JP2004337503A - Medical image management system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a medical image management system which allows a user to grasp the overall progress in real time and to share image database even when a DICOM adaptive and a DICOM nonadaptive image generating apparatuses coexist. <P>SOLUTION: The medical image management system comprises both a DICOM nonadaptive image generating apparatus 90 and a DICOM adaptive image generating apparatus 91. The DICOM nonadaptive image generating apparatus 90 is connected to a LAN200 via a gateway apparatus 100 and outputs image information formatted into DICOM formula to the LAN 200. The gateway apparatus acquires examination reserving information of patients from a management system 300, selects a patient to be examined on the basis of the examination reserving information, and correlates an examination ID or a patient ID of the patient in the management system 300 to image information acquired by the image generating apparatus 90. The medical image management system thus allows to unify the management of patient information and to use image database 700 as a common database. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a medical image management system including a medical image gateway device connected to a comprehensive patient management system.
[0002]
[Prior art]
An image generation apparatus such as an X-ray CT apparatus or an MRI that has been used in hospitals for a long time does not support DICOM, but an image generation apparatus introduced recently has been designed to support DICOM. As a result, in a hospital, a DICOM-compatible image generating apparatus and a DICOM-incompatible image generating apparatus are mixed.
[0003]
Image information output from a DICOM-compatible image generation device is temporarily stored in an image database. Thereafter, by using the supplementary information attached to the image information, it is possible to easily search and extract a specific patient. Furthermore, even if the image information is from an image generation device of a different manufacturer, the DICOM-compatible image information can be obtained. With the image generation device described above, storage, search, and extraction can be performed using the same image database.
[0004]
On the other hand, in the DICOM-incompatible image generating apparatus, it is necessary to prepare and store an image database different from an image database for storing DICOM-compatible image information. This means that there are two or more image databases, which is not preferable.
[0005]
In recent years, a plurality of technicians have smoothly operated a plurality of examinations and imaging of a plurality of patients by using an image generating apparatus such as an X-ray CT apparatus or an MRI in a hospital, and the patient burden has been released at an early stage. In order to improve the efficiency of the overall operation, a management system such as a hospital information management system (HIS) or a radiation department information management system (RIS) is widely used.
[0006]
These management systems are DICOM-compatible or compliant systems, and communicate information with a DICOM-compatible image generating apparatus in a format based on the DICOM standard, which is a NEMA standard for communication with medical images (for example, Inspection start and inspection completion can be transmitted to the HIS or RIS, and the degree of progress with respect to the total number of inspections to be performed within a day can be grasped in real time.
[0007]
[Patent Document 1]
JP-A-2002-288344 (page 4, FIG. 1)
[0008]
[Problems to be solved by the invention]
However, according to the above-described conventional technology, when an image generation apparatus that does not support DICOM is used, the start of the inspection and the completion of the inspection cannot be transmitted to the HIS or the RIS, so that the progress of the entire system cannot be grasped in real time. Was.
[0009]
From these facts, how to realize a medical image management system that can grasp the overall progress in real time and can use a common image database even when image generation apparatuses that support DICOM and non-DICOM coexist. It becomes important.
[0010]
The present invention has been made to solve the above-described problem of the related art. Even when DICOM-compatible and non-DICOM-compatible image generation apparatuses are mixed, the overall progress can be grasped in real time, and the image database is also provided. It is an object to provide a medical image management system that can be shared.
[0011]
[Means for Solving the Problems]
In order to solve the above-described problems and achieve the object, a medical image management system according to the first aspect of the present invention includes a DICOM-compliant image generating apparatus that captures a patient and acquires image information, A management system for managing imaging-related information including at least one of patient information and patient examination information, an image database for storing the image information, an output device for generating a hard copy of the image information, and a display for displaying the image information A peripheral device including at least one of the devices, the image generation device, a communication line connecting the management system and the peripheral device, a medical image management system comprising: the image generation device and the communication line, Connected via a gateway device, the gateway device sends the patient information and the patient information from the management system. Receiving at least one of the information, performs a correspondence between the image information and the received information, and transmits the said information or the image information associated with the peripheral device.
