JP5762597B2 - Radiation imaging control apparatus, control method thereof, and program - Google Patents

Description

The present invention relates to a radiography control apparatus, a control method thereof, and a program used when taking a medical X-ray image or the like.

  In recent years, computerization has been promoted in the medical field. For example, medical information management systems called HIS (Hospital Information System) and RIS (Radiological Information System) are used. In addition, image acquisition devices as modalities have been digitized, and it is common to perform imaging based on examination request information received from medical information management systems such as HIS and RIS.

JP 2002-215809 A

Generally, after receiving inspection request information from the RIS, the modality performs imaging and outputs the acquired image data to an image storage server called PACS (Picture Archiving and Communication Systems). This examination request information includes not only patient information such as a patient ID and a patient name but also imaging information such as a technique for performing imaging. Further, when photographing a serious patient that has been urgently transported, it is difficult to know the patient name in advance before photographing. Therefore, in the RIS, inspection request information is temporarily created with dummy imaging information, and the modality performs imaging based on the inspection request information. In such a case, after photographing, a process for correcting the photographing information to correct information by RIS is performed.

  On the other hand, depending on the facility, before receiving inspection request information, imaging is first performed with a modality, and inspection request information is received after imaging to correct the imaging information. Such a process is not a normal workflow and is not efficient because it involves many manual operations by the operator. Furthermore, since manual shooting is performed with modality, it is not distinguished from normal shooting, and image data that should be output after correcting shooting information after shooting is output as dummy shooting information. There is a problem.

  The present invention has been made in view of such problems, and it is necessary to make it possible to easily correct shooting information after shooting with temporary shooting information, and after correcting shooting information. Image data cannot be output.

The present invention relates to a radiography control apparatus, a receiving means for receiving a plurality of radiographic imaging request information from an external apparatus, including specific information of a subject to be radiographic, and an operation input. In response, the specifying means for specifying the identification information of the subject included in any of the plurality of pieces of request information received by the receiving means, and the identification information by the specifying means before the radiation imaging. If specified, the radiographic image obtained by the radiography and the identification information are associated with each other and stored in the storage unit. Before the radiography, the identification information is not specified and is temporary information. Is specified, storage control means for associating the radiographic image obtained by the radiography and the temporary information with each other and storing them in the storage unit, and temporary information associated with the radiographic image When based on whether it is determined to perform the determining determination Priority determination means for determining whether or not to correct the said temporary information, the modification of the temporary information by said determining means, said temporary information Display control means for displaying a radiographic image associated with the radiographic image and request information for which radiographic imaging has not been completed among a plurality of request information received by the receiving means, and the request displayed on the display section Among the information, when there is an operation input for selecting request information corresponding to the radiographic image displayed on the display unit, the identification information included in the selected request information and the radiographic image displayed on the display unit Is associated with either the correction means for correcting the temporary information, the identification information designated by the designation means, or the identification information included in the selected request information. An output control means for outputting a radiation image to an external apparatus, has, the output control means, the radiation image wherein the temporary information is associated, that you limit the output to an external apparatus Features .

  According to the present invention, it is possible to easily correct shooting information after shooting with temporary shooting information, and to output image data only after correcting shooting information. Thus, output of image data can be prevented.

It is a figure which shows an example of the hardware block diagram of imaging | photography information processing system. It is a figure which shows an example of a function structure of an imaging | photography information processing apparatus. It is a flowchart which shows an example of the operation | movement process of a imaging | photography information processing apparatus. It is a figure which shows an example of GUI at the time of imaging information input. It is a figure which shows an example of GUI of an imaging | photography screen. It is a figure which shows an example of GUI of the imaging | photography information correction screen at the time of imaging | photography information correction. It is a flowchart which shows an example of an information correction process. It is a flowchart which shows an example of an output process. It is a figure which shows an example of GUI for instruct | indicating associating the image data of imaging | photography concerning 2nd Embodiment with Study. It is a flowchart which shows an example of the operation | movement process of the imaging | photography information processing apparatus which concerns on 3rd Embodiment. It is a figure which shows an example of the past imaging | photography inspection display screen which concerns on 3rd Embodiment.

Hereinafter, embodiments according to the present invention will be described with reference to the drawings. The following embodiments do not limit the invention, and all combinations of features described in the present embodiment are not necessarily essential to the solution means of the invention.
(First embodiment)
FIG. 1 is a diagram illustrating an example of a hardware configuration diagram of a photographing information processing system according to the present embodiment. As illustrated in FIG. 1, the imaging information processing system 10 includes an imaging information processing apparatus 20, a radiation generation apparatus 30, a radiation information system 100, and a medical image management system 106.

