JP6904025B2 - Medical information display system - Google Patents

Description

The present invention relates to a medical information display system.

In the medical field as well, the digitization of information is progressing, and medical information such as medical record information and medical images is managed as electronic data. Interpretation of medical images is also performed on the monitor.

On the viewer screen that displays the medical image, the number of frames, the frame arrangement, and the screen configuration of one screen can be freely customized according to the wishes of the image interpreter and the image interpretation procedure. In order to improve the interpretation efficiency, it is desirable that the image interpretation doctor reproduces the image interpretation screen environment customized for himself / herself regardless of the image interpretation location, and performs the image interpretation work in that environment.

Therefore, the data file related to the image interpretation screen environment is stored in association with the user and the hardware configuration, and the corresponding data file is acquired based on the information about the user and the hardware configuration received from the medical image observation device for medical use. A technique for transmitting to an image observation device has been proposed (see Patent Document 1).

Further, when a mobile terminal is used for interpretation work of a medical image, since the screen size is small, the medical image is enlarged and displayed for interpretation. In order to prevent the lesion portion included in the medical image from being overlooked, a medical image display device that displays the relationship of the displayed range with respect to the entire range of the medical image has been proposed (see Patent Document 2).

In addition, when a sudden illness occurs at night, there may be no doctor in the medical facility who can make an appropriate diagnosis. In such a case, the doctor or specialist who is returning home is sent a medical image obtained by photographing the patient to request a diagnosis. In many cases, the home of the attending physician or specialist does not have an image-reading environment in which multiple monitors are connected, and images are displayed on a smartphone, tablet, or the like for diagnosis. Previously, it was necessary to install dedicated software to display medical images, but in recent years, the number of applications that run on browsers has increased, and interpretation can be performed in any environment without installing software in advance. It can be carried out.

Japanese Unexamined Patent Publication No. 2005-304824 Japanese Unexamined Patent Publication No. 2014-104040

However, when reading images with a smartphone, tablet, etc., unlike the reading environment in which multiple monitors are connected in a medical facility, there is only one display screen, so the same number of windows as when using multiple monitors There was a problem that it became difficult to grasp the information when displaying. Further, if a medical image having the same number of frames as when a plurality of monitors are used is displayed, the image becomes small and the diagnosis is hindered.

The present invention has been made in view of the above-mentioned problems in the prior art, and an object of the present invention is to provide a diagnostic environment according to the configuration of a monitor of a display device.

In order to solve the above problems, the invention according to claim 1 is a medical information display system capable of displaying medical information stored in a storage means on each of a plurality of types of display devices. Each of the display devices has one or more monitors, and among the plurality of types of display devices, an acquisition means for acquiring monitor configuration information regarding one or more monitors of the display device to be displayed, and the monitor configuration. A determination means for determining a screen layout based on the information, and the medical information is arranged based on the determined screen layout, and the monitor has one or a plurality of monitors of the display device to be displayed. The medical information includes a display control means for displaying a corresponding screen, the medical information is a medical image obtained by photographing a patient, and the determination means has a screen resolution of a monitor included in the display device to be displayed. Depending on the combination, the number of medical images included in one screen is determined by determining the screen layout of the viewer screen to be either detailed display or simple display .

The invention according to claim 2 is a medical information display system capable of displaying medical information stored in a storage means on each of a plurality of types of display devices, and each of the plurality of types of display devices is one or more. A screen layout is created based on an acquisition means for acquiring monitor configuration information relating to one or more monitors of the display device to be displayed among the plurality of types of display devices having a plurality of monitors and the monitor configuration information. Display control in which the medical information is arranged based on the determination means to be determined and the determined screen layout, and the screen corresponding to the monitor is displayed on one or more monitors of the display device to be displayed. The medical information is a medical image obtained by photographing a patient, and the determination means is the display target when the display device of the display target has one monitor. compared to when the monitor of the display device is a multiple, by reducing the number of medical images included in one frame, to determine the number of medical images included in the one screen.

The invention according to claim 3 is a medical information display system capable of displaying medical information stored in a storage means on each of a plurality of types of display devices, and each of the plurality of types of display devices is one or more. A screen layout is provided based on an acquisition means for acquiring monitor configuration information relating to one or more monitors possessed by a display device to be displayed among the plurality of types of display devices having a plurality of monitors and the monitor configuration information. Display control in which the medical information is arranged based on the determination means to be determined and the determined screen layout, and the screen corresponding to the monitor is displayed on one or more monitors of the display device to be displayed. The medical information is a medical image obtained by photographing a patient, and the determination means has a total number of pixels of a monitor included in the display device to be displayed, which is equal to or less than a predetermined value. If, said total total number of pixels of the monitor included in the display target of the display device as compared to the case wherein greater than the predetermined value, to reduce the number of medical images contained in one screen, the one screen Determine the number of medical images included .

The invention according to claim 4 is a medical information display system capable of displaying medical information stored in a storage means on each of a plurality of types of display devices, and each of the plurality of types of display devices is one or more. A screen layout is provided based on an acquisition means for acquiring monitor configuration information relating to one or more monitors possessed by a display device to be displayed among the plurality of types of display devices having a plurality of monitors and the monitor configuration information. Display control in which the medical information is arranged based on the determination means to be determined and the determined screen layout, and the screen corresponding to the monitor is displayed on one or more monitors of the display device to be displayed. The medical information is a medical image obtained by photographing a patient, and the determination means is a case where the total screen area of the monitor included in the display device to be displayed is equal to or less than a predetermined value. In addition, the number of medical images included in one screen is reduced as compared with the case where the total screen area of the monitor included in the display device to be displayed is larger than the predetermined value, so that the display device is included in the one screen. Determine the number of medical images .

In the invention according to claim 5 , in the medical information display system according to any one of claims 1 to 4 , the medical image selects the identification information of the medical image displayed on the display device to be displayed. A storage control means for storing in the storage means in association with the patient or examination related to the medical image is provided together with the order in which the medical image is performed, and the patient or a patient or a display target is provided in any of the plurality of types of display devices. When a test is selected and the identification information and order associated with the selected patient or test is stored in the storage means, the display control means has the determination means for the display device. Based on the screen layout determined by the above, the identification information stored in the storage means, and the order, the screen on which the medical images corresponding to the identification information are arranged is displayed on one or more monitors of the display device. ..

According to the present invention, it is possible to provide a diagnostic environment according to the configuration of the monitor of the display device.