[0012]
According to the first aspect of the present invention, the image generating device and the communication line are connected via the gateway device, and the gateway device receives at least one of the patient information and the patient examination information from the management system, and The received information and the image information are associated with each other and the associated information or image information is transmitted to the peripheral device. At least one is transmitted to the peripheral device without manual intervention, and the peripheral device can input the image information linked with the patient information or the patient examination information, and can efficiently manage the image information. You can definitely do it.
[0013]
Further, the medical image management system according to the second aspect of the present invention is characterized in that the transmission is performed according to a DICOM standard protocol.
[0014]
According to the second aspect of the present invention, the gateway device can transmit and receive image information to and from the communication line based on the DICOM standard, and thus can share the image database and make one. .
[0015]
In the medical image management system according to the third aspect of the present invention, the gateway device includes a display setting unit that selects specific information from at least one information group of the received patient information and patient examination information. It is characterized by the following.
[0016]
According to the third aspect of the present invention, the gateway device selects the specific information from at least one information group of the received patient information and the patient examination information by the display setting means. By selecting the information, specific patient information or patient test information can be selected and the test can be started.
[0017]
Further, the medical image management system according to the invention according to claim 4, wherein the transmission transmits patient information related to the specific information to the management system when starting an examination including the imaging. And
[0018]
According to the fourth aspect of the present invention, the management system can recognize the start of the test in real time.
[0019]
A medical image management system according to a fifth aspect of the present invention is characterized in that the gateway device transmits the examination completion information set by an operator to the management system.
[0020]
According to the invention described in claim 5, the management system can recognize the completion of the inspection in real time.
[0021]
In a medical image management system according to a sixth aspect of the present invention, the gateway device generates supplementary information of the image information from the imaging related information related to the specific information.
[0022]
According to the invention described in claim 6, it is possible to display only the additional information related to the selected specific information.
[0023]
A medical image management system according to a seventh aspect of the invention is characterized in that visualization information for visualization by the output device or the display device is set in the display setting means.
[0024]
According to the invention described in claim 7, visualization can be made in various forms.
[0025]
In the medical image management system according to the invention described in claim 8, the visualization information is film information used by the imager when the output device is an imager.
[0026]
According to the eighth aspect of the invention, it is possible to freely set the type of the film, the number of output sheets, and the like.
[0027]
Further, in the medical image management system according to the ninth aspect of the present invention, the gateway device further includes a counting unit that counts image information input from the image generation device for each page, and the transmission unit includes: The photographing-related information including the counting information and the film information is transmitted to the management system.
[0028]
According to the ninth aspect, the management system can easily calculate the cost required for imaging from the imaging-related information.
[0029]
In the medical image management system according to the tenth aspect, the film information has film type information including a film size and a media type.
[0030]
According to the tenth aspect, the management system can calculate an accurate cost based on detailed film information.
[0031]
In the medical image management system according to the eleventh aspect, the gateway device may further include character recognition means for recognizing character information included in the image information, and the display setting means may include: The character information recognized by the character recognition unit is displayed.
[0032]
According to the eleventh aspect of the present invention, since the display setting means displays the character information recognized by the character recognition means, the display setting means recognizes and displays the additional information included in the image information. be able to.
[0033]
A medical image management system according to a twelfth aspect of the present invention is characterized in that the transmission means transmits the character information to the management system as supplementary information of the image information.
[0034]
According to the twelfth aspect, the management system can recognize the supplementary information included in the image information.
[0035]
A medical image management system according to a thirteenth aspect of the present invention includes an image generation apparatus that does not comply with the DICOM standard for capturing an image of a patient and acquiring image information, and at least one of patient information and patient examination information. A management system that manages shooting-related information, an image database that stores the image information, a peripheral device that includes at least one of an output device that generates a hard copy of the image information, and a display device that displays the image information; An image generation device, a medical image management system including a communication line that connects the management system and the peripheral device, wherein the image generation device and the communication line are connected via a gateway device, and the gateway device is Receiving means for receiving at least one of patient information and patient test information from the management system; Display setting means for displaying the received information, selecting specific information from the displayed information, and transmitting means for transmitting the selection to the management system as start information of an examination including the imaging. Further, when the examination is completed, the completion information is set by the display setting unit, and the transmitting unit transmits the set completion information to the management system, and the management system Upon receipt of the completion information, processing is performed assuming that the inspection is completed.