  The imaging information processing apparatus 20 includes an information processing unit 101, a display unit 104, and an input unit 105. The information processing unit 101 includes a RAM 1010, a ROM 1011, a LAN / IF 1012, a DISK / IF 1013, a CPU 1014, and a nonvolatile storage device 1015 such as a hard disk that are connected to each other via a system bus 1016. Thus, the information processing unit 101 has a general computer configuration. The information processing unit 101 manages image data and attribute information accompanying the image using a database or the like. The display unit 104 includes a general monitor such as a CRT or a liquid crystal display. The display unit 104 displays image data, GUI (graphical user interface), and the like on the screen. The input unit 105 includes an input device such as a mouse, a keyboard, and a barcode. An operator can input various commands and data to the information processing unit 101 using the input unit 105.

The radiation generation apparatus 30 includes an X-ray generation unit 103 and a sensor unit 102. The X-ray generator 103 irradiates the patient with X-rays. The sensor unit 102 is a flat panel detector that receives X-rays transmitted through the patient and images them. In the radiation generator 30, when image data is acquired, it is transferred to the information processing unit 101. The radiation generation apparatus 30 may be integrated with the imaging information processing apparatus 20 and configured as a radiation imaging apparatus.
The radiation information system 100 is a so-called RIS that inputs examination request information. The radiation information system 100 is connected to the imaging information processing apparatus 20. The medical image management system 106 is a medical image server that manages image data, a so-called PACS. The medical image management system 106 accumulates and manages medical image data transferred from the imaging information processing apparatus 20.

  In the imaging information processing system 10, the connection mode of the imaging information processing apparatus 20, the radiation generation apparatus 30, the radiation information system 100, and the medical image management system 106 may be wired or wireless. Also, any communication protocol may be used, and any form may be used as long as it is a method capable of exchanging data.

  Next, a functional configuration of the photographing information processing apparatus in the present embodiment will be described. FIG. 2 is a diagram illustrating an example of a functional configuration of the imaging information processing apparatus 20. The functional configuration of the imaging information processing apparatus 20 includes an imaging information input unit 200, a control unit 201, an examination request information acquisition unit 202, an image acquisition unit 203, a patient information correction unit 204, an output control unit 205, and an image storage unit 206. It is configured. These functional configurations are realized by the CPU 1014 of the imaging information processing apparatus 20 executing a program stored in the ROM 1011 or the nonvolatile storage device 1015.

The imaging information input unit 200 determines the content input by the operator via the input unit 105. In particular, the shooting information input unit 200 determines whether or not the temporary dummy shooting information related to shooting is corrected to correct shooting information after the shooting is completed based on the input by the operator via the input unit 105.
The control unit 201 controls the entire imaging information processing apparatus 20 based on an input through the operator's input unit 105. The control unit 201 communicates a drive command to the sensor unit 102 of the radiation generating apparatus 30, searches for examination request information (order) from the medical image management system 106, and controls related to general imaging. I do.
The examination request information acquisition unit 202 acquires examination request information from the medical image management system 106 based on an instruction from the control unit 201. In general, the acquisition of examination request information is performed by acquiring a modality work list defined in a standard for medical images and communication called DICOM (Digital Imaging and Communication in Medicine).

The image acquisition unit 203 acquires image data based on an instruction from the control unit 201. More specifically, when receiving an irradiation start instruction from the operator, the image acquisition unit 203 instructs the X-ray generation unit 103 of the radiation generation apparatus 30 to irradiate X-rays. And the image acquisition part 203 acquires image data by receiving the image data which the sensor part 102 of the radiation generation apparatus 30 light-received the X-ray which permeate | transmitted the patient.
The image storage unit 206 manages the image data acquired by the image acquisition unit 203 using a database or the like, and stores it in a hard disk or the like such as the nonvolatile storage device 1015.

The patient information correction unit 204 corrects the imaging information based on the examination request information acquired by the examination request information acquisition unit 202 after imaging is performed with temporary dummy imaging information.
The output control unit 205 controls output of captured image data. More specifically, when it is determined by the imaging information input unit 200 that the imaging information needs to be corrected, the output control unit 205 until the patient information correction unit 204 corrects the imaging information. Control is performed so that image data is not output to the outside.