It is a system block diagram of the medical information display system in 1st Embodiment of this invention. It is a block diagram which shows the functional structure of the medical information management apparatus. It is a figure which shows a part of the data structure of a medical image DB. It is a figure which shows the data structure of the monitor configuration condition table. It is a figure which shows the data structure of the screen layout type table. It is a figure which shows the data structure of the image display order table. It is a block diagram which shows the functional structure of a display device. It is a ladder chart which shows the medical information display processing executed by the medical information management device and the display device. It is a flowchart which shows the layout determination process. It is a flowchart which shows the initial screen provision process. It is a flowchart which shows the interpretation screen providing process. This is an example of the inspection list screen. This is an example of a simple viewer screen. This is an example of the report screen displayed on the tablet. This is an example of a report screen displayed on a display device composed of multiple monitors. This is an example of the detailed viewer screen. It is a figure which shows the example of the order of the medical images displayed on the 2nd and 3rd monitors. It is a flowchart which shows the 2nd layout determination process in 2nd Embodiment. It is a flowchart which shows the 3rd layout determination process in 3rd Embodiment. It is a flowchart which shows the 4th layout determination process in 4th Embodiment. This is another example of the simple viewer screen.

[First Embodiment]
First, a first embodiment of the medical information display system according to the present invention will be described. However, the scope of the invention is not limited to the illustrated examples.

FIG. 1 shows the system configuration of the medical information display system 100.
As shown in FIG. 1, the medical information display system 100 is composed of a modality 10, a medical information management device 20, and a plurality of types of display devices 30 (30a, 30b, ...). Data communication is possible via a communication network NT such as the Internet. It should be noted that each of the display devices 30a, 30b, ... May be connected to the medical information management device 20 via the communication network NT as needed. In the medical information display system 100, medical information stored in the medical information management device 20 can be displayed on each of a plurality of types of display devices 30a, 30b, .... Hereinafter, the display devices 30a, 30b, ... Are collectively referred to as the display device 30.

Modality 10 takes a picture of a patient (subject) and generates image data of a medical image. As the modality 10, for example, a CR (Computed Radiography) device, a DR (Digital Radiography) device, a CT (Computed Tomography) device, an MRI (Magnetic Resonance Imaging) device, a US (UltraSonography) device and the like are used. The image data of the medical image is transmitted to the medical information management device 20, and is stored and managed by the medical information management device 20. The modality 10 and the medical information management device 20 may be connected via an in-facility network in a medical facility, or may be directly connected to each other.

The medical information management device 20 stores the image data of the medical image generated in the modality 10 and manages it for each patient and each examination. Examples of the medical information management device 20 include a PACS (Picture Archiving and Communication System).

FIG. 2 shows the functional configuration of the medical information management device 20. The medical information management device 20 includes a control unit 21, an operation unit 22, a display unit 23, a communication unit 24, a RAM (Random Access Memory) 25, a storage unit 26, and the like, and each unit is connected by a bus 27. ing.

The control unit 21 is composed of a CPU (Central Processing Unit) and the like, and comprehensively controls the processing operation of each unit of the medical information management device 20. Specifically, the CPU reads out various processing programs stored in the storage unit 26 and expands them in the RAM 25 in response to the operation signal input from the operation unit 22 or the instruction signal received by the communication unit 24. Various processes are performed in collaboration with the program.

The operation unit 22 is configured to include a keyboard equipped with cursor keys, character / number input keys, various function keys, and a pointing device such as a mouse, and controls operation signals input by key operations on the keyboard and mouse operations. Output to unit 21.

The display unit 23 is configured to include a monitor such as an LCD (Liquid Crystal Display), and displays various screens according to an instruction of a display signal input from the control unit 21.

The communication unit 24 is configured by a network interface or the like, and transmits / receives data to / from an external device connected via the communication network NT. For example, the communication unit 24 receives the image data of the medical image obtained by photographing the patient by the modality 10. In addition, the communication unit 24 transmits display data for displaying various screens to the display device 30 in response to a request from the display device 30.

The RAM 25 forms a work area for temporarily storing various programs, input or output data, parameters, and the like read from the storage unit 26 in various processes executed and controlled by the control unit 21.

The storage unit 26 is composed of an HDD (Hard Disk Drive), a non-volatile semiconductor memory, or the like, and stores various processing programs, parameters, files, and the like necessary for executing the program. For example, the storage unit 26 includes a Web server program for realizing a function as a Web server that provides various Web screens to the Web browser by communicating with the Web browser mounted on the display device 30 by the HTTP protocol, or the Web. An application program or the like that operates on the server and provides medical information to the user of the display device 30 via the Web browser is stored.

In addition, medical information is stored in the storage unit 26. Medical information includes patient information, examination information, image data of medical images, and the like. The storage unit 26 has a medical image DB (DataBase) 261.
FIG. 3 shows a part of the data structure of the medical image DB 261. In the medical image DB 261, an image management ID, a reception date and time, an image file name, a patient ID, an examination ID, and the like are stored in association with each of the image data of the medical image stored in the storage unit 26. The image management ID is identification information of a medical image. The reception date and time is the date and time when the image data of the medical image is received from the modality 10. The patient ID is identification information of the patient to be photographed. The examination ID is identification information of the examination for which the image data of the medical image is obtained.

Further, the storage unit 26 stores a monitor configuration condition table T1, a screen layout type table T2, and an image display order table T3.

FIG. 4 shows the data structure of the monitor configuration condition table T1. In the monitor configuration condition table T1, the number of monitors, screen resolution # 1, screen resolution # 2, screen resolution # 3, user agent, and the like are associated with each layout ID.
The layout ID is identification information given to the screen layout of the viewer screen. The viewer screen is a screen for confirming a medical image when a doctor diagnoses (interprets) the medical image. A medical image taken with modality 10 is displayed on the viewer screen.
The number of monitors is the number of monitors included in the display device 30 to be displayed.
The screen resolution # 1 is the screen resolution of the first monitor. The screen resolution is the number of pixels (horizontal x vertical) of the pixels that make up the screen. If the monitors are the same size, the larger the screen resolution, the more detailed information can be displayed.
The screen resolution # 2 is the screen resolution of the second monitor.
Screen resolution # 3 is the screen resolution of the third monitor.
The user agent is information indicating from what kind of environment the display device 30 is accessing the medical information management device 20, and includes information such as the type and version of the OS being used and the type and version of the browser.

