JP4141756B2 - Monochrome liquid crystal image display device and interpretation report creation device using the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a monochrome liquid crystal type image display device and an interpretation report creation device using the same, and more specifically, a monochrome liquid crystal type image display device capable of supporting both a general-purpose color video board and a medical monochrome video board, In particular, the present invention relates to a monochrome liquid crystal type image display apparatus suitable for medical image diagnosis, and relates to an interpretation report creating apparatus using the same.
[0002]
[Prior art]
Conventionally, image interpretation in X-ray image diagnosis or the like has been performed by setting a developed film in a Schaukasten (light box) and performing image diagnosis from the shadow of the film. In recent years, digitization of diagnostic images has progressed in the medical field, and accordingly, image diagnosis using a monochrome display has been performed in place of image diagnosis using film and schaukasten.
[0003]
At present, CRT (Cathode Ray Tube) is the mainstream display for medical diagnostic devices, but the display capability (high brightness, high resolution, little distortion) of recent liquid crystal displays has improved, and the liquid crystal display itself is small. Because of its many advantages of light weight and space saving, recently, medical institutions that actively employ image diagnosis using a liquid crystal monitor are increasing.
[0004]
Further, for example, a direct observation apparatus that transmits an original image (modality) used for diagnosis from a laboratory and performs monitor diagnosis from the display image, or a display (CRT) of the direct observation apparatus for the original image is transmitted to the medical diagnosis apparatus. , A liquid crystal display, etc.), and a specialist interprets the image and creates an interpretation report by observing the image.
[0005]
FIG. 3 is a connection conceptual diagram of a conventional interpretation report creating apparatus. The configuration is such that a medical video board 32 and a general-purpose color video board 33 are mounted inside a personal computer (processing device) 31, the medical video board 32 is a high-definition medical monochrome monitor 34, and the general-purpose color video board 33 is Each is connected to the report color monitor 35 via an interface.
[0006]
The high-definition medical monochrome monitor 34 is used by a specialist for interpretation and diagnosis in X-ray image diagnosis and the like, and a high-definition monochrome monitor is used to cope with the high expressive power of conventional film. Yes. The medical video board 32 employs a dedicated interface for displaying medical images. Specifically, one of the R (red), G (green), and B (blue) data lines is used as a luminance (Y) data line, and the amount of data transferred between the main memory and the monitor in the personal computer. Is reduced to about 1/3 to increase the speed of monitor drawing.
[0007]
As a result, the data transfer speed can be sufficiently followed even when high-speed scrolling of the screen is frequently performed during diagnosis. Usually, a diagnostic image is displayed by a viewer software for displaying a medical image, and a specialist uses a marking function of the viewer software to mark a lesion or the like when the diagnostic image is extracted and displayed on a medical record or an interpretation report. As a result, the lesioned part can be quickly grasped, for example, when the patient's medical condition is later referred to.
[0008]
On the other hand, the report color monitor 35 is a monitor used to create a so-called interpretation report. Since this monitor has sufficient performance necessary for display as a normal personal computer, a general-purpose color video board 33 is used as the video board. By the way, the interpretation report is a series of reports that are created by commenting on the results of diagnosis by the specialist using the monochrome monitor 34 for high-definition medical care, and soft-copying (cutting out and copying) the diagnostic images used for the diagnosis. It is an electronic file.
[0009]
[Problems to be solved by the invention]
Marking to be applied to the lesion is often performed by viewer software displayed on the high-definition medical monochrome monitor 34 due to the system configuration, and color marking is performed in order to facilitate identification between the monochrome diagnostic image and the marking. I want to use it. Of course, even if the marking data is written in the diagnostic image data, the color of the marking is not known on the monochrome monitor, but even if the diagnostic image data includes the marking data, the medical video board 32 in the personal computer Since it is developed in the monochrome video memory, color information is lost even if color marking is used.
[0010]
Even if image data is displayed by cutting and pasting (soft copy) on the report color monitor 35 side in order to create an interpretation report, it is expanded in the restrictions on the operation of the personal computer, for example, a monochrome video memory. Since the image data is copied, a phenomenon occurs in which the image data in which the color information is lost is displayed in the image information. That is, there is a problem that a phenomenon occurs in which information recognized by the viewer software (marking with color information) and information actually displayed on the monitor (marking in which color information is lost) are different.
[0011]
Furthermore, as described above, the conventional high-definition medical monochrome monitor 34 for interpretation can only be connected to the dedicated medical video board 32, and thus there is a problem that it lacks versatility.
