JP4560271B2 - MEDICAL IMAGE DISPLAY DEVICE AND MEDICAL IMAGE DISPLAY METHOD - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a medical image display device and a medical image display method, and is particularly suitable for use in displaying an image based on medical image data.
[0002]
[Prior art]
For example, in X-ray imaging for the purpose of medical diagnosis, a film screen system in which an intensifying screen and an X-ray photographic film are combined is often used.
According to this system, X-rays that have passed through the subject contain internal information about the subject, and are converted into visible light proportional to the intensity of the X-rays by the intensifying screen. The converted visible light sensitizes the X-ray photographic film and forms an X-ray image on the X-ray photographic film.
Conventionally, in a medical field using such a system, an X-ray image is read by placing a film on a schaukasten.
[0003]
On the other hand, recently, a method for reading out an image by reading out an X-ray intensity distribution as energy into a photostimulable phosphor and reading the image, a method for directly reading out the fluorescence distribution of the phosphor by X-ray, and a technology that does not use the fluorescence distribution. 2. Description of the Related Art X-ray digital imaging apparatuses that read a radiographic image as an electrical signal and convert the read electrical signal into a digital image by various methods such as a method for reading an image by using a digital image are beginning to be used.
[0004]
In addition, since digital images can be taken, digital image diagnosis is started in which the taken images are displayed as digital data on a computer monitor without being output as a film.
[0005]
On the other hand, in the medical imaging field, CAD (Computer Aided Diagnosis) has been actively researched in recent years, and images such as simple X-rays and CT (computerized tomography) are analyzed by a computer. Then, a CAD image (diagnosis support image) for supporting diagnosis is created, and a portion suspected of having a lesion is detected from the created CAD image (diagnosis support image), thereby contributing to early detection of a disease. (For example, refer to Patent Document 1).
[0006]
[Patent Document 1]
JP-A-3-170130
[0007]
[Problems to be solved by the invention]
However, in the case where the past and current captured images are displayed and normal comparison interpretation is performed, for example, the captured images to be compared are displayed on the left half and the right half of the screen. For this reason, there has been a problem that a CAD image (the diagnosis support image) cannot be displayed on the monitor simultaneously with the captured image.
The present invention has been made in view of the above-described problems, and an object thereof is to appropriately display a captured image and a diagnosis support image.
[0008]
[Means for Solving the Problems]
A medical image display device of the present invention is a medical image display device that reads medical image data stored in a storage medium and displays the medical image data on a monitor, and has a divided display format for defining an image display area on the monitor. Either a divided display format setting unit to be set, a mode for displaying a captured image in an image display area determined based on the divided display format set by the divided display format setting unit, or a mode for displaying a diagnosis support image A medical image stored in the storage medium based on a display mode setting means for setting the display, a split display format set by the split display format setting means, and a mode set by the display mode setting means Image reading means for reading data, and reading by the image reading means An image processing means for performing image processing for display on the medical image data, and an image based on the medical image data image-processed by the image processing means based on the divided display format set by the divided display format setting means. An image display means for displaying in an image display area determined in advance, an image switching means for switching an image displayed by the image display means, Flag switching means for switching on / off of an interlock prohibition flag for prohibiting switching of each image display area displayed by the divided display format setting means; Comprising The division display format setting means is set to divide the image display area into two or more, and the display mode setting means sets a mode for displaying the captured image in at least one image display area. And when the mode for displaying the diagnosis support image is set for at least one image display area, the image switching means switches the captured image of the image display area in which the captured image is displayed. In this case, when the interlock prohibition flag is off, the diagnosis support image in the image display area where the diagnosis support image is displayed is linked to the diagnosis support image that is temporally related to the captured image after switching. When the interlock prohibition flag is on, the captured image in the image display area where the captured image is displayed is switched. Even example, without switching in conjunction diagnosis support image in the image display area in which the diagnosis assisting image is displayed, The image reading means reads medical image data according to the switching process by the image switching means, and the image processing means and the image display means perform processing using the medical image data read according to the switching process. It is characterized by doing.