FIG. 5 shows the data structure of the screen layout type table T2. In the screen layout type table T2, a screen layout type is associated with each layout ID.
The screen layout type is information indicating the type of screen layout of the viewer screen, and may be either detailed display or simple display.
The detailed display is a display method in which the number of medical images included in the viewer screen is larger than that of the simple display, and is mainly used in an image interpretation environment in a medical facility such as a high-definition monitor. Here, as a detailed display, a layout divided into four areas of horizontal 2 × vertical 2 is adopted. When a plurality of medical images are selected, four selected medical images are displayed side by side on one screen (see FIG. 16).
The simple display is a display method in which the number of medical images included in the viewer screen is smaller than that of the detailed display, and is mainly used in a simple interpretation environment such as a tablet. Here, as a simple display, a layout of 1 horizontal × 1 vertical is adopted. When a plurality of medical images are selected, the selected plurality of medical images are switched and displayed one by one (see FIG. 13).

FIG. 6 shows the data structure of the image display order table T3. In the image display order table T3, an image management ID is associated with the inspection ID for each image display order.
The image display order is the order in which the medical images are selected, and indicates the display order when redisplaying the same examination.
The image management ID is identification information of the selected medical image.

The control unit 21 acquires monitor configuration information regarding one or more monitors of the display device 30 to be displayed among the plurality of types of display devices 30. That is, the control unit 21 functions as an acquisition means. The monitor configuration information includes the number of monitors included in the display device 30, the screen resolution of each monitor, and the like.

The control unit 21 determines the screen layout based on the monitor configuration information. That is, the control unit 21 functions as a determination means. The screen layout includes information on which screen is displayed on which monitor, information indicating the number of medical images (number of frames) included in one screen, and the like.
For example, the control unit 21 determines the number of medical images included in one screen based on the monitor configuration information. In the first embodiment, the control unit 21 determines the number of medical images included in one screen according to the combination of screen resolutions of the monitor included in the display device 30 to be displayed.

The control unit 21 arranges medical information based on the determined screen layout, and causes one or more monitors of the display device 30 to be displayed to display the screen corresponding to each monitor. That is, the control unit 21 functions as a display control means.

The control unit 21 stores the image management ID of the medical image displayed on the display device 30 to be displayed in the storage unit 26 in association with the examination related to the medical image in the order in which the medical image is selected. That is, the control unit 21 functions as a memory control means. Specifically, the control unit 21 sets the image management ID of the medical image selected by the display device 30 and the order in which the medical images are selected (image display order) as the inspection ID of the examination related to the medical image. Is stored in the image display order table T3 in association with.

When an inspection is selected as a display target in any of the display devices 30 among the plurality of types of display devices 30, the control unit 21 stores the image management ID and the order associated with the selected inspection. When stored in the unit 26 (image display order table T3), the image management ID is based on the screen layout determined for the display device 30, the image management ID stored in the storage unit 26, and the order. The screen on which the medical image corresponding to the above is arranged is displayed on one or more monitors included in the display device 30.

The display device 30 is a computer device such as a PC (Personal Computer) or a tablet. The display device 30 is used when interpreting a medical image or the like.

FIG. 7 shows the functional configuration of the display device 30. The display device 30 includes a control unit 31, an operation unit 32, a display unit 33, a communication unit 34, a RAM 35, a storage unit 36, and the like, and each unit is connected by a bus 37.

The control unit 31 is composed of a CPU and the like, and comprehensively controls the processing operation of each unit of the display device 30. Specifically, the CPU reads out various processing programs stored in the storage unit 36 and expands them in the RAM 35 in response to the operation signal input from the operation unit 32 or the instruction signal received by the communication unit 34. Various processes are performed in collaboration with the program.

The operation unit 32 is configured to include a keyboard equipped with cursor keys, character / number input keys, various function keys, and a pointing device such as a mouse, and controls operation signals input by key operations on the keyboard and mouse operations. Output to unit 31. When the operation unit 32 is composed of a touch panel laminated on the display unit 33, the operation signal corresponding to the position of the touch operation by the user's finger or the like is output to the control unit 31.

The display unit 33 has one or more monitors. Each monitor is composed of an LCD or the like, and displays various screens according to an instruction of a display signal input from the control unit 31.

The communication unit 34 is configured by a network interface or the like, and transmits / receives data to / from an external device connected via the communication network NT.

The RAM 35 forms a work area for temporarily storing various programs, input or output data, parameters, and the like read from the storage unit 36 in various processes executed and controlled by the control unit 31.

The storage unit 36 is composed of an HDD, a non-volatile semiconductor memory, or the like, and stores various processing programs, parameters, files, and the like necessary for executing the program. For example, the storage unit 36 stores a Web browser program or the like for realizing a Web browser.

Next, the operation in the first embodiment will be described.
FIG. 8 is a ladder chart showing medical information display processing executed by the medical information management device 20 and the display device 30.

First, in the display device 30, when the user inputs a URL (Uniform Resource Locator) for accessing the medical information management device 20 from the Web browser via the operation unit 32, the control unit 31 is based on the input URL. Then, it is connected to the medical information management device 20 via the communication unit 34 (step S1).

Next, the control unit 31 notifies the medical information management device 20 of the monitor configuration information regarding one or more monitors of the display device 30 via the communication unit 34 (step S2).

In the medical information management device 20, the control unit 21 acquires the monitor configuration information notified from the display device 30 via the communication unit 24, and performs layout determination processing based on the acquired monitor configuration information (step). S3).

FIG. 9 is a flowchart showing a layout determination process executed by the medical information management device 20. This process is a process of determining the screen layout of the viewer screen.
_{First, the control unit 21 acquires the number N max} of the number of monitors connected to the display device 30 from the display device 30 to be displayed (step S21). Here, even when the monitor is integrally configured with the display device 30 such as a tablet, it is expressed as "connection".
Next, the initial value of n is set to 1 (step S22).

_{Next, the control unit 21 acquires the screen resolutions X num} [pixel] and Y _num [pixel] of the nth monitor connected to the display device 30 from the display device 30 to be displayed (step S23). ). When the display device 30 has a plurality of monitors, the display device 30 is preset to display the inspection list screen and the report screen as the first monitor, and is used as the second and subsequent monitors. , The one that displays the viewer screen is preset. Details of each screen will be described later.

Next, the control unit 21 _{determines whether or not n = N max} (step S24). If n = N _max (step S24; NO), 1 is added to n (step S25), the process returns to step S23, and the process is repeated.

In step S24, when n = N _max (step S24; YES), the control unit 21 refers to the monitor configuration condition table T1 (see FIG. 4) and combines the screen resolutions of _{N max monitors.} A layout ID that matches with is determined (step S26).