  Next, operation processing of the imaging information processing apparatus according to the present embodiment will be described. FIG. 3 is a flowchart illustrating an example of operation processing of the imaging information processing apparatus 20. The flowchart shown in FIG. 3 shows an outline from the start of photographing to the output of image data, and the detailed flowchart of each operation process will be described later with reference to FIGS. The flowchart shown in FIG. 3 is realized by the CPU 1014 of the imaging information processing apparatus 20 executing a program stored in the ROM 1011 or the nonvolatile storage device 1015.

First, in step S300, the imaging information input unit 200 waits for input of imaging information via the operator's input unit 105. That is, prior to the inspection, the operator inputs imaging information. The imaging information includes patient information such as a patient's name, ID, date of birth, and sex, and information such as a procedure for performing imaging.
Here, normally, the operator moves to imaging after inputting all imaging information, but some imaging information such as patient information is unknown due to reasons such as being urgently conveyed. There is a case. In such a case, the operator can input dummy shooting information via the input unit 105 and can input a correction instruction for correcting the shooting information after shooting. As an imaging information input method, the examination request information acquisition unit 202 requests examination information from the radiation information system 100 and inputs the examination information by selecting the corresponding examination request information from the examination request information list. There is. There is also a method in which an operator manually inputs a patient name, ID, and the like.

  Next, in step S301, the imaging information input unit 200 determines whether there is a correction instruction for correcting the imaging information after the imaging is completed. This processing corresponds to an example of processing by the photographing information correction determination unit. If there is a correction instruction, the imaging information input unit 200 advances the process to step S302. On the other hand, when there is no correction instruction, the imaging information input unit 200 advances the process to step S303.

In step S302, the control unit 201 stores that the shooting information needs to be corrected after the shooting to be performed is completed. More specifically, the control unit 201 performs processing for setting a correction required flag to ON. Thereafter, the control unit 201 advances the process to step S303.
In step S <b> 303, the image acquisition unit 203 acquires image data based on an instruction from the control unit 201. This processing corresponds to an example of processing by the image data acquisition unit. In addition, the procedure which radiates | emits an X-ray with respect to a patient with the radiation generator 30, detects the X-ray signal which permeate | transmitted the patient, and images it is performed by a normal method. More specifically, the image acquisition unit 203 instructs the radiation generator 30 to start X-ray irradiation in response to the operator pressing an X-ray irradiation button or pressing an X-ray irradiation pedal. . The X-ray generator 103 of the radiation generator 30 irradiates the patient with X-rays. And the sensor part 102 of the radiation generator 30 receives the X-ray which permeate | transmitted the patient, and produces | generates image data. The image acquisition unit 203 acquires the generated image data.

  Next, in step S <b> 304, the shooting information input unit 200 waits for input of shooting end via the operator input unit 105. When the photographing end is detected, the photographing information input unit 200 advances the process to step S305. On the other hand, if the end of shooting is not detected, the shooting information input unit 200 returns the process to step S303, and the image acquisition unit 203 continues to acquire image data.

  In step S305, the control unit 201 determines whether or not the shooting information needs to be corrected after shooting. More specifically, the control unit 201 determines whether or not a correction required flag is ON in step S302. Here, when the correction required flag is ON, the control unit 201 advances the processing to step S306. On the other hand, when the correction required flag is not ON, the control unit 201 advances the process to step 307.

In step S306, the patient information correction unit 204 corrects temporary dummy imaging information. For example, the patient information such as the name of the patient is corrected in the imaging information. This processing corresponds to an example of processing by the photographing information correction unit. Detailed processing will be described with reference to the flowchart shown in FIG.
In step S307, the output control unit 205 transfers, that is, outputs the image data to the medical image management system 106, for example. Here, the output control unit 205 outputs image data on the condition that correction has been performed on the image data shot with the temporary shooting information. In other words, the output control unit 205 restricts the output of image data until the temporary shooting information is corrected. This processing corresponds to an example of processing by the image data output unit.

  Next, the GUI displayed on the display unit 104 by the imaging information processing apparatus 20 in response to the operation process of the flowchart shown in FIG. 3 will be described with reference to FIGS. 4, 5, and 6. The GUI illustrated in FIGS. 4, 5, and 6 is displayed when the control unit 201 executes a program stored in the ROM 1011 or the nonvolatile storage device 1015.