[0012]
The present invention has been made in view of the above problems, and provides a highly versatile monochrome liquid crystal type image display device capable of supporting both a monochrome video board dedicated for medical diagnosis and a general-purpose color video board. The purpose of the present invention is to provide an interpretation report creation device that can make a soft copy without losing the color information even when color marking is performed on a monochrome monitor screen. is there.
[0013]
[Means for Solving the Problems]
  The present invention achieves the above-mentioned problems, and the invention of claim 1In a monochrome liquid crystal type image display device comprising an image display unit comprising two display areas, reading out image data from a processing device and displaying the image data in the display area, and constituting one screen,
  The monochrome liquid crystal type image display device includes two digital interfaces for receiving the image data corresponding to the two display areas and a display controller.
  When the monochrome liquid crystal image display device is connected to the processing device via a general-purpose color video board, the display controller converts the color image data from the general-purpose color video board into monochrome image data and distributes the image. When data is received by the two digital interfaces and transmitted to the image display units in the two display areas, and when connected to the processing device via a medical monochrome video board, the medical monochrome Monochrome image data from a video board is received by one of the digital interfaces, image data assigned to one data line of the digital interface is transmitted to the image display unit of one display area, and the other The image data assigned to the data line is displayed on the other display area. To the image display unit and display the image data from the processing device on the image display unit so as to constitute one screen, and the monochrome liquid crystal type image display device is the medical monochrome video board or the It can be connected to the processing device via a general-purpose color video board.This is a monochrome liquid crystal type image display device.
[0014]
In the invention of claim 1, the monochrome liquid crystal type image display device receives any of image data (monochrome and color video signals) transmitted from a personal computer (processing device) equipped with a medical monochrome video board or a general-purpose color video board. Even if it is a monochrome LCD image display device, it can process image data transmitted from a general-purpose color video board and use a color marking function on a monochrome LCD screen. In this case, the color information is processed by the general-purpose color video board, so that the color marking function can be used without being lost.
[0015]
Of course, the color marking cannot be displayed in color on the monochrome liquid crystal type image, but since the treatment device stores it in the video RAM (Random Access Memory) of the general-purpose color video board, the color information is not lost. The color marking performed on the monochrome liquid crystal screen can be soft copied, and the interpretation result can be effectively used for diagnosis.
[0016]
  Claims1InventionsoThe monochrome liquid crystal image display device performs first and second signal processing on image data received by the first and second digital interfaces.Display controllerWhen,The first and second digital interfacesEither or eitherAnd control it with the first and second display controllers.Display image dataShiichiScreenConstitutionAnd an image display unit comprising first and second display areas.AndWhen the monochrome liquid crystal image display device receives image data from a general-purpose color video board, the first and second digital interfaces respectively process the image data independently processed by the first and second digital interfaces. When displaying in the display area as one screen and receiving image data from a medical monochrome video board, the first and secondDigital interfaceEither one ofThe image data is divided via the data line., Sorted and displayed in the first and second display areas1One screenRumoA noro liquid crystal type image display device.
[0017]
  Claim1In the present invention, the first and second monochrome liquid crystal type image display devices are provided.Display controllerCan be provided regardless of whether the image data is color or monochrome. In the case of color image data, the first and secondDigital interfaceSignal processing using both, and in the case of monochrome image data, the first and secondDigital interfaceEither one ofviaThus, signal processing can be performed. For color image data, the first and secondDigital interfaceThe signal processing is performed on both of them to display images in the first and second display areas of the image display unit, thereby constituting one screen. When processing monochrome image data, the first and secondDigital interfaceEither one ofViaOne screen is configured by sequentially sorting and displaying the signal processed image data in the first and second display areas. In addition, since the processing device of the monochrome liquid crystal type image display device includes the general-purpose color video board, even if the color data is included in the image data displayed on the monochrome liquid crystal screen, the color information is not displayed. There is an advantage that a soft copy can be made without disappearing.
[0018]
  Claims1The invention of, PaintingReceive image dataFirst and secondEquipped with digital interface receiving means and display controller as control meansTamoNokuro liquid crystal type image display deviceTheAlso, the resolution of the image display unit is QXGA(Quad Extended Graphics Array)(2048 × 1536 pixels) or more, and the image display unit is divided and displayed.Since the image display unit is QXGA or higher, it can be a high-definition image and has an action suitable as a medical display screen. In addition, the QXGA image display unit is divided into an image display unit on the left and right sides. By displaying the image data on the image display unit (first and second display areas) so as to be transmitted, it is possible to cope with the transmission speed of the image data..