Next, the control unit 21 refers to the screen layout type table T2 (see FIG. 5) and determines the screen layout of the viewer screen to be detailed display or simple display from the determined layout ID (step S27).
This completes the layout determination process.

Returning to FIG. 8, in the medical information management device 20, the control unit 21 provides the display device 30 with display data for displaying the login screen via the communication unit 24 (step S4). The display data of various Web screens such as the login screen transmitted to the display device 30 by the Web server function of the medical information management device 20 is processed by the HTML, the style sheet, the image data, and the display device 30. Includes scripts etc. to execute.

In the display device 30, when the communication unit 34 receives the login screen display data, the control unit 31 causes the display unit 33 to display the login screen. The login screen includes input fields for a user ID and password.
When the user inputs the user ID and password by the operation from the operation unit 32 on the login screen, the control unit 31 transmits the input user ID and password to the medical information management device 20 via the communication unit 34. (Step S5).

In the medical information management device 20, when the user ID and password are received by the communication unit 24, the control unit 21 determines whether or not the combination of the user ID and password registered in advance matches, and logs in. Perform the process (step S6).

Next, the control unit 21 performs an initial screen providing process, and transmits display data for displaying the initial screen (inspection list screen) to the display device 30 via the communication unit 24 (step S7). ..
The examination list screen is a screen for displaying a list of medical images taken by the modality 10 and stored in the medical information management device 20 for each examination.

FIG. 10 is a flowchart showing an initial screen providing process executed by the medical information management device 20.
First, the control unit 21 determines whether or not the number of monitors connected to the display device 30 to be displayed is two or more (step S31).

When the number of monitors connected to the display device 30 to be displayed is less than two (step S31; NO), that is, when the number of connected monitors is one, the control unit 21 is the one. An inspection list screen is provided for the monitor (step S32).

In step S31, when the number of monitors connected to the display device 30 to be displayed is two or more (step S31; YES), the control unit 21 provides the inspection list screen to the first monitor. However, the second and subsequent monitors are hidden (step S33).
After step S32 or step S33, the initial screen providing process ends.

Returning to FIG. 8, in the display device 30, when the display data of the initial screen (inspection list screen) is received by the communication unit 34, the control unit 31 causes the display unit 33 to display the inspection list screen (step S8). .. When the display device 30 is composed of one monitor, the inspection list screen is displayed on the monitor, and when the display device 30 is composed of two or more monitors, the first monitor is displayed. The inspection list screen is displayed in.
On the examination list screen, when the user selects one of the examinations by the operation from the operation unit 32, the control unit 31 manages the medical information for identifying the selected examination via the communication unit 34. It is transmitted to the device 20 (step S9).

In the medical information management device 20, when the examination ID is received by the communication unit 24, the control unit 21 performs an image interpretation screen providing process for the selected examination, and the display device 30 is subjected to the communication unit 24 via the communication unit 24. Display data for displaying the interpretation screen is transmitted (step S10). The interpretation screen includes a viewer screen and a report screen.
The report screen is a screen for confirming a medical image on a viewer screen and creating a report (report) describing findings such as lesions. The clinician refers to the report produced by the interpreter when examining the patient.

FIG. 11 is a flowchart showing an image interpretation screen providing process executed by the medical information management device 20.
First, the control unit 21 determines whether or not the number of monitors connected to the display device 30 to be displayed is two or more (step S41).

When the number of monitors connected to the display device 30 to be displayed is less than two (step S41; NO), that is, when the number of connected monitors is one, the control unit 21 determines the layout. In the process (see FIG. 9), it is determined whether or not the screen layout of the viewer screen is determined to be the simple display (step S42).

When the screen layout of the viewer screen is determined to be simple display (step S42; YES), the control unit 21 assigns the simple viewer screen to the monitor of the display device 30 composed of one unit (step S43). The report screen can be switched from the simple viewer screen.

When the screen layout of the viewer screen is determined to be detailed display in step S42 (step S42; NO), the control unit 21 allocates the detailed viewer screen to the monitor of the display device 30 composed of one unit (step S42; NO). Step S44). The report screen can be switched from the detailed viewer screen.

In step S41, when the number of monitors connected to the display device 30 to be displayed is two or more (step S41; YES), the control unit 21 has two report screens on the first monitor. The detailed viewer screen is assigned to the monitors after the eyes (step S45).
If the screen layout of the viewer screen is determined to be a simple display, the simple viewer screen may be assigned to the second and subsequent monitors.

After step S43, step S44 or step S45, the control unit 21 refers to the image display order table T3 (see FIG. 6) to see if the image management ID and the image display order are stored for the selected inspection. It is determined whether or not (step S46).

When the image management ID and the image display order are stored for the selected inspection (step S46; YES), the control unit 21 is selected for the screen layout (detailed display or simple display) of the viewer screen. The medical image is arranged in the viewer screen based on the image management ID and the image display order stored for the examination (step S47). Specifically, the control unit 21 arranges the medical image indicated by the image management ID corresponding to the image display order in the viewer screen according to the image display order.

In step S46, when the image management ID and the image display order are not stored for the selected inspection (step S46; NO), or after step S47, the control unit 21 sends the display device 30 to be displayed. An image interpretation screen (viewer screen / report screen) is provided to the connected monitor (step S48).
This completes the image interpretation screen provision process.

Returning to FIG. 8, in the display device 30, when the display data of the interpretation screen (viewer screen / report screen) is received by the communication unit 34, the control unit 31 causes the display unit 33 to display the viewer screen / report screen. (Step S11). When the display device 30 is composed of one monitor, the viewer screen and the report screen are switched.

In the display device 30, the control unit 31 determines whether or not to interpret the next inspection based on the operation from the operation unit 32 (step S12). When interpreting the next examination (step S12; YES), the control unit 31 issues a next examination transition instruction for instructing the transition to the next examination via the communication unit 34, and the medical information management device 20. (Step S13).

When the communication unit 24 receives the next inspection transition instruction (step S14; YES), the medical information management device 20 returns to step S7 and repeats the process.

In step S12, when the interpretation of the next inspection is not performed (step S12; NO), or after step S13, the process in the display device 30 ends.
If the next examination transition instruction is not received in step S14 (step S14; NO), the process in the medical information management device 20 ends.

<Interpretation by tablet>
Here, a case where a doctor uses a tablet (one monitor) as a display device 30 at night or when going out will be described.