FIG. 4 is a diagram showing an example of a GUI at the time of inputting photographing information corresponding to step S300 in the flowchart shown in FIG.
In FIG. 4, reference numeral 400 denotes a shooting preparation screen for the operator to input various information prior to shooting. 401 is a correction instruction button. When taking an image of the patient to be imaged with temporary dummy imaging information and giving an instruction to correct the imaging information after the imaging is completed, the operator inputs the correction instruction button 401 by clicking with the mouse. Then, the shooting information input unit 200 determines that a correction instruction for correcting the shooting information has been given after the shooting is finished.

Reference numeral 402 denotes a patient information input area. The patient information input area 402 includes fields for inputting patient information such as the name, ID, date of birth, and sex of the patient to be imaged. When the imaging information input unit 200 detects that the operator clicks the correction instruction button 401, patient information such as a dummy patient's name and ID is input.
Reference numeral 403 denotes a shooting condition input area for inputting shooting conditions to be shot. The imaging condition input area 403 has input buttons for selecting and inputting a part to be imaged, a sensor to be used, a sensor direction, and the like.

Reference numeral 404 denotes a display area in which detailed information on shooting to be performed is displayed. The shooting information input unit 200 adds detailed shooting information to the display area 404 as needed based on the shooting condition selected in the shooting condition input area 403.
Reference numeral 405 denotes a completion button for notifying that preparation for starting photographing has been completed. When the operator clicks the completion button 405, the control unit 201 controls the radiation generating apparatus 30 so that imaging is performed based on the input imaging information, and the imaging unit shown in FIG. Display the screen.

FIG. 5 is a diagram illustrating an example of a GUI of the shooting screen.
In FIG. 5, reference numeral 500 denotes a shooting screen displayed during shooting.
Reference numeral 501 denotes a patient information display area. The control unit 201 displays the patient information in the currently captured image data in the patient information display area 501. In the patient information display area 501 shown in FIG. 5, dummy patient information is displayed.

A list display area 502 displays a list of captured image data. The control unit 201 displays the image data acquired by the image acquisition unit 203 in the list display area 502.
Reference numeral 503 denotes an image display area. The control unit 201 displays the image data acquired by the image acquisition unit 203 in the image display area 503.
Reference numeral 504 denotes an inspection end button. The operator clicks the examination end button 504 when all the photographing is finished and the examination is desired to be finished.

FIG. 6 is a diagram showing an example of the GUI of the shooting information correction screen at the time of shooting information correction corresponding to step S306 in the flowchart shown in FIG. 6 is displayed immediately after the correction instruction button 401 shown in FIG. 4 is selected and the examination end button 504 shown in FIG. 5 is clicked.
In FIG. 6, reference numeral 600 denotes a shooting information correction screen for correcting shooting information.
Reference numeral 601 denotes a search condition input area for inputting search conditions for examination request information stored in the radiation information system 100. The operator can input a search condition in the search condition input area 601. In addition, in addition to patient information such as patient name, ID, date of birth, and sex, additional information belonging to imaging information such as examination date (imaging date), examination time (imaging time), and modality is included in the search conditions. Is also included.

Reference numeral 602 denotes a search start button for instructing start of acquisition of inspection request information. The operator clicks the search start button 602 while entering the search condition in the search condition input area 601. The photographing information input unit 200 acquires search conditions input by the operator. This processing corresponds to an example of processing by the search condition acquisition unit. The inspection request information acquisition unit 202 acquires inspection request information that matches the search condition.
Reference numeral 603 denotes an inspection request information display area for displaying a list of acquired inspection request information. Here, the examination request information includes patient information such as the patient name, patient ID, date of birth, and sex as shown in FIG. The operator selects inspection request information used for correcting the imaging information from the inspection request information displayed in the inspection request information display area 603, and clicks an OK button 605. The patient information correction unit 204 corrects imaging information including patient information based on the selected examination request information.

  Reference numeral 604 denotes a Cancel button for closing the imaging information correction screen 600 without acquiring examination request information. When the operator clicks the Cancel button 604, the patient information correction unit 204 stores the data as temporary dummy imaging information without correcting the patient information. The acquisition of the inspection request information is not performed for the first time when the operator clicks the search start button 602, but based on a preset search condition when the inspection end button 504 is clicked in FIG. It is preferable to search automatically. That is, it is desirable that the inspection request information is already displayed in the inspection request information display area 603 when the imaging information correction screen 600 shown in FIG. 6 is displayed for the first time. This automatic search process will be described with reference to a flowchart described later.