Further, the medical image display method of the present invention is a medical image display method for reading medical image data stored in a storage medium and displaying it on a monitor, wherein the divided display format setting means displays the image on the monitor. A divided display format setting step for setting a divided display format for determining an area, and a captured image with respect to an image display area determined by the display mode setting means based on the divided display format set by the divided display format setting step A display mode setting step for setting either a mode for displaying an image or a mode for displaying a diagnosis support image, a divided display format set by the divided display format setting step, and a display mode setting step Based on the mode set in An image reading step for reading medical image data stored in the body, an image processing unit for performing image processing for display on the medical image data read by the image reading step, and an image display unit, An image display step for displaying an image based on the medical image data image-processed in the image processing step in an image display area determined based on the divided display format set in the divided display format setting step; An image switching step for switching the image displayed in the image display step; A flag switching step for switching on / off of an interlock prohibition flag for prohibiting switching of each image display area displayed in the divided display format setting step. Comprising In the divided display format setting step, the image display area is set to be divided into two or more, and in the display mode setting step, a mode for displaying the captured image in at least one image display area is set. And when the mode for displaying the diagnosis support image is set for at least one image display area, the image switching means switches the captured image of the image display area in which the captured image is displayed. In this case, when the interlock prohibition flag is off, the diagnosis support image in the image display area where the diagnosis support image is displayed is linked to the diagnosis support image that is temporally related to the captured image after switching. When the interlock prohibition flag is on, the captured image in the image display area where the captured image is displayed is displayed. It is switched, without switching in conjunction diagnosis support image in the image display area in which the diagnosis assisting image is displayed, The image reading means reads medical image data according to the switching process by the image switching means, and the image processing means and the image display means perform processing using the medical image data read according to the switching process. It is characterized by doing.
The computer program of the present invention is a medical image display device for reading medical image data stored in a storage medium and displaying it on a monitor, wherein the computer program is a division for defining an image display area on the monitor. A split display format setting means for setting a display format, and a mode for displaying a captured image in an image display area determined based on the split display format set by the split display format setting means, or a diagnosis support image is displayed. Stored in the storage medium based on the display mode setting means for setting one of the modes, the split display format set by the split display format setting means, and the mode set by the display mode setting means. Image reading means for reading medical image data, and the image An image processing unit that performs display image processing on the medical image data read by the inserting unit, and an image based on the medical image data image-processed by the image processing unit is set by the divided display format setting unit. Image display means for displaying in an image display area determined based on the divided display format, and image switching means for switching the image displayed by the image display means; Flag switching means for switching on / off of an interlock prohibition flag for prohibiting switching of each image display area displayed by the divided display format setting means; Comprising The division display format setting means is set to divide the image display area into two or more, and the display mode setting means sets a mode for displaying the captured image in at least one image display area. And when the mode for displaying the diagnosis support image is set for at least one image display area, the image switching means switches the captured image of the image display area in which the captured image is displayed. In this case, when the interlock prohibition flag is off, the diagnosis support image in the image display area where the diagnosis support image is displayed is linked to the diagnosis support image that is temporally related to the captured image after switching. When the interlock prohibition flag is on, the captured image in the image display area where the captured image is displayed is switched. Even example, without switching in conjunction diagnosis support image in the image display area in which the diagnosis assisting image is displayed, The image reading means reads medical image data according to the switching process by the image switching means, and the image processing means and the image display means perform processing using the medical image data read according to the switching process. It is characterized by functioning as a medical image display device characterized by performing.