[0036]
According to the thirteenth aspect, the image generation device and the communication line are connected via the gateway device, and the gateway device receives at least one of the patient information and the patient examination information from the management system by the receiving means. Is received by the display setting means, the received information is displayed, specific information is selected from the displayed information, and this selection is sent to the management system by the transmission means as start information of an examination including imaging. When the inspection is completed, the completion information is set by the display setting means, and the transmission means transmits the set completion information to the management system. As a result, the processing is performed assuming that the examination is completed. Therefore, the imaging-related information including the information set by the operator is stored in the management system. The system can be obtained without manual intervention, manage the examination of the patient using the image generation device in real time, operate the examination using the image generation device efficiently and without waste, furthermore, Inspection results can be managed without delay.
[0037]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of a medical image management system according to the present invention will be described with reference to the accompanying drawings. Note that the present invention is not limited by this.
[0038]
First, the overall configuration of the medical image management system 10 according to the present embodiment will be described. FIG. 1 is a diagram illustrating a system according to the present embodiment. The medical image management system 10 includes an input system for generating or inputting image information or imaging-related information in the system, and an output system for displaying, hardcopying, or saving image information or imaging-related information. Here, the input system includes a DICOM-incompatible image generation device 90, a DICOM-compatible image generation device 91, a gateway device 100, a management system 300, and the like. The output system includes an imager 400 as a peripheral device, a viewer 500, gateway devices 600 and 610, an image database 700, a thermal development imager 410, an inkjet imager 420, and the like.
[0039]
These devices are mutually connected via a LAN (Local Area Network) 200. The LAN 200 is a communication cable in a medical facility, and transmits and receives image information using the CSMA / CD method or the like. The image information is communicated in a format based on DICOM (Digital Imaging and Communications in Medicine) standard, which is a NEMA standard for communication with medical images.
[0040]
Here, a DICOM-compliant device is a device that communicates image information in a format based on the DICOM standard, and a DICOM-incompatible device is a device that communicates image information without being based on the DICOM standard. It is.
[0041]
In the medical image management system 10, a DICOM-incompatible image generation device 90 and a DICOM-compatible image generation device 91 coexist. Note that this mixture is found in hospitals having an image generating apparatus purchased before the DICOM standard recently established is implemented.
[0042]
The image generation device 90 is not DICOM-compatible, such as an X-ray CT device (hereinafter abbreviated as CT), a magnetic resonance imaging device (hereinafter abbreviated as MRI), and an ultrasonic imaging device (hereinafter abbreviated as US). It consists of an image generation device. These image generation devices output image information obtained by imaging a patient to the LAN 200 via the gateway device 100. Further, the output of the image generation device 90 to the gateway device 100 may be an analog output such as a video. In this case, the output is converted into a digital signal inside the gateway device 100.
[0043]
The image generation device 91 is a DICOM-compatible image generation device such as CT, MRI, and US. These image generating devices directly output image information obtained by imaging a patient to the LAN 200 without passing through a gateway device.
[0044]
The gateway device 100 converts the image information acquired from the image generation device 90 into a DICOM standard specification (hereinafter, referred to as DICOM specification), and outputs it to the LAN 200. Note that a plurality of image generation devices 90 may be provided in the gateway device 100 and shared. In addition, the gateway device 100 transmits and receives imaging-related information to and from the management system 300, and the management system 300 always has the latest and accurate examination information and patient information.
[0045]
The management system 300 is a system that comprehensively and unitarily manages patient information, which is known by a name such as a hospital information management system (HIS) or a radiation department information management system (RIS). The management system 300 includes a server, a terminal, and the like, and has diagnosis information, examination information, and the like for each patient. The information includes imaging-related information when an examination is performed using the image generation device 90 or 91, and examination reservation information of a patient.
[0046]
The imagers 400 to 420 or the viewer 500 is a means for visualizing the image information acquired by the image generating device 90 or 91. The imagers 400 to 420 record image information on a film or a recording paper. At this time, since the imagers 410 and 420 are devices that do not support DICOM, they are connected to the LAN 200 via the gateway devices 600 and 610. Here, the gateway devices 600 and 610 convert the image information on the LAN 200 from the DICOM standard format to a format unique to the imager 410 or 420.
[0047]
The viewer 400 displays image information obtained via the LAN 200 on a display device using an LCD or the like. Thereby, the image information acquired by the image generation device 90 or 91 can be displayed, and further, inspection, image analysis, and the like can be performed.