  Next, information correction processing of the imaging information processing apparatus according to the present embodiment will be described. FIG. 7 is a flowchart illustrating an example of information correction processing of the imaging information processing apparatus 20. The flowchart shown in FIG. 7 is a detailed process of step S306 of the flowchart shown in FIG. The flowchart illustrated in FIG. 7 is realized by the CPU 1014 of the imaging information processing apparatus 20 executing a program stored in the ROM 1011 or the nonvolatile storage device 1015.

First, in step S700, the inspection request information acquisition unit 202 generates a search condition for searching for inspection request information based on imaging information on which imaging has been performed and additional information belonging to the imaging information. This processing corresponds to an example of processing by the search condition generation unit. The additional information is, for example, information such as an inspection date (imaging date), an inspection time (imaging time), and a modality. Further, the additional information may include instruction information indicating that a correction instruction for correcting the photographing information is given after the photographing is completed. In this case, in the radiation information system 100, when creating the examination request information, the examination request information acquisition unit 202 sets the flag indicating the correction instruction and creates the examination request information, so that the examination request information acquisition unit 202 displays the corresponding examination request information. Searchable.
As shown in FIG. 6, the search condition may be determined based on the search condition manually input into the search condition input area 601 by the operator.

In step S701, the examination request information acquisition unit 202 retrieves examination request information created by the radiation information system 100 based on the determined retrieval condition. This process corresponds to an example of a process performed by the inspection request information retrieval unit.
In step S702, the inspection request information acquisition unit 202 acquires inspection request information that matches the search condition. This process corresponds to an example of a process performed by the inspection request information acquisition unit. The control unit 201 displays a list of the inspection request information acquired by the inspection request information acquisition unit 202 in the inspection request information display area 603 as shown in FIG. This processing corresponds to an example of processing by the inspection request information display processing means.

  In step S <b> 703, the imaging information input unit 200 waits for the operator to select inspection request information via the input unit 105. The operator confirms the displayed inspection request information, and selects the inspection request information corresponding to the inspection request information imaged with temporary dummy imaging information. If the imaging information input unit 200 detects selection of any inspection request information, the process proceeds to step S704. If no selection of inspection request information is detected, the imaging information input unit 200 corrects the imaging information. To finish the processing. This process corresponds to an example of a process performed by the inspection request information selection detection unit.

In step S704, the patient information correction unit 204 acquires patient information based on the selected examination request information. Then, the patient information correcting unit 204 performs processing for correcting the temporary dummy imaging information to correct imaging information based on the acquired patient information.
In step S705, the patient information correction unit 204 sets the correction completion flag to ON in order to notify the control unit 201 that the correction of the imaging information is completed, and the information correction step is completed.

Next, output processing of the imaging information processing apparatus according to the present embodiment will be described. FIG. 8 is a flowchart illustrating an example of output processing of the imaging information processing apparatus 20. The flowchart shown in FIG. 8 is a detailed process of step S307 shown in FIG.
First, in step S800, the output control unit 205 determines whether or not the shooting information needs to be corrected after the shooting of the image data to be output is completed. This determination can be made by the output control unit 205 determining whether or not the correction required flag stored in step S302 of the flowchart shown in FIG. 3 is set to ON. The output control unit 205 advances the process to step S801 if the shooting requires correction, and advances the process to step S802 if the shooting does not require correction.

In step S801, the output control unit 205 determines whether shooting information has been corrected. This determination can be made by the output control unit 205 determining whether or not the correction completion flag is set to ON in step S705 of the flowchart shown in FIG. If it is determined that the shooting information has been corrected, the output control unit 205 advances the process to step S802. On the other hand, if it is determined that the shooting information has not been corrected, the output control unit 205 ends the output process without outputting the image data.
In step S802, the output control unit 205 performs processing for outputting the image data to the medical image management system 106, a printer, or the like. Note that when outputting image data to the medical image management system 106, the output control unit 205 outputs the image data and examination request information associated with the image data in association with each other.

  As described above, according to the present embodiment, the photographing information processing apparatus obtains correct photographing information after photographing by performing photographing after instructing that the photographing information needs to be corrected after completion of photographing. Correct it. In addition, since the photographing information processing apparatus performs control so that the image data is not output until the photographing information is corrected, the image data corresponding to the temporary photographing information that has not been corrected by the operator is erroneously output. This can be prevented. Furthermore, when correcting the imaging information, the imaging information processing apparatus automatically acquires the inspection request information with appropriate search conditions after the imaging is completed, so that it is not necessary for the operator to give an instruction to acquire the inspection request information. Improves.