[0019]
  Claim1In the invention of, PaintingBy providing a digital interface receiving means (DVI receiver) and control means (display controller) for receiving image data, the type of color and monochrome image data or the presence or absence of an image signal depends on the control function of the display controller. Thus, the image can be displayed in the first and second display areas of the image display unit by performing switching control and the like. The presence / absence of the image signal is the first and second if it is color image data.Digital interfaceIn the case of monochrome image data, the first and second image data are sent toDigital interfaceTherefore, it is possible to determine whether the image data is color image data or monochrome image data.
[0020]
  Claims2The invention ofThe digital interface is DVIThe monochrome liquid crystal type image display device according to claim 1, wherein:
[0021]
  Claim2In this invention, since the digital interface is DVI (Digital Visual Interface), there is no deterioration of information, and there is an effect that an original image can be faithfully displayed as a medical image display device.
[0024]
  Claims3DepartureTomorrow,The monochrome liquid crystal type image display device according to claim 1 or 2, wherein the image display unit of the monochrome liquid crystal type image display device is an interpretation monitor for medical diagnosis.is there.
[0025]
  Claim3In this invention, the monochrome display is a high-definition image by using the image display unit of the monochrome liquid crystal type image display device as an interpretation monitor for medical diagnosis, so that the lesioned part in the medical diagnosis is clearly displayed on the monochrome image. Therefore, a monochrome liquid crystal image display device suitable for interpretation can be obtained.
[0026]
  Also,In the present invention, a monochrome liquid crystal type image display device is connected to a processing device through a general-purpose color video board, and the image display unit of the monochrome liquid crystal type image display device can be used as an interpretation monitor.The
[0027]
  Also bookIn the inventionTheThe image display unit of the nocro liquid crystal type image display device is a monitor for interpretation.,The video board of the image processing unit connected to the image display unit uses the general-purpose color video board.It is possibleTherefore, even if color information such as color marking is input to the monochrome liquid crystal display device, the color information is not lost.
[0028]
  Claims4In the invention of claim3The image interpretation report creation apparatus described in 1) processes the color information of the monochrome image data so that the color information written on the interpretation monitor of the monochrome liquid crystal image display unit can be displayed on another report creation color monitor. An interpretation report creation apparatus comprising a processing device equipped with a general-purpose color video board capable of performing the above-described processing.
[0029]
  Claim4In this invention, an interpretation report creation device using a monochrome liquid crystal type image display device and an interpretation report creation device having a color monitor are connected, and color information such as color markings on the screen display unit of the monochrome liquid crystal type image display device is obtained. The monochrome LCD display device (PC) is equipped with a general-purpose color video board so that it can be displayed on the screen display of other image interpretation report generators equipped with a general-purpose color video board. As an image interpretation report creation device that can display color information on the image display section of other image interpretation report creation devices without losing the color information written through the image, the interpretation results can be used effectively for diagnosis. Has the effect of
[0030]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of a monochrome liquid crystal type image display apparatus according to the present invention and an interpretation report creating apparatus using the same will be described below with reference to the drawings. FIG. 1 is a connection conceptual diagram of a monochrome liquid crystal type image display apparatus according to the present invention and an interpretation report creating apparatus using the same. FIG. 2 is a block diagram showing the connection between the high-definition medical monochrome monitor of FIG. 1 and a general-purpose color video board.
[0031]
The present invention will be described with reference to an embodiment of an interpretation report creating apparatus shown in FIG. The interpretation report creating apparatus of this embodiment is configured such that general-purpose color video boards 12a and 13a are connected to a general-purpose bus 11, which is standardly used for a personal computer 10, for example, a PCI (Peripheral Component Interconnect) bus, and a CPU of the personal computer 10 is used. (Central processing unit). The general-purpose color video board 12a includes a video RAM (Random Access Memory) 12b and a DVI (Digital Visual Interface) transmitter 12c controlled by the control means. The general-purpose color video board 13b includes a video RAM 13b controlled by the control means. And a DVI transmitter 13c.