[0048]
The image database 700 is a DICOM-compatible database, has a large-capacity memory, and collectively stores and stores image information acquired by the image generation device 90 or 91. The image information stored in the image database 700 is read as needed, and is used by the imagers 400 to 420 or the viewer 500 as appropriate.
[0049]
Next, FIG. 2 shows a block diagram of the gateway device 100. The gateway device 100 includes an image information unit 110, a character recognition unit 120, an additional information unit 130, a display setting unit 140, a format conversion unit 150, an interface 160, and a transmission / reception unit 170.
[0050]
Here, the gateway device 100 is connected to the image generation device 90 using a communication line, and inputs image information. At the time of this input, both a digital signal and an analog (video) signal are present depending on the device. In the case of a digital signal, for example, it is input through a parallel interface such as Centronics. In addition, the gateway device 100 can separately input supplementary information of the image information using a serial interface such as RS232C connected to the image generation device 90.
[0051]
The image information unit 110 inputs image information from the image generation device 90. The image information varies depending on the type of the image generating apparatus and the imaging conditions. However, in the X-ray CT apparatus, for example, grayscale information of about 8 to 12 bits has about 320 × 320 pixels. The image information unit 110 has a counter (not shown) which is a counting unit that counts input image information in page units. This counter is set for each patient and records the number of image information in page units.
[0052]
The character recognition unit 120 reads the incidental information written in the peripheral part of the image information using an OCR (Optical Character Recognition) or the like. Here, the supplementary information includes supplementary information related to image information, for example, shooting conditions, the size of a pixel matrix, and subject information such as a subject ID and a name. The supplementary information read by the character recognition unit 120 is sent to the supplementary information unit 130 and stored. Note that additional information can be directly input to the additional information unit 130 from the image generation device 90.
[0053]
The format conversion unit 150 converts the image information and the accompanying information of the image information into image information and a header of the DICOM specification. The format-converted image information is output on the LAN 200 and printed out or displayed on the imagers 400 to 420 or the viewer 500, or stored in the image database 700.
[0054]
The transmission / reception unit 170 inputs / outputs, via the LAN 200 and the interface 160, imaging-related information including at least one of the patient information and the patient examination information with a server in the management system 300 in which the patient information is centrally managed. The photographing-related information includes examination reservation information, examination start information, examination end information, film information for printing, etc. of a patient to be examined using the image generation device 90. Information related to shooting of the subject is included.
[0055]
The display setting unit 140 includes an LCD (Liquid Crystal Display), a keyboard, a mouse, and the like, and performs display of image information, photographing-related information and incidental information, and various settings. The display setting unit 140 can be detachably attached to the gateway device 100, and can be attached and set as necessary. Further, the display setting means 140 can be connected to the gateway device 100 by a connection cable and arranged on the operation console of the image generating device 90 so that the operator can operate the display setting device without any effort.
[0056]
The display setting unit 140 selects and specifies a patient to be imaged from the patient information or the patient examination information input from the management system 300. As a result, the patient to be photographed using the image generating device 90 is associated with the examination ID or the patient ID of the patient stored in the management system 300 and the imaging-related information of the patient stored in the management system 300 And the image information of the patient acquired by the image generation device 90 are managed as the same patient.
[0057]
Further, the display setting means 140 has an optimizing means (not shown) for ensuring that the imaging-related information of the patient input from the management system 300 is the latest and correct. According to the optimizing means, the additional information attached to the image information from the image generating device 90 is associated with the image information instead of the imaging-related information, or replaced with a part of the imaging-related information, Alternatively, the photographing-related information is compared with the photographing-related information manually or automatically, and in some cases, the photographing-related information can be corrected or added by manual input of an operator.
[0058]
Next, the operation of the gateway device 100 according to the present invention will be described with reference to the flowcharts of FIGS. FIG. 3 is a flowchart showing the operation of the gateway device 100. FIG. 4 shows communication of information performed between the management system 300, the image generation device 90, and the peripheral devices centering on the gateway device 100, and the numbers in the figure denote the steps in the flowchart of FIG. It corresponds to.