(Second Embodiment)
The inspection request information used when correcting the temporary dummy imaging information includes various information. For example, an ID, a receipt number, etc. for specifying the DICOM Study are included. Here, “Study” refers to an inspection unit in an inspection request. A plurality of inspection units (Study) may be included for one inspection request. If the examination request information acquired in step S701 of the flowchart shown in FIG. 7 includes a plurality of studies, the imaging information processing apparatus 20 automatically determines the relationship between the imaging already performed and the examination request information study. Can not do it.
Therefore, the operator needs to instruct which captured image data belongs to which Study. In the present embodiment, the operation of associating the image data captured by the operator with the Study can be easily performed.

FIG. 9 is a diagram illustrating an example of a GUI for instructing to associate image data captured in the first embodiment with Study. The GUI shown in FIG. 9 is displayed when the control unit 201 executes a program stored in the ROM 1011 or the nonvolatile storage device 1015.
In FIG. 9, reference numeral 900 denotes a replacement screen for manually correcting the shooting information of the shooting performed. Reference numeral 901 denotes an actual shooting display area that displays a list of shooting data that has already been taken. Reference numeral 902 denotes an inspection request information display area for displaying the inspection request information selected in step S703 shown in FIG. The examination request information display area 902 displays the Study ID as examination unit information. Reference numeral 903 denotes an icon obtained by reducing the acquired image data. Reference numeral 904 denotes a Study box corresponding to the Study ID of the inspection request information.

The operator assigns the icon 903 to the Study box 904 by dragging and dropping it with the mouse using the mouse, and assigns the image data to each Study of the corresponding examination request information, and performs an association selection operation. When all the distributions are completed and the operator clicks the OK button 905, the control unit 201 detects selection of association between shooting data and Study. This process corresponds to an example of a process performed by the association selection detection unit. Further, when detecting the selection of the association, the control unit 201 performs a replacement process for associating the shooting data with the Study. This processing corresponds to an example of processing by the association determination unit.
Reference numeral 906 denotes a cancel button. If the operator does not associate image data with Study and clicks a cancel button 906, the control unit 201 closes the replacement screen 900.

As described above, according to the present embodiment, when a plurality of studies are included in the content of the acquired inspection request information, the operator performs a process of manually distributing image data using the GUI after shooting. Can do. Therefore, it is possible to easily associate the image data with the Study.
In the present embodiment, the case where the operator manually distributes the image data to the corresponding Study among the plurality of Studies included in the inspection request information has been described. However, the present invention is not limited to this case. The image data may be automatically distributed. In this case, for example, the control unit 201 distributes the image data to Study based on the inspection request information. By doing in this way, operativity can be improved more.

(Third embodiment)
In the first embodiment, the case where the inspection request information display area 603 in FIG. 6 is displayed in step S306 of the flowchart shown in FIG. 3 has been described. However, in a small-scale facility, there are cases where the photographing information and the inspection request information are input alone. In this case, since the inspection request information is input after the imaging is completed, there is no corresponding inspection request information even if the inspection request information is acquired when the imaging is completed. Therefore, in the present embodiment, temporary dummy imaging information is corrected based on inspection request information obtained when imaging was performed in the past. Moreover, the timing for displaying the inspection request information can be changed by setting whether to correct the imaging information immediately after imaging.

  FIG. 10 is a flowchart illustrating an example of operation processing of the imaging information processing apparatus 20 according to the present embodiment. The flowchart shown in FIG. 10 is obtained by adding the process of step S1001 between steps S304 and S305 of the flowchart shown in FIG. The flowchart shown in FIG. 10 is obtained by changing step S306 of the flowchart shown in FIG. 3 to step S1002. Hereinafter, only the processing of step S1001 and step S1002 will be described, and description of the processing of other steps will be omitted.

Here, when correcting the shooting information after shooting, the operator sets the correction flag immediately after shooting to ON via the input unit 105 in advance. At this time, the shooting information input unit 200 detects the ON setting of the correction flag immediately after shooting. This processing corresponds to an example of processing by the setting detection unit.
As will be described later, the inspection request information is displayed by setting the correction flag immediately after photographing to ON, and the inspection request information is not displayed by not setting the correction flag immediately after photographing. Therefore, the setting of the correction flag immediately after photographing also serves as a setting for changing the display of the inspection request information.