[0032]
The high-definition medical monochrome monitor 14a is equipped with a DVI receiver 14b corresponding to the DVI transmitter 12c, and the general-purpose color video board 12a is connected to the high-definition medical monitor 14a via the transmission cable 16. The report color monitor 15 a is equipped with a DVI receiver 15 b corresponding to the DVI transmitter 13 c and connected to the report color monitor 15 a via the transmission cable 17. The high-definition medical monochrome monitor 14a is an embodiment of the monochrome liquid crystal type image display device of the present invention, and is provided with a digital interface DVI receiver 14b and a display controller for controlling image data. Yes. Of course, the personal computer 10 is connected to an inspection device such as an X-ray apparatus via a LAN or the like, and original image data is inputted.
[0033]
The general-purpose color video boards 12a and 13a will be described in detail with reference to FIG. 2, but a graphic controller for controlling image display is provided, and the original image data is acquired by the personal computer 10 and converted into predetermined image data. The video RAM 12b has a function of reading out image data from the video RAM 12b and transmitting it through the DVI transmitter 12c. The DVI transmitters 12c and 13c are TMDS (Transition Minimized Differential Signaling) transmitters, and the DVI receivers 14b and 15b are TMDS receivers.
[0034]
The interface composed of the DVI transmitter and the DVI receiver is referred to as a DVI interface. The DVI interface is a digital interface for digital display connection established by DDWG (Digital Display Working Group). It is necessary to have two (two links) TMDS transmission lines developed by Image Corporation. This transmission line has a capability of transmitting a total of 24 bits of data (1 pixel) of RGB and 8 bits of RGB and 6 bits of control signals per link.
[0035]
According to the DVI 1.0 standard, the upper limit of the transmission rate is standardized as TMDS (Transmission Minimized Differential Signaling) dot lock 165 Mpixel / S per link, so the upper limit of the resolution that can be displayed on one link is UXGA ( (Ultra Extended Graphics Array) (1600 × 1200 pixels). Accordingly, in order to transfer pixel data to a high-definition liquid crystal monitor, for example, an LCD panel having a resolution of QXGA (Quad Extended Graphics Array) (2048 × 1536 pixels) or more, the LCD panel display area is divided into two on the left and right sides. It is necessary to divide and transfer the image data via the TMDS2 link. For example, in the case of QXGA (2048 × 1536 pixels), image data is transferred with a dot clock of 130 Mpixel / S per TMDS link. According to this embodiment, the high-definition medical monochrome monitors 14a and 15a are each provided with two transmission cables 16 and 17 (two links).
[0036]
  The general-purpose color video board 12a shown in FIG. 1 is equipped with a video RAM for storing color image data instead of the medical monochrome video board described above. The video RAM is stored without loss of color information of the image data and is maintained as it is. Therefore, even when the monochrome diagnostic image displayed on the high-definition medical monochrome monitor 14a is color-marked, the color information is stored in the video RAM of the general-purpose color video board 12a and is maintained as it is. Also,High-definition medical monochrome monitor14a is equipped with a digital interface that can accommodate both the conventional medical video board 32 and the general-purpose color video board 12a.
[0037]
Next, this embodiment will be described with reference to FIG. FIG. 2 is a block diagram showing the connection between the high-definition medical monochrome monitor 14a of FIG. 1 and the general-purpose color video board 12a. 2, the block diagram of the video RAM 12b corresponding to the color information shown in FIG. 1 is omitted. An example of the monochrome liquid crystal type image display device of this embodiment is a high-definition medical monochrome monitor, and the interpretation report creation device of this embodiment is equipped with this high-definition medical monochrome monitor and a general-purpose color video board. Then, a personal computer (processing device) is connected.
[0038]
2 is provided with a video board 21 corresponding to a general-purpose color video board 12a and an LCD monitor 24 corresponding to a high-definition medical monochrome monitor 14a, which are connected by transmission lines 20L and 20R, respectively. Two signal processing systems are provided. A video board 21 on the personal computer (processing device) side is equipped with a graphic controller 22 as an image control device and DVI transmitters 23L and 23R. As shown in FIG. 1, the video board 21 is connected to the bus 11 and is connected to a CPU (central processing unit). The LCD monitor 24 includes DVI receivers 25L and 25R, display controllers 26L and 26R, and LCD panels 27L and 27R. In one of the signal processing systems, a DVI transmitter 23L and a DVI receiver 25L are connected by a transmission line 20L, and in the other signal processing system, a DVI transmitter 23R and a DVI receiver 25R are connected by a transmission line 20R.