[0059]
First, the operator searches the patient information stored in the management system 300 from the gateway device 100 (step S301). The purpose of this search is to acquire examination reservation information in which patients to be examined are listed from among patients registered in the management system 300. As shown in step S301 of FIG. 4, a test reservation information acquisition request is transmitted from the gateway device 100 to the management system 300, and the test reservation information is input from the management system 300 to the gateway device 100 by a test reservation information acquisition response. Is done.
[0060]
Thereafter, the gateway device 100 displays the examination reservation information acquired as a search result on the display setting unit 140 (Step S302). FIG. 5 shows an example of a menu screen showing examination reservation information displayed on the display setting means 140. On this menu screen, an examination list of patients in an unexamined state input from the management system 300 is displayed. On this menu screen, a list of names, patient IDs, examination states of unexamined or already examined, accession numbers, and the like for each patient are displayed to the operator who performs the examination.
[0061]
Thereafter, the operator checks all information of the acquired examination reservation information (step S303). Here, patients are individually selected from the list displayed on the menu screen shown in FIG. 5, and detailed information for each patient is confirmed.
[0062]
Thereafter, the operator selects a patient to be examined from the list displayed on the menu screen of FIG. 5, and starts the examination by pressing the examination start button (step S304). With this selection, the patient to be examined and the patient list registered in the management system 300 are associated with an examination ID or a patient ID, and image information acquired later is centrally managed as that of the same patient. can do. In addition, when the inspection open button is pressed, the inspection start information is transmitted from the gateway device 100 to the management system 300 as shown in S304 of FIG. 4, and the management system 300 recognizes the start of the inspection in real time. .
[0063]
Thereafter, the patient is photographed by the image generation device 90, and image information is obtained. Then, before the acquired image information is taken into the gateway device 100, photographing information is added (step S305). FIG. 6 shows an example of an inspection screen displayed on the display setting means 140 when adding imaging information. In this examination screen, at the top of the screen, a patient information section that displays more detailed patient information of the patient selected in the examination list, and at the bottom of the screen, the patient's imaging region or imaging direction at the time of imaging There is a shooting information section for setting shooting information such as. The imaging information section displays different screens depending on the type of the image generation device 90. FIG. 6 shows an example in which a magnetic resonance imaging device is used as the image generation device 90.
[0064]
After that, the gateway device 100 shifts the display of the display setting unit 140 from the inspection screen to the store screen, and stores the image information acquired by the image generating device 90 (step S306). FIG. 7 shows an example of a store screen displayed on the display setting means 140. In this store screen, the additional information of the additional information section 130 is displayed in the additional information display section at the top of the screen. At the bottom of the screen, there is an image information display unit that displays the image information of the subject and an image editing unit that edits the image information at the time of multi-format, so that editing is easy when setting multi-format. And
[0065]
Here, the gateway device 100 makes an image request to the image generation device 90 as shown in S306 of FIG. On the other hand, the image generation device 90 transfers image information of the designated number of formats, for example, 2 × 2 frames, to the gateway device 100, and performs an image response. These image information are displayed on the store screen as shown in FIG. 7, and the setting of the arrangement and the like or the reading of the additional information attached to the image information are performed. When the image information is read into the gateway device 100, the number of image information is counted for each page by a counter serving as a counting unit of the image information unit 110.
[0066]
Here, the operator also sets print-related information using the store screen. In this print-related information, the film size used, such as a half-cut film, a large four film size, a media type such as a blue base or clear background, and format information such as the number and arrangement of image information when performing multi-format, etc. Is entered. These pieces of information are selected by a select key existing in the image information editing unit on the store screen shown in FIG.
[0067]
Then, the gateway device 100 creates supplementary information to which the format information and the counting information of the image information in units of pages are added in addition to the patient information or the examination information of the patient acquired in step S304 from the management system 300. Is associated with the image information acquired from the image generation device 90.
[0068]
After that, the gateway device 100 converts the associated information and image information, which are associated with each other, into a format of the DICOM standard by the format conversion unit 150, and forms the image database 700, the imagers 400 to 420 as output devices, or peripheral devices. Output to the viewer 500 or the like.
[0069]
At this time, as shown in step S306 in FIG. 4, the gateway device 100 transmits an image transmission request to the output device or the like, waits for an image transmission response from the output device or the like, waits for the DICOM standard image information and the accompanying information. Start transfer. Note that the timing of transferring the DICOM standard image information and the supplementary information to the image database 700 may be any timing before and after the completion of the inspection described later. However, from the viewpoint of system consistency, it is preferable to transfer the image information of the DICOM standard and the accompanying information to the image database 700 without delay after the completion of the inspection.