  In step S <b> 1001, the control unit 201 determines whether to correct the shooting information after the shooting is completed. More specifically, the control unit 201 determines whether or not the immediately after inspection correction flag is set to ON. If it is set to correct the shooting information immediately after the shooting is finished, the control unit 201 advances the process to step S305. On the other hand, when it is not set to correct the shooting information immediately after the shooting is finished, the control unit 201 ends the process without performing the correction process. That is, the inspection request information as described later is not displayed.

In step S1002, the control unit 201 displays a past imaging examination display screen.
FIG. 11 is a diagram illustrating an example of a past imaging examination display screen. Reference numeral 1100 denotes a past imaging examination display screen. Reference numeral 1101 denotes a past examination list display area for displaying a list of examinations performed in the past. The past examination list display area 1101 is displayed so that the operator can identify what has been shot with temporary dummy shooting information and the shooting information has not been corrected yet. Here, the uncorrected imaging information is imaging information in which Yes is displayed in the Trauma column of the past examination list display area 1101 shown in FIG.

An imaging list display area 1102 displays a list of image data corresponding to the selected imaging information among the imaging information displayed in the past examination list display area 1101.
When the operator selects temporary dummy imaging information and determines it by double-clicking or the like, the inspection request information acquisition unit 202 generates a search condition and displays past inspection request information that matches the search condition. get. As illustrated in FIG. 6, the control unit 201 displays a list of acquired inspection request information in the inspection request information display area 603. As described in the first embodiment, the patient information correction unit 204 corrects the temporary dummy imaging information to correct imaging information based on the examination request information selected by the operator.
As described above, according to the present embodiment, when the temporary dummy imaging information is corrected, the workflow corresponding to the situation of the facility can be realized by correcting based on the past examination request information. .

Each unit constituting the imaging information processing apparatus and each step of the imaging information processing method in the embodiment of the present invention described above can be realized by operating a program stored in a RAM, a ROM, or the like of a computer. This program and a computer-readable recording medium recording the program are included in the present invention.
Further, the present invention can be implemented as, for example, a system, apparatus, method, program, or recording medium, and may be applied to an apparatus composed of a single device.

  The present invention supplies a software program for realizing the functions of the above-described embodiments directly or remotely to a system or apparatus. In addition, this includes a case where the system or the computer of the apparatus is also achieved by reading and executing the supplied program code.

  Accordingly, since the functions of the present invention are implemented by computer, the program code installed in the computer also implements the present invention. In other words, the present invention includes a computer program itself for realizing the functional processing of the present invention. In that case, as long as it has the function of a program, it may be in the form of object code, a program executed by an interpreter, script data supplied to the OS, or the like.

  Further, the functions of the above-described embodiments are realized by the computer executing the read program. Furthermore, based on the instructions of the program, an OS or the like running on the computer performs part or all of the actual processing, and the functions of the above-described embodiments can be realized by the processing.

  As another method, a program read from a recording medium is first written in a memory provided in a function expansion board inserted into the computer or a function expansion unit connected to the computer. Then, based on the instructions of the program, the CPU or the like provided in the function expansion board or function expansion unit performs part or all of the actual processing, and the functions of the above-described embodiments are also realized by the processing.

DESCRIPTION OF SYMBOLS 10 Imaging information processing system 20 Imaging information processing apparatus 30 Radiation generation apparatus 100 Radiation information system 101 Information processing part 102 Sensor part 103 X-ray generation part 104 Display part 105 Input part 106 Medical image management system 200 Imaging information input part 201 Control part 202 Examination Request information acquisition unit 203 Image acquisition unit 204 Patient information correction unit 205 Output control unit 206 Image storage unit

Claims (9)