In the medical information management device 20, the control unit 21 acquires from the display device 30 that the number of monitors is one and that the screen resolution of the monitors is 2048 × 1536.
Next, the control unit 21 acquires "0003" from the monitor configuration condition table T1 (see FIG. 4) as a layout ID that matches the screen resolution of the monitor.
Then, the control unit 21 acquires the screen layout type corresponding to the layout ID "0003" from the screen layout type table T2 (see FIG. 5), and determines the screen layout of the viewer screen to be a simple display.

When a tablet is used as the display device 30, after the user logs in, the inspection list screen is first displayed as the initial screen on the monitor of the display unit 33.

FIG. 12 is an example of the inspection list screen 40. The inspection list screen 40 includes an extraction condition input area 41, an inspection list display area 42, and a search button B1.
In the extraction condition input area 41, a patient ID, a patient name, a modality, a site, and the like are input as extraction conditions for the examination to be displayed in the examination list display area 42. When the search button B1 is pressed, the search is started.
In the inspection list display area 42, a list of inspections extracted according to the extraction conditions input in the extraction condition input area 41 is displayed. When any inspection (for example, inspection 43) is selected from the inspection list, the screen transitions to the interpretation screen corresponding to the selected inspection.

When the examination of the patient to be read is selected on the examination list screen 40, the simple viewer screen 50 (see FIG. 13) is displayed.

FIG. 13 is an example of the simple viewer screen 50. The simple viewer screen 50 includes a patient information display area 51, a tool selection area 52, a thumbnail display area 53, a medical image display area 54, a screen switching button B11, and an end button B12.
In the patient information display area 51, a patient ID, a patient name, and the like are displayed as patient information of the selected patient to be examined.
The tool selection area 52 is an area for selecting tools such as pan, enlargement / reduction, image processing, and annotation. Buttons corresponding to each tool are displayed in the tool selection area 52.

In the thumbnail display area 53, thumbnail images 53A, 53B, 53C, 53D, 53E of the medical images selected in the examination are displayed in the selected order.
Among the medical images selected in the examination, the medical image designated as the image interpretation target is displayed in the medical image display area 54. Of the thumbnail images 53A, 53B, 53C, 53D, and 53E displayed in the thumbnail display area 53, the medical image corresponding to the designated thumbnail image is displayed in the medical image display area 54.

On the simple viewer screen 50, one medical image is displayed in the medical image display area 54. By touching any of the thumbnail images 53A, 53B, 53C, 53D, 53E in the thumbnail display area 53, the medical image displayed in the medical image display area 54 is switched. Operationally, it is an image in which a plurality of medical images are superimposed and displayed on the medical image display area 54.
The medical images displayed in the medical image display area 54 among the selected medical images may be sequentially switched according to the operation from the operation unit 32 of the display device 30 or at regular intervals. ..

The screen switching button B11 is a button for instructing switching to the report screen 60 (see FIG. 14). When the screen switching button B11 is pressed, the screen transitions to the report screen 60.
The end button B12 is a button for instructing the end of the interpretation of the selected inspection. When the end button B12 is pressed, the screen returns to the inspection list screen 40 (see FIG. 12).

For a plurality of medical images (medical images in which thumbnail images are displayed in the thumbnail display area 53) selected on the simple viewer screen 50, the image management ID of each medical image is associated with the examination ID together with the image display order. Then, it is stored in the image display order table T3 of the medical information management device 20.

FIG. 14 is an example of the report screen 60. The report screen 60 includes a patient information display area 61, a finding input area 62, a diagnosis input area 63, a comment input area 64, and a screen switching button B21.
In the patient information display area 61, the patient information of the selected patient to be examined is displayed.
Findings are input to the findings input area 62.
A diagnosis is input to the diagnosis input area 63.
A comment is input to the comment input area 64.
The screen switching button B21 is a button for instructing switching to the simple viewer screen 50 (see FIG. 13). When the screen switching button B21 is pressed, the screen transitions to the simple viewer screen 50.

The report screen may not be provided separately from the simple viewer screen, but a simple input field for the report may be displayed on a part of the simple viewer screen. Further, instead of providing the report screen and the simple input field of the report, the user's comment or the like may be input as voice.

<Interpretation by multiple monitors>
A case where a display device 30 having three monitors is used in a medical facility after image interpretation is performed with a tablet will be described. Hereinafter, in order to distinguish the three monitors, they will be referred to as monitors M1 to M3, respectively. Of the three monitors M1 to M3, the first monitor M1 is a normal monitor, the second monitor M2 and the third monitor M3 are high-definition monitors.

In the medical information management device 20, the control unit 21 has three monitors from the display device 30, the screen resolution of the first monitor M1 is 1920 × 1080, and the screen of the second monitor M2. Acquire that the resolution is 1200 × 1600 and that the screen resolution of the third monitor M3 is 1200 × 1600.
Next, the control unit 21 acquires "0001" from the monitor configuration condition table T1 (see FIG. 4) as a layout ID that matches the combination of monitor screen resolutions.
Then, the control unit 21 acquires the screen layout type corresponding to the layout ID “0001” from the screen layout type table T2 (see FIG. 5), and determines the screen layout of the viewer screen to be detailed display.

When the display device 30 having three monitors M1 to M3 is used, after the user logs in, the inspection list screen is first displayed on the first monitor M1 as the initial screen, and the second monitor M2 and the second monitor M2 The third monitor M3 is hidden.
The inspection list screen is the same as the inspection list screen 40 shown in FIG.

When the examination of the patient to be read is selected on the examination list screen 40, the report screen 70 (see FIG. 15) is displayed on the first monitor M1 and the details are displayed on the second monitor M2 and the third monitor M3. The viewer screen 80 (see FIG. 16) is displayed.

FIG. 15 is an example of the report screen 70. The report screen 70 includes a patient information display area 71, a finding input area 72, a diagnosis input area 73, and a comment input area 74. The report screen 70 is different from the report screen 60 shown in FIG. 14 in that the screen switching button B21 is not provided, but the other configurations are the same.

FIG. 16 is an example of the detailed viewer screen 80. The detail viewer screen 80 includes a patient information display area 81, a tool selection area 82, a related list display area 83, a thumbnail display area 84, a medical image display area 85, and an end button B31.
In the patient information display area 81, the patient information of the selected patient to be examined is displayed.
The tool selection area 82 is an area for selecting tools such as pan, enlargement / reduction, image processing, and annotation.
The association list display area 83 displays a list of examinations associated with the selected examination.