[0039]
Next, the signal processing of this embodiment will be described with reference to FIG. The graphic controller 22 has a total of 24 bits each of 8 bits related to the image data (RGB [7: 0] (R (red) G (green) B (blue))) temporarily stored in the video RAM 12b shown in FIG. The parallel data is read out and controlled so as to be sent to the DVI transmitters 23L and 23R, as described in Fig. 1. In the high-definition image of this embodiment, for example, QXGA (2048 x 1536 pixels), the image is transferred to this LCD panel. When transferring data, it is necessary to divide the display area of the LCD panel into two left and right (LCD panels 27L and 27R), and to transmit image data corresponding to these, the graphic controller 22 is connected to the DVI transmitter 23L. The image data corresponding to the left half display image is divided into DVI transmitter 23 by dividing the image data into Is controlled to send image data corresponding to the display image on the right half corresponding to the LCD panel 27R, and a pixel clock (CLK) used to align the display timing of the left and right image data. The DVI transmitters 23L and 23R receiving these parallel image data encode these image data into TMDS serial signals and transmit them to the LCD monitor 24 side on the transmission line 20L. , 20R, respectively.
[0040]
The encoded image data is sent to the two DVI receivers 25L and 25R in the LCD monitor 24 via the DVI standard transmission lines 20L and 20R, respectively. The DVI receiver 25L decodes the signal in the TMDS system sent from the DVI transmitter 23L, and each of the 8-bit parallel data of RGB [7: 0] (R (red) G (green) B (blue) is 24 bits in total. Data) and the pixel clock (CLK). The reproduced image data is sent to the display controller 26L.
[0041]
The color image data is converted into monochrome image data by a known method. The conversion method is, for example, the first method, and there is a method in which R (red), G (green), and B (blue) G image data are added and combined at a predetermined ratio to obtain monochrome monitor image data. As a second method, a ROM (not shown) storing dedicated brightness data optimum for a monochrome monitor is provided, and each of the input R (red) G (green) B (blue) G is provided. A method of reading out monochrome luminance data from the ROM by forming an address signal corresponding to the luminance based on information obtained from the image data may be used. Also, a display control method disclosed in Japanese Patent Laid-Open No. 4-320295 (gray scale display control device in a monochrome display) may be used.
[0042]
  The monochrome image data converted by such a method is held in a data buffer (not shown) in the display controller 26L, and then sequentially read out in accordance with the timing of the pixel clock (CLK), and the left LCD panel. 27L. in this wayBy display controller 26LBy controlling, the left half is displayed on the monitor screen.
[0043]
On the right LCD panel 27R on the right side of the LCD monota 24, image data is signal-processed by the same method, transmitted via the DVI receiver 25R and the display controller 26R, and displayed. By controlling the display controller 26R in this way, the right half of the image data is displayed on the monitor screen. By performing signal processing in this way, left and right screens are displayed in the respective display areas of the LCD monitor 24 to form one high-definition screen.
[0044]
In addition, the LCD monitor 24 of the present embodiment can correspond to a general-purpose color video board as described above, and can also correspond to a conventional monochrome video board dedicated for medical use. Further, the currently available medical video board 32 (see FIG. 3) is also provided with the DVI interface already described, and this can be used by the LCD monitor 24 of the present embodiment.
[0045]
When the LCD monitor 24 is connected to a processing apparatus including the medical video board 32, signal processing is performed using one signal processing system. That is, the data line to be used basically uses one of the R (red), G (green), and B (blue) data lines as a luminance (Y) data line. This is the same as color. However, as already described in FIG. 1, in order to transfer monochrome image data to a high-definition liquid crystal monitor, for example, a QXGA (2048 × 1536 pixel) LCD panel, the upper limit of the transmission speed is taken into consideration. Must be divided into left and right display areas and transmitted to the respective display areas. That is, the image data (Y_L [7: 0]) to be transmitted to the LCD panel 27L is assigned to the R (red) data line used for the color pixel and transmitted to the right LCD panel 27R (Y_R [7]). : 0]) is assigned to each of the B (blue) data lines used for the color image, and is transmitted using only one link of the DVI interface (in FIG. 2, for convenience of explanation, the data lines are It is divided into a solid line and a broken line). In FIG. 2, monochrome image data (Y (RB) [7: 0]) is processed by data lines indicated by broken lines so as to correspond to the description of the monochrome video board. Therefore, during this signal processing, the DVI transmitter 23L and the DVI receiver 25L which are other signal processing systems are in an empty state.
