing information included in the inspection order and the processed image corresponding to the designated photographing information on a display unit;
  In response to an operation input for changing imaging information corresponding to the radiographic image to other imaging information, the radiographic image is imaged on the image processing unit under other image processing conditions corresponding to the other imaging information. A control step of obtaining other post-processing images obtained by processing, and performing control to display the other post-processing images instead of the displayed post-processing images by the display control step;
  A specifying step of specifying information to be taken over of the specified shooting information in response to an operation input for changing the specified shooting information to the other shooting information;
  An image processing method comprising:

Images