In the thumbnail display area 84, thumbnail images of the medical images selected in the examination are displayed in the selected order.
In the medical image display area 85, a number of medical images selected in the examination according to the screen layout are displayed.
The end button B31 is a button for instructing the end of the interpretation of the selected inspection. When the end button B31 is pressed, the screen returns to the inspection list screen 40 (see FIG. 12).

When the examination performed by the tablet is selected, the image management ID and the image display order associated with the examination ID of this examination are stored, so that the medical image selected on the tablet is displayed in the detailed viewer. It will be displayed on the screen 80. The medical images displayed here are rearranged in the 2 × 2 layout based on the image management ID and the image display order stored when they were displayed in the 1 × 1 layout on the tablet.

FIG. 17 shows an example of the order of medical images displayed on the second monitor M2 and the third monitor M3. A report screen is displayed on the first monitor M1. In the detailed viewer screen 80 displayed on the monitors M2 and M3, the portion common to both screens may be omitted.

On the tablet, medical images were displayed in a layout of one image on one screen, but in the three-sided display device 30 in the medical facility, four medical images are displayed on each of the monitors M2 and M3, for a total of a maximum of eight medical images. Is displayed at the same time.
In this way, the medical image displayed in the 1 × 1 layout on the tablet can be automatically displayed in the 2 × 2 layout without manually selecting it again. When there is a margin in the display area of the monitor as in the three-sided display device 30, by using a plurality of monitors, a plurality of medical images can be referred to at the same time, and efficient interpretation becomes possible. ..

As described above, according to the first embodiment, since the screen layout is determined based on the monitor configuration information, it is possible to provide a diagnostic environment according to the monitor configuration of the display device 30.

For example, when the display device 30 has a plurality of monitors, it is easier to see by displaying a report screen on the first monitor and a viewer screen on the second and subsequent monitors as an image interpretation screen. In the state, medical information can be provided.
Further, when the display device 30 is composed of a tablet or the like, each screen can be provided within a limited display area by switching between the viewer screen and the report screen as the image interpretation screen.

Further, for the viewer screen, since the number of medical images included in one screen is determined based on the monitor configuration information, it is possible to set the display device 30 so that the display area of the monitor can be used to the maximum. it can. Specifically, the medical image included in one screen is determined by determining the screen layout of the viewer screen to be either detailed display or simple display according to the combination of screen resolutions of the monitor of the display device 30 to be displayed. The number of can be determined.

Further, by storing the image management ID of the medical image displayed in the past in association with the examination related to the medical image together with the order in which the medical image is selected, the same examination is subsequently selected. In this case, the screen on which the medical image corresponding to the image management ID is arranged can be displayed based on the stored image management ID and the order.
For example, in a situation where the simple viewer screen (1 × 1 layout) is displayed on the tablet when going out, the image management ID of the selected medical image is stored together with the selected order. After that, when reading the same examination in a medical facility, etc., the detailed viewer screen is displayed on one or more monitors, and multiple medical images that were open on the go, etc. are displayed in multiple frames (2 x 2 layout). Be expanded.

In the first embodiment, in the image display order table T3 (see FIG. 6), the case where the image management ID is associated with the inspection ID for each image display order has been described, but for each patient. In addition, the image management ID of the selected medical image and the order thereof may be stored in association with each other. In this case, when a patient is selected as a display target on the patient list screen, the control unit 21 stores the image management ID and the order associated with the selected patient in the storage unit 26. The display device 30 has a screen on which medical images corresponding to the image management ID are arranged based on the screen layout determined for the display device 30, the image management ID stored in the storage unit 26, and the order. It may be displayed on one or more monitors.
Further, the image management ID of the selected medical image and the order thereof may be stored for each user.

Further, when determining the screen layout using the monitor configuration condition table T1, it may be determined whether or not the display device 30 is a tablet based on the user agent name acquired from the display device 30.
For example, character strings such as "Windows (registered trademark)" and "iPad (registered trademark)" are registered in the "user agent" field of the monitor configuration condition table T1 and used as the user agent name obtained from the display device 30. When these character strings are included, the layout ID corresponding to the character strings can be determined.

[Second Embodiment]
Next, a second embodiment to which the present invention is applied will be described.
Since the medical information display system in the second embodiment has the same configuration as the medical information display system 100 shown in the first embodiment, FIGS. 1, 2 and 7 are used with reference to the configuration. Is omitted from the illustration and description. Hereinafter, the configuration and processing characteristic of the second embodiment will be described.

The control unit 21 of the medical information management device 20 determines the screen layout based on the monitor configuration information acquired from the display device 30 to be displayed.
Specifically, the control unit 21 is included in one screen when the display device 30 to be displayed has one monitor, as compared with the case where the display device 30 to be displayed has a plurality of monitors. Reduce the number of medical images.

In the second embodiment, the second layout determination process shown in FIG. 18 is performed instead of the layout determination process (see FIG. 9) of the first embodiment.

First, the control unit 21 acquires the number of monitors connected to the display device 30 from the display device 30 to be displayed (step S51).
Next, the control unit 21 determines whether or not the number of monitors connected to the display device 30 to be displayed is two or more (step S52).

When the number of monitors connected to the display device 30 to be displayed is less than two (step S52; NO), that is, when one monitor is connected, the control unit 21 displays the viewer screen. The screen layout of is determined to be a simple display (1 × 1 layout) (step S53).

On the other hand, in step S52, when the number of monitors connected to the display device 30 to be displayed is two or more (step S52; YES), the control unit 21 displays the screen layout of the viewer screen in detail (step S52; YES). (2 × 2 layout) is determined (step S54).

Next, the control unit 21 acquires the order of the plurality of monitors connected to the display device 30 from the display device 30 to be displayed (step S55). This order is information indicating which monitor is the first monitor, which monitor is the second monitor, and the like for a plurality of monitors, and is preset in the display device 30. ..
After step S53 or step S55, the second layout determination process ends.

Other processes are the same as those in the first embodiment.

As described above, according to the second embodiment, since the screen layout is determined based on the monitor configuration information, it is possible to provide a diagnostic environment according to the monitor configuration of the display device 30.
Specifically, when the display device 30 has one monitor for the viewer screen, the number of medical images included in one screen is set to "1", and the display device 30 has a plurality of monitors. In this case, by setting the number of medical images included in one screen to "4", the display area of the monitor included in the display device 30 can be effectively utilized and the image can be read efficiently.