[0046]
The signal processing of the image data from the monochrome video board is basically the same as described above until the image data is sent to the display controller 26R. When the image data is sent to the display controller 26R via the digital interface, the image data (Y_L [7: 0]) to be transmitted to the left LCD panel 27L is distributed to the display controller 26L side and held in the buffer. The image data (Y_R [7: 0]) transmitted to the right LCD panel 27R is held in the buffer of the display controller 26R. The image data temporarily stored in each buffer is sequentially read according to the pixel clock (CLK), and the image is displayed on the left LCD panel 27L and the right LCD panel 27R to form one screen. The
[0047]
  The selection of the two types of signal processing described above (signal processing for corresponding to a general-purpose color video board and a medical monochrome video board) is performed by a changeover switch (not shown). Also, one DVI interfaceYeThe presence or absence of the image data of the source may be detected and switched automatically.
[0048]
【The invention's effect】
According to the monochrome liquid crystal type image display device according to the present invention, not only can it be connected to a dedicated medical video board, but also a personal computer (processing device) having a general-purpose color video board can be connected. There is an advantage that a monochrome liquid crystal type image display device with high versatility can be provided.
[0049]
In addition, since the image display unit of the monochrome liquid crystal type image display device has a high-definition screen, there is an advantage that it can be used as a medical monochrome liquid crystal type image display device. There is an advantage that the color information written via can be maintained without being lost and displayed on another color monitor.
[0050]
In addition, according to the interpretation report creating apparatus using the monochrome liquid crystal type image display apparatus according to the present invention, since it is connected to a processing apparatus having a general-purpose color video board, color marking is recorded on the monochrome monitor for interpretation. Even if the color information is lost, there is an advantage that the color information can be soft copied to the color monitor without losing it. This makes it easy to distinguish between the monochrome diagnostic image and the marking, There is an advantage that it is possible to provide an interpretation report creating apparatus that can reflect a marking that has been read and written by a specialist in an interpretation report, and can quickly grasp a lesioned part, for example, when referring to a patient's medical condition progress later.
[Brief description of the drawings]
FIG. 1 is a connection conceptual diagram for explaining an embodiment of a monochrome liquid crystal type image display apparatus and an interpretation report creating apparatus using the same according to the present invention.
FIG. 2 is a block diagram showing a connection between a high-definition medical monochrome monitor and a video board in the monochrome liquid crystal image display apparatus according to the present embodiment.
FIG. 3 is a connection conceptual diagram of a conventional interpretation report creation apparatus.
[Explanation of symbols]
10 PC (Processor)
11 Bus
12a, 13a General-purpose color video board
12b, 13b Video RAM
12c, 13c DVI transmitter
14a High-definition medical monochrome monitor
14b, 15b DVI receiver
15a Color monitor for reports
21 Video board
22 Graphic controller
23L, 23R DVI transmitter
24 LCD monitor
25L, 25R DVI receiver
26L, 26R display controller
27L Left LCD panel
27R Right LCD panel

Claims (4)

In a monochrome liquid crystal type image display device comprising an image display unit comprising two display areas, reading out image data from a processing device and displaying the image data in the display area, and constituting one screen,
The monochrome liquid crystal type image display device includes two digital interfaces for receiving the image data corresponding to the two display areas and a display controller.
When the monochrome liquid crystal image display device is connected to the processing device via a general-purpose color video board, the display controller converts the color image data from the general-purpose color video board into monochrome image data and distributes the image. When data is received by the two digital interfaces and transmitted to the image display units in the two display areas, and when connected to the processing device via a medical monochrome video board, the medical monochrome Monochrome image data from a video board is received by one of the digital interfaces, image data assigned to one data line of the digital interface is transmitted to the image display unit of one display area, and the other The image data assigned to the data line is displayed on the other display area. The image data from the processing device is displayed on the image display unit and controlled to form one screen, and the monochrome liquid crystal type image display device is the medical monochrome video board or the general purpose monochrome liquid crystal type image display device via the color video board and said connectable der Rukoto with the processor. 2. The monochrome liquid crystal type image display device according to claim 1, wherein the digital interface is DVI . Monochrome liquid crystal type image display device according to claim 1 or 2, wherein the image display unit of the monochrome liquid crystal type image display device is characterized in that a monitor for interpretation of medical diagnosis. An interpretation report creating apparatus, wherein the monochrome liquid crystal type image display apparatus according to claim 3 is connected to the processing apparatus via the general-purpose color video board, and the image display unit is an interpretation monitor .

Images