The computer-readable recording medium according to the present invention is a medical image display device that reads medical image data stored in a storage medium and displays the medical image data on a monitor. A split display format setting means for setting a split display format for setting, and a mode for displaying a photographed image in an image display area determined based on the split display format set by the split display format setting means, or diagnosis support The storage medium based on display mode setting means for setting one of the modes for displaying an image, a divided display format set by the divided display format setting means, and a mode set by the display mode setting means Image reading means for reading medical image data stored in The image processing means for performing display image processing on the medical image data read by the image reading means, and the image based on the medical image data image-processed by the image processing means by the divided display format setting means Image display means for displaying in an image display area determined based on the set divided display format, and image switching means for switching the image displayed by the image display means; Flag switching means for switching on / off of an interlock prohibition flag for prohibiting switching of each image display area displayed by the divided display format setting means; Comprising The division display format setting means is set to divide the image display area into two or more, and the display mode setting means sets a mode for displaying the captured image in at least one image display area. And when the mode for displaying the diagnosis support image is set for at least one image display area, the image switching means switches the captured image of the image display area in which the captured image is displayed. In this case, when the interlock prohibition flag is off, the diagnosis support image in the image display area where the diagnosis support image is displayed is linked to the diagnosis support image that is temporally related to the captured image after switching. When the interlock prohibition flag is on, the captured image in the image display area where the captured image is displayed is switched. Even example, without switching in conjunction diagnosis support image in the image display area in which the diagnosis assisting image is displayed, The image reading means reads medical image data according to the switching process by the image switching means, and the image processing means and the image display means perform processing using the medical image data read according to the switching process. The computer program for functioning as a medical image display apparatus characterized by performing is stored.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Prior to describing the embodiments of the present invention, the technical background of the embodiments of the present invention will be described.
[0010]
In recent years, various types of CAD have been considered depending on the target image and the detection target. Among them, a temporal difference method for obtaining an image in which temporal changes are emphasized by taking a difference between images obtained by photographing the same part. CAD is attracting attention.
[0011]
In the medical field using such CAD, in order to judge the progress of disease and the progress of healing, it is common to compare two images that are spaced apart over time using a shark caster. Met.
[0012]
However, as described above, since digital images can be taken, for example, image analysis of a set of chest simple X-ray images taken at different time points is performed, and each image is dissected. It is conceivable to obtain a position that is scientifically identical, deform either the current image or the past image, and perform difference processing for each pixel.
[0013]
The density value of the image (difference image) subjected to the difference processing in this way corresponds to the change in the image signal between the current image and the past image. That is, when there is no change between the past image and the current image, the difference value between these images is 0, but when any change occurs between the past image and the current image. Changes in the brightness level corresponding to the change.
[0014]
Therefore, rather than comparing the past and present images to determine the progress of the disease in the human head and the fact that it has been cured, it is better to judge using the difference image that the healing is progressing. Since it is possible to clearly and explicitly indicate that the disease is progressing, displaying the difference image is a very effective means for preventing a doctor's misdiagnosis and judgment error.
[0015]
For example, when there are three or more images that are spaced apart over time, a plurality of difference images can be generated with the accompanying time difference image, and the change over time of the image over time can be more accurately detected. You will be able to know.
[0016]
The embodiments of the present invention to be described below are made based on the technical background as described above.
(First embodiment)
Hereinafter, a first embodiment of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a block diagram illustrating an example of a configuration of a medical image display apparatus according to the present embodiment.
[0017]
In FIG. 1, 101 is an image reading means, 102 is an image processing means, 103 is an image display means, 104 is a divided display format setting means, 105 is a display mode setting means, 106 is an image switching means, 107 is a captured image, 108 is A diagnosis support image 109 is a monitor. In the description of the present embodiment, it is assumed that the captured image 107 and the diagnosis support image 108 are already stored in a storage medium.
[0018]
Next, the function and operation of the medical image display apparatus of the present embodiment configured as described above will be described using the flowchart of FIG. FIG. 2 is a flowchart in a case where display of a captured image and a diagnosis support image is switched in accordance with a display mode setting change instruction.
[0019]
First, in step S201, the image reading unit 101 reads the setting value of the divided display image format. This divided display format includes, for example, a single display, a left and right two display, a top and bottom two display, a top and bottom, left and right four display, and a further split display. It is set based on the operation of the operator.