A radiography control device,
Receiving means for receiving a plurality of radiographic imaging request information from an external device, including specific information of a subject to be radiographic;
A designation means for designating identification information of the subject included in any of a plurality of request information received by the reception means in response to an operation input;
When the identification information is designated by the designation means before the radiography, the radiographic image obtained by the radiography and the identification information are stored in a storage unit in association with each other, and before the radiography Storage control means for storing the radiation image obtained by the radiation imaging and the temporary information in association with each other when the identification information is not specified and temporary information is specified When,
And determining determination Priority determination means for determining whether or not to correct the said temporary information based on whether temporary information to the radiation image is associated,
When it is determined by the determination means that the temporary information is to be corrected, a radiographic image associated with the temporary information and a plurality of request information received by the reception means are not yet radiographed. Display control means for displaying the completion request information side by side on the display unit;
When there is an operation input for selecting request information corresponding to the radiation image displayed on the display unit among the request information displayed on the display unit, the identification information included in the selected request information and the Correction means for correcting the temporary information by associating with the radiation image displayed on the display unit;
Output control means for outputting to the external device a radiographic image associated with either the identification information designated by the designation means or the identification information included in the selected request information,
The output control means restricts output of a radiological image associated with the temporary information to an external device.
Control device for radiation imaging, wherein the this. The amendments means, the control device radiography according to claim 1, wherein the modifying the temporary information based on the patient information included in the selected request information. Further comprising a examination order information search means for searching the Yi Lai information based on a search condition corresponding to the subject,
The amendments means, radiation according to claim 1 or 2, characterized in that modifying the temporary information based on the patient information included in the Yi Lai information searched by the examination order information search means Shooting control device. Further comprising a retrieval condition generating means for generating a search condition based on at least one of information of additional information belonging to the temporary information and the temporary information,
The examination order information search means, a control apparatus for radiography according to claim 3, characterized in that to search for Yi Lai information based on the search condition generated by the search-condition creating unit. It further has a search condition acquisition means for acquiring a search condition input by the operator,
The examination order information search means, a control apparatus for radiography according to claim 3, characterized in that to search for Yi Lai information based on the acquired search condition by the search condition acquisition means. Further comprising a setting detecting means for detecting whether or not the setting for displaying the Yi Lai information,
The Display control unit, on the basis of the detected set by the setting detection means, the radiation according to any one of claims 1 to 5, characterized in that to change the timing for displaying the Yi Lai Information Shooting control device. The examination order information search means, wherein when there is no Yi Lai information corresponding to the subject, and detects the past Yi Lai information,
The amendments means according to any one of claims 3 to 5, characterized in that modifying the temporary information based on past Yi Lai information detected by the examination order information search means Radiography control device. A method for controlling radiography ,
A reception step of receiving a plurality of radiographic imaging request information from an external device, including specific information of a subject to be radiographic;
In response to an operation input, a designation step for designating identification information of the subject included in any of the plurality of request information received by the reception step;
If the identification information is specified by the specifying step before the radiography, the radiographic image obtained by the radiography and the identification information are stored in a storage unit in association with each other, and before the radiography When the identification information is not specified and temporary information is specified, a storage control step of storing the radiation image obtained by the radiation imaging and the temporary information in association with each other in the storage unit When,
And determining determination Priority determination step of determining whether or not to correct the said temporary information based on whether temporary information to the radiation image is associated,
When it is determined in the determination step that the temporary information is to be corrected, a radiographic image associated with the temporary information and a plurality of request information received in the reception step have not been subjected to radiation imaging. A display control step for displaying the completion request information side by side on the display unit;
When there is an operation input for selecting request information corresponding to the radiation image displayed on the display unit among the request information displayed on the display unit, the identification information included in the selected request information and the A correction step of correcting the temporary information by associating with the radiation image displayed on the display unit;
An output control step of outputting to the external device a radiation image associated with either the identification information specified in the specifying step or the identification information included in the selected request information,
In the output control step, the output of the radiation image associated with the temporary information to an external device is limited.
Method of controlling a radiation imaging, wherein a call. To the computer that controls radiography ,
A reception step of receiving a plurality of radiographic imaging request information from an external device, including specific information of a subject to be radiographic;
In response to an operation input, a designation step for designating identification information of the subject included in any of the plurality of request information received by the reception step;
If the identification information is specified by the specifying step before the radiography, the radiographic image obtained by the radiography and the identification information are stored in a storage unit in association with each other, and before the radiography When the identification information is not specified and temporary information is specified, a storage control step of storing the radiation image obtained by the radiation imaging and the temporary information in association with each other in the storage unit When,
And determining determination Priority determination step of determining whether or not to correct the said temporary information based on whether temporary information to the radiation image is associated,
When it is determined in the determination step that the temporary information is to be corrected, a radiographic image associated with the temporary information and a plurality of request information received in the reception step have not been subjected to radiation imaging. A display control step for displaying the completion request information side by side on the display unit;
When there is an operation input for selecting request information corresponding to the radiation image displayed on the display unit among the request information displayed on the display unit, the identification information included in the selected request information and the A correction step of correcting the temporary information by associating with the radiation image displayed on the display unit;
An output control step of outputting a radiation image associated with either the identification information specified in the specifying step or the identification information included in the selected request information to an external device; and
In the output control step, the output of the radiation image associated with the temporary information to an external device is limited.
Program which is characterized a call.

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