[0070]
Thereafter, after all the inspections are completed, the operator returns to the inspection screen illustrated in FIG. 6 and presses the inspection end button to complete the inspection (step S307). Here, as shown in S307 of FIG. 4, when the inspection end button is pressed, the gateway device 100 issues an inspection completion request to the management system 300. The management system 300 receives the examination completion request, performs an examination completion process on the patient information, and sends an examination completion response to the gateway device 100. The gateway device 100 receives this inspection completion response, and ends all the processes.
[0071]
As described above, in the present embodiment, in a medical image management system in which DICOM-incompatible and DICOM-compatible image generating apparatuses 90 and 91 coexist, the DICOM-incompatible image generating apparatus 90 is connected via the gateway apparatus 100. When a patient is examined using the image generating apparatus 90 by connecting to the LAN 200, the patient obtains examination appointment information from the management system 300 and selects a patient to be examined from the examination appointment information. In this case, the examination information or the patient ID in the management system 300 is associated with the image information acquired by the image generating apparatus 90, and the patient information is centrally managed, and the DICOM-compatible image database 700 is used as a common database. A management system that manages examination start information, examination completion information, and newly acquired imaging-related information In this case, the management system 300 can manage the inspection using the image generation device 90 in a substantially real time, and can efficiently perform the inspection using the image generation device 90 without waste. Furthermore, the imaging-related information for each patient in the management system 300 is always updated, so that examination management for each patient, for example, calculation of an examination cost, can be performed without delay.
[0072]
The gateway device 100 can also perform character recognition using OCR or the like in the character recognition unit 120 on the supplementary information included in the peripheral part of the image information. This character-recognized information can be transmitted to an output device or the like in association with the image information by the optimizing means.
[0073]
In addition, the gateway device 100 may replace a part of the patient imaging-related information acquired from the management system 300 with the character-recognized information by the optimizing unit, or may compare the two to match each other. It is also possible to judge the disagreement and use it for preventing the patient from being confused.
[0074]
【The invention's effect】
As described above, according to the first aspect of the present invention, the image generation device and the communication line are connected via the gateway device, and the gateway device transmits at least one of the patient information and the patient examination information from the management system. The received information is associated with the image information, and the associated information or image information is transmitted to the peripheral device. Therefore, the patient information associated with the image information by the operator is received. And transmitting at least one of the patient test information to the peripheral device without manual intervention, the peripheral device can input the patient information or the image information linked to the patient test information, and manage the image information. Can be done efficiently, definitely.
[0075]
According to the second aspect of the present invention, the gateway device can transmit and receive image information to and from a communication line based on the DICOM standard, and thus can share the image database and make one.
[0076]
According to the third aspect of the present invention, the gateway device selects the specific information from at least one information group of the received patient information and the patient examination information by the display setting means. By selecting, specific patient information or patient test information can be selected and the test can be started.
[0077]
According to the invention described in claim 4, the management system can recognize the start of the test in real time.
[0078]
According to the invention described in claim 5, the management system can recognize the completion of the inspection in real time.
[0079]
According to the invention described in claim 6, it is possible to display only the supplementary information related to the selected specific information.
[0080]
According to the invention described in claim 7, visualization can be made in various forms.
[0081]
According to the invention described in claim 8, the type of the film, the number of output sheets, and the like can be set freely.
[0082]
According to the ninth aspect, the management system can easily calculate the cost required for imaging from the imaging-related information.
[0083]
According to the tenth aspect, the management system can accurately calculate the cost based on the detailed film information.
[0084]
According to the eleventh aspect of the present invention, since the display setting means displays the character information recognized by the character recognition means, the display setting means recognizes and displays the additional information included in the image information. Can be.
[0085]
According to the twelfth aspect, the management system can recognize the supplementary information included in the image information.