[0020]
Here, as images displayed in the respective image display areas, images with a time interval for the same patient are displayed. In general, in the case of a medical image, an image compliant with a standard called DICOM (Digital and Communication in Medicine) standard (digital image and communication standard in medicine) is displayed.
[0021]
According to the DICOM standard, images with intervals over time are called inspections. Therefore, a single patient has a plurality of studies (studies) that are spaced apart over time.
[0022]
Next, in step S202, the image reading unit 101 reads a display mode for each examination. This display mode is set based on the operation of the operator using the display mode setting means 105. In this embodiment, the display mode has a mode for displaying a captured image and a mode for displaying a diagnosis support image.
[0023]
Here, the diagnosis support image is, for example, a temporal difference image or the like, but is not limited to this as long as it is an image for assisting diagnosis by an interpretation doctor.
[0024]
Next, in step S203, the image reading unit 101 reads image data. More specifically, the image reading means 101 reads necessary image data in accordance with the setting values read in step S201 and step S202.
[0025]
For example, if the split display format is a mode in which the left and right are split and the captured image is displayed on both the left and right sides, the image data of the latest examination among the examinations held by the patient, and the image of the examination immediately before the latest examination Read data.
[0026]
For example, when the split display format is left and right split, the display mode of the left image display area is a mode for displaying a captured image, and the display mode of the right image display area is a mode for displaying a diagnosis support image. Among the examinations held by the patient, the latest examination, and an image obtained by taking the difference between the latest examination and the examination immediately before the latest examination, that is, the time-difference image between the current examination and the previous examination are read.
[0027]
In step S204, the image processing unit 102 performs image processing on the image data read in step S203. Usually, by determining the divided display format, the size of each image display area, the monitor gamma, the lookup table to be displayed, the size of the display image, and the like can be acquired and determined.
[0028]
Then, image processing is performed on the image data read in step S203 according to these parameters. However, the parameters acquired and determined in step S204 are not limited to those described above.
[0029]
Next, in step S205, the image display unit 103 displays the image processed in step S204 on the monitor 109. The image displayed on the monitor 109 is usually interpreted by an interpreting doctor.
[0030]
Next, in step S206, the image reading means 101 checks whether or not there has been an instruction to change the display mode from the operator. This change instruction is performed based on an operator's operation using the image switching means 106.
[0031]
When there is an instruction to change the display mode in this way, image data to be displayed is determined according to the instruction. Therefore, the image data to be displayed determined in step S203 is read, the image processing is performed on the read image data in step 204, and the image subjected to the image processing in step 205 is processed. It is displayed on the monitor 109.
[0032]
For example, as shown in FIG. 3, the display mode change instruction is to display a button 303 for switching the display mode together with the images 301 and 302 in the process of step S205, and this button 303 is displayed by the operator. This is done by being pressed based on a predetermined operation.
[0033]
That is, reference numeral 303 in FIG. 3 represents a button for switching the display mode. However, the operation means for switching the display mode is not limited to buttons.
[0034]
Reference numeral 301 in FIG. 3 is a recent image of this patient, and in this example, is an image taken on March 27, 2002. Further, reference numeral 302 in FIG. 3 is an image one time before in the past, and in this example, is an image taken on September 9, 2002.
[0035]
Here, it is assumed that the display mode is switched from the mode for displaying a captured image to the mode for displaying a time-dependent difference image display as a diagnosis support image by clicking the button 303 with a mouse. Usually, a doctor tries to read what a past image or a diagnosis support image is relative to a recent image.
[0036]
Accordingly, the recent image 301 displayed on the screen on the monitor 109 is displayed as it is, and a time-difference image related to the recent image 301 is displayed beside the recent image 301.
[0037]
In this case (in the case of the example shown in FIG. 3), the left image display area is the latest image 301 and the right image display area is the previous image 302, so as shown in FIG. Those difference images 401 are displayed in the right image display area. As described above, FIG. 4 is a diagram illustrating an example of image display after the display mode is converted from the mode for displaying the captured image to the mode for displaying the diagnosis support image.