[Third Embodiment]
Next, a third embodiment to which the present invention is applied will be described.
Since the medical information display system in the third embodiment has the same configuration as the medical information display system 100 shown in the first embodiment, FIGS. 1, 2 and 7 are referred to, and the configuration thereof Is omitted from the illustration and description. Hereinafter, the configuration and processing characteristic of the third embodiment will be described.

The control unit 21 of the medical information management device 20 determines the screen layout based on the monitor configuration information acquired from the display device 30 to be displayed.
Specifically, when the total number of pixels of the monitor of the display device 30 to be displayed is equal to or less than a predetermined value, the control unit 21 has the total number of pixels of the monitor of the display device 30 to be displayed. The number of medical images included in one screen is reduced as compared with the case where the value is larger than a predetermined value.

In the third embodiment, the third layout determination process shown in FIG. 19 is performed instead of the layout determination process (see FIG. 9) of the first embodiment.

_{First, the control unit 21 acquires the number N max} of the number of monitors connected to the display device 30 from the display device 30 to be displayed (step S61).
Next, the initial value of n is set to 1, and the total total number of pixels is set to 0 (step S62).

_{Next, the control unit 21 acquires the screen resolutions X num} [pixel] and Y _num [pixel] of the nth monitor connected to the display device 30 from the display device 30 to be displayed (step S63). ).

Next, the control unit 21 calculates the total number of pixels on the screen of the nth monitor (step S64). The total number of pixels on the screen is a value obtained by multiplying the _{screen resolution X num} [pixel] and Y _{num [pixel].}
Next, the control unit 21 integrates the total number of pixels on the screen of the nth monitor into the total total number of pixels (step S65).

Next, the control unit 21 _{determines whether or not n = N max} (step S66). If n = N _max (step S66; NO), 1 is added to n (step S67), the process returns to step S63, and the process is repeated.

In step S66, when n = N _max (step S66; YES), the control unit 21 determines whether or not the total total number of pixels is 2 million pixels or less (step S68).
When the total total number of pixels is 2 million pixels or less (step S68; YES), the control unit 21 determines the screen layout of the viewer screen to be a simple display (1 × 1 layout) (step S69).

On the other hand, in step S68, when the total total number of pixels is larger than 2 million pixels (step S68; NO), the control unit 21 determines the screen layout of the viewer screen to be detailed display (2 × 2 layout) (2 × 2 layout). Step S70).
After step S69 or step S70, the third layout determination process ends.

For example, in the case of a notebook PC having a screen resolution of 1376 [pixel] x 768 [pixel], the total number of pixels is 1056768, which is 2 million pixels or less, so that the screen layout of the viewer screen is a simple display.
On the other hand, in the case of a wide monitor with a full HD resolution of 1920 [pixel] x 1080 [pixel], the total number of pixels is 2073600, which is larger than 2 million pixels, so the screen layout of the viewer screen is a detailed display. ..

Other processes are the same as those in the first embodiment.

As described above, according to the third embodiment, since the screen layout is determined based on the monitor configuration information, it is possible to provide a diagnostic environment according to the monitor configuration of the display device 30.
Specifically, when the total number of pixels of the monitor of the display device 30 to be displayed is equal to or less than a predetermined value with respect to the viewer screen, the number of medical images included in one screen is set to "1". When the total number of pixels of the monitor of the display device 30 to be displayed is larger than a predetermined value, the number of medical images included in one screen is set to "4" to display the monitor of the display device 30. The area can be used effectively and the image can be read efficiently.

[Fourth Embodiment]
Next, a fourth embodiment to which the present invention is applied will be described.
Since the medical information display system in the fourth embodiment has the same configuration as the medical information display system 100 shown in the first embodiment, FIGS. 1, 2 and 7 are referred to, and the configuration thereof Is omitted from the illustration and description. Hereinafter, the configuration and processing characteristic of the fourth embodiment will be described.

The control unit 21 of the medical information management device 20 determines the screen layout based on the monitor configuration information acquired from the display device 30 to be displayed.
Specifically, when the total screen area of the monitors of the display device 30 to be displayed is equal to or less than a predetermined value, the control unit 21 determines the total screen area of the monitors of the display device 30 to be displayed. The number of medical images contained in one screen is reduced as compared with the case where the value is larger than the value.

In the fourth embodiment, the fourth layout determination process shown in FIG. 20 is performed instead of the layout determination process (see FIG. 9) of the first embodiment.

_{First, the control unit 21 acquires the number N max} of the number of monitors connected to the display device 30 from the display device 30 to be displayed (step S71).
Next, the initial value of n is set to 1, and the total area is set to 0 (step S72).

_{Next, the control unit 21 acquires the screen resolutions X num} [pixel] and Y _num [pixel] of the nth monitor connected to the display device 30 from the display device 30 to be displayed (step S73). ).

Next, from the display device 30 to be displayed, the control unit 21 determines the size per pixel of the nth monitor connected to the display device 30 X _rsl [mm / pixel], Y _rsl [mm / pixel]. ] Is acquired (step S74).

Next, the control unit 21 calculates the screen area (physical size) of the nth monitor (step S75). The screen area _{can be calculated from (X num} [pixel] x X _rsl [mm / pixel]) x (Y _num [pixel] x Y _rsl [mm / pixel]).
Next, the control unit 21 integrates the screen area of the nth monitor into the total area (step S76).

Next, the control unit 21 _{determines whether or not n = N max} (step S77). If n = N _max (step S77; NO), 1 is added to n (step S78), the process returns to step S73, and the process is repeated.

In step S77, when n = N _max (step S77; YES), the control unit 21 ^{determines whether or not the total area is 62370 mm 2} (corresponding to A4 size) or less (step S79).
When the total area is 62370 mm ² or less (step S79; YES), the control unit 21 determines the screen layout of the viewer screen to be a simple display (1 × 1 layout) (step S80).

On the other hand, in step S79, when the total area is ^{larger than 62370 mm 2} (step S79; NO), the control unit 21 determines the screen layout of the viewer screen to be detailed display (2 × 2 layout) (step S81). ..
After step S80 or step S81, the fourth layout determination process ends.

For example, in the case of a tablet having a screen resolution of 2048 [pixel] x 1536 [pixel] and a pixel size of 0.096 [mm / pixel] x 0.096 [mm / pixel], the total area is 28991 [mm ² ]. , 62370 [mm ² ] or less, so that the screen layout of the viewer screen is a simple display.
On the other hand, in the case of a wide monitor with a screen resolution of 1920 [pixel] x 1080 [pixel] and a pixel size of 0.248 [mm / pixel] x 0.248 [mm / pixel] with full HD resolution, the total area is 127535 [ a ^{mm 2], 62370 [mm 2} ] for a larger, screen layout of the viewer window is a detailed display.