[0086]
According to the thirteenth aspect, the image generation device and the communication line are connected via the gateway device, and the gateway device receives at least one of the patient information and the patient examination information from the management system by the receiving means. The information received is displayed by the display setting means, the received information is displayed, specific information is selected from the displayed information, and this selection is transmitted to the management system by the transmission means as start information of examination including imaging. Further, when the examination is completed, the completion information is set by the display setting means, and the transmission means transmits the set completion information to the management system. Upon receipt, the processing is performed assuming that the examination is completed. Therefore, the imaging-related information including the information set by the operator is stored in the management system. Can manage patient examinations using the image generation device without manual intervention, operate the test using the image generation device in real time, without waste, and furthermore, check the test results without errors and delays. Can be managed.
[Brief description of the drawings]
FIG. 1 is a diagram showing an overall configuration of a medical image management system.
FIG. 2 is a block diagram illustrating a gateway device according to the embodiment;
FIG. 3 is a flowchart showing an operation of the gateway device (part 1).
FIG. 4 is a flowchart showing an operation of the gateway device (part 2).
FIG. 5 is a diagram showing a menu screen of the gateway device.
FIG. 6 is a diagram showing an inspection screen of the gateway device.
FIG. 7 is a diagram showing a store screen of the gateway device.
[Explanation of symbols]
10. Medical image management system
90, 91 Image generation device
100, 600 Gateway device
110 Image information section
120 character recognition unit
130 Additional Information Department
140 Display setting means
150 Format conversion unit
160 interface
170 Transmission / reception means
300 management system
400 imager
400, 410, 420 viewer
500 viewer
700 Image Database

Claims (13)

A non-DICOM-compliant image generating apparatus that captures image information of a patient and acquires image information;
A management system that manages imaging-related information including at least one of patient information and patient examination information;
A peripheral device including at least one of an image database that stores the image information, an output device that generates a hard copy of the image information, and a display device that displays the image information;
A communication line connecting the image generation device, the management system, and the peripheral device,
A medical image management system comprising:
The image generation device and the communication line are connected via a gateway device, the gateway device receives at least one of the patient information and the patient examination information from the management system, and A medical image management system that performs association with image information and transmits the associated information and the image information to the peripheral device. 2. The medical image management system according to claim 1, wherein the transmission is performed using a DICOM standard protocol. The said gateway apparatus is provided with the display setting means which selects specific information from at least one information group of the said received patient information and patient test information, The one of Claim 1 or 2 characterized by the above-mentioned. Medical image management system. The medical image according to any one of claims 1 to 3, wherein the transmission transmits patient information related to the specific information to the management system when an examination including the imaging is started. Management system. The medical image management system according to claim 4, wherein the gateway device transmits the examination completion information set by an operator to the management system. The medical image management system according to claim 1, wherein the gateway device generates additional information of the image information from the imaging related information related to the specific information. The medical image management according to any one of claims 3 to 6, wherein the display setting unit sets visualization information for visualizing the image information by the output device or the display device. system. The medical image management system according to claim 7, wherein the visualization information is film information used by the imager when the output device is an imager. The gateway device further includes a counting unit that counts image information input from the image generation device in page units,
9. The medical image management system according to claim 8, wherein the transmission unit transmits imaging-related information including the counting information and the film information to the management system. The medical image management system according to claim 8, wherein the film information includes film type information including a film size and a media type. The gateway device further includes character recognition means for character recognition of character information included in the image information,
The medical image management system according to claim 1, wherein the display setting unit displays the character information recognized by the character by the character recognition unit. The medical image management system according to claim 11, wherein the transmission unit transmits the character information to the management system as supplementary information of the image information. A non-DICOM-compliant image generating apparatus that captures image information of a patient and acquires image information;
A management system that manages imaging-related information including at least one of patient information and patient examination information;
A peripheral device including at least one of an image database that stores the image information, an output device that generates a hard copy of the image information, and a display device that displays the image information;
A communication line connecting the image generation device, the management system, and the peripheral device,
A medical image management system comprising:
The image generation device and the communication line are connected via a gateway device, wherein the gateway device receives at least one of patient information and patient examination information from the management system, and receives the received information. Display setting means for displaying and selecting specific information from the displayed information, and transmitting means for transmitting the selection to the management system as start information of an examination including the imaging, further comprising: When the inspection is completed, the information of the completion is set by the display setting unit, and the transmitting unit transmits the set completion information to the management system,
The medical image management system according to claim 1, wherein the management system performs the processing assuming that the examination is completed by receiving the completion information.

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