[0038]
By the way, in the present embodiment, a case is described in which image reading is sequentially performed and processing is performed. However, in an actual interpretation site, it takes time to interpret the image, and thus image prefetching (prefetching: pre-pre) It is preferable to perform (fetch).
[0039]
In the present embodiment, such prefetching can be performed, but the priority order of images to be prefetched needs to be different depending on the divided display format and the display mode.
[0040]
For example, FIG. 5 shows an example of the priority order for prefetching when the display mode is a mode for displaying all captured images.
In the example shown in FIG. 5, in the case of single-sheet display (one division), priority is given in the order of the first series, the second series, and the third series in the first examination (inspection 1). I have to.
[0041]
In the case of two-sheet display (two divisions), the first series in the first inspection (inspection 1), the first series in the second inspection (inspection 2), and the first series in the first inspection (inspection 1). Priorities are assigned in the order of the second series and the third series in the first inspection (inspection 1).
[0042]
In the case of four-sheet display (four divisions), the first series in the first inspection (inspection 1), the first series in the second inspection (inspection 2), and the third inspection (inspection 3). Priorities in the order of the first series, the first series in the fourth inspection (Inspection 4), the second series in the first inspection (Inspection 1), and the third series in the first inspection (Inspection 1) I try to put it on.
[0043]
FIG. 6 shows an example of the priority order for prefetching when the division format is left and right division.
As shown in FIG. 6, in the mode in which the photographed image is displayed on both the left half and the right half of the screen of the monitor 109, the photographed image in the first examination (inspection 1) and in the second examination. Captured image (inspection 2) Difference image between the captured image in the first inspection and the captured image in the second inspection (CAD inspection 1-inspection 2), the captured image in the third inspection (inspection 3), the fourth Photographed image in examination (inspection 4) Difference image between photographed image in second examination and photographed image in third examination (CAD examination 2-inspection 3) Photographed image in third examination and fourth examination Priorities are assigned in the order of the difference image (CAD inspection 3 to inspection 4) from the photographed image.
[0044]
In the mode in which the captured image is displayed on the left half of the screen of the monitor 109 and the diagnosis support image is displayed on the right half, the captured image in the first examination (inspection 1) and the imaging in the first examination. Difference image between the image and the captured image in the second inspection (CAD inspection 1-inspection 2), the captured image in the second inspection (inspection 2), the captured image in the third inspection (inspection 3), and the fourth inspection Photographic image in (inspection 4) difference image between photographic image in second inspection and photographic image in third inspection (CAD inspection 2-inspection 3), photographic image in third inspection and photographing in fourth inspection Priorities are assigned in the order of the difference image (CAD inspection 3-inspection 4).
[0045]
As described above, in the present embodiment, at least one image display area is set according to the divided display image format, and any one of the captured image 107 and the diagnosis support image (difference image) 108 is set in the set image display area. Since whether or not to display is set and the set image is displayed in the set image display area, the captured image 107 or the difference image 108 to be displayed can be displayed in an optimal form, and at the time of interpretation The difference image 108 can be referred to in the same screen as the screen that displays the captured image 107.
[0046]
In addition, since a plurality of image display areas are set and the captured image 107 and the diagnosis support image (difference image) 108 are displayed in the set plurality of image display areas, the lesion area of the original captured image 107 is displayed simultaneously. The difference image 108 can be explicitly shown. This makes it possible to quickly and surely grasp the progress and healing status of lesions in examinations that are spaced over time, as compared to the conventional method of comparing lesions in a doctor's head by comparing captured images. be able to.
[0047]
In the present embodiment, since the CAD image is used as the diagnosis support image, various forms of images can be applied and displayed as the diagnosis support image.
As a result, the image desired by the interpretation doctor can be displayed, and the interpretation doctor can freely refer to various images and derive the interpretation result.
[0048]
In addition, when an interpretation doctor interprets an image on