Other processes are the same as those in the first embodiment.

As described above, according to the fourth embodiment, since the screen layout is determined based on the monitor configuration information, it is possible to provide a diagnostic environment according to the monitor configuration of the display device 30.
Specifically, when the total screen area of the monitor of the display device 30 to be displayed is equal to or less than a predetermined value with respect to the viewer screen, the number of medical images included in one screen is set to "1" and displayed. When the total screen area of the monitor of the target display device 30 is larger than a predetermined value, the number of medical images included in one screen is set to "4" to increase the display area of the monitor of the display device 30. It can be used effectively and the image can be read efficiently.

The description in each of the above embodiments is an example of the medical information display system according to the present invention, and is not limited thereto. The detailed configuration and detailed operation of each device constituting the system can be appropriately changed without departing from the spirit of the present invention.

For example, in each of the above embodiments, the medical information management device 20 determines the screen layout displayed on the display device 30, but the display device 30 may determine the screen layout.
Further, the number and arrangement of medical images included in each of the simple viewer screen and the detailed viewer screen are examples, and are not limited to the above examples.

Further, as shown in FIG. 21, in the medical image display area 91 of the simple viewer screen 90, a plurality of selected medical images may be gradually shifted and displayed in an overlapping manner. This makes it easy to see that a plurality of medical images are selected. When switching the medical image, the designated medical image is displayed in the foreground by designating a part of the medical image to be displayed by touching or clicking.
Further, on the simple viewer screen, among the plurality of selected medical images, the mainly displayed medical images may be switched by tabs.

Further, when an external monitor is connected to the display device 30 while using the display device 30 having one monitor such as a tablet, the screen layout is changed as a monitor configuration including the external monitor. It may be that.

In the above description, an example in which an HDD or a non-volatile semiconductor memory is used as a computer-readable medium in which a program for executing each process is stored has been disclosed, but the present invention is not limited to this example. As another computer-readable medium, a portable recording medium such as a CD-ROM can be applied. Further, a carrier wave may be applied as a medium for providing program data via a communication line.

20 Medical information management device 21 Control unit 24 Communication unit 26 Storage unit 30 Display device 31 Control unit 32 Operation unit 33 Display unit 34 Communication unit 36 Storage unit 40 Inspection list screen 50 Simple viewer screen 60 Report screen 70 Report screen 80 Detailed viewer screen 100 Medical information display system B11 Screen switching button B21 Screen switching button NT Communication network T1 Monitor configuration condition table T2 Screen layout type table T3 Image display order table

Claims (5)

A medical information display system capable of displaying medical information stored in a storage means on each of a plurality of types of display devices.
Each of the plurality of types of display devices has one or more monitors.
Among the plurality of types of display devices, an acquisition means for acquiring monitor configuration information relating to one or more monitors possessed by the display device to be displayed, and
A determination means for determining the screen layout based on the monitor configuration information, and
A display control means for arranging the medical information based on the determined screen layout and causing one or more monitors of the display device to be displayed to display a screen corresponding to the monitor.
Equipped with a,
The medical information is a medical image obtained by photographing a patient.
The determination means determines the screen layout of the viewer screen to be either detailed display or simple display according to the combination of screen resolutions of the monitor of the display device to be displayed, and thus is a medical image included in one screen. A medical information display system that determines the number of. A medical information display system capable of displaying medical information stored in a storage means on each of a plurality of types of display devices.
Each of the plurality of types of display devices has one or more monitors.
Among the plurality of types of display devices, an acquisition means for acquiring monitor configuration information relating to one or more monitors possessed by the display device to be displayed, and
A determination means for determining the screen layout based on the monitor configuration information, and
A display control means for arranging the medical information based on the determined screen layout and causing one or more monitors of the display device to be displayed to display a screen corresponding to the monitor.
With
The medical information is a medical image obtained by photographing a patient.
The determination means is the number of medical images included in one screen when the display device to be displayed has one monitor, as compared with the case where the display device to be displayed has a plurality of monitors. A medical information display system that determines the number of medical images included in one screen by reducing the number of images. A medical information display system capable of displaying medical information stored in a storage means on each of a plurality of types of display devices.
Each of the plurality of types of display devices has one or more monitors.
Among the plurality of types of display devices, an acquisition means for acquiring monitor configuration information relating to one or more monitors possessed by the display device to be displayed, and
A determination means for determining the screen layout based on the monitor configuration information, and
A display control means for arranging the medical information based on the determined screen layout and causing one or more monitors of the display device to be displayed to display a screen corresponding to the monitor.
With
The medical information is a medical image obtained by photographing a patient.
In the determination means, when the total number of pixels of the monitor of the display device to be displayed is equal to or less than a predetermined value, the total number of pixels of the monitor of the display device to be displayed is equal to or less than the predetermined value. A medical information display system that determines the number of medical images included in one screen by reducing the number of medical images included in one screen as compared with a large case. A medical information display system capable of displaying medical information stored in a storage means on each of a plurality of types of display devices.
Each of the plurality of types of display devices has one or more monitors.
Among the plurality of types of display devices, an acquisition means for acquiring monitor configuration information relating to one or more monitors possessed by the display device to be displayed, and
A determination means for determining the screen layout based on the monitor configuration information, and
A display control means for arranging the medical information based on the determined screen layout and causing one or more monitors of the display device to be displayed to display a screen corresponding to the monitor.
With
The medical information is a medical image obtained by photographing a patient.
The determination means is when the total screen area of the monitors of the display device to be displayed is equal to or less than a predetermined value and the total screen area of the monitors of the display device to be displayed is larger than the predetermined value. A medical information display system that determines the number of medical images included in one screen by reducing the number of medical images included in one screen as compared with the above. A storage control means for storing the identification information of the medical image displayed on the display device to be displayed in the storage means in association with the patient or examination related to the medical image in the order in which the medical image is selected is provided. ,
When a patient or test is selected as a display target in any of the plurality of types of display devices, the identification information and the order associated with the selected patient or test are stored in the storage means. When stored, the display control means corresponds to the identification information based on the screen layout determined by the determination means for the display device, the identification information stored in the storage means, and the order. The medical information display system according to any one of claims 1 to 4 , wherein a screen on which a medical image is arranged is displayed on one or a plurality of monitors included in the display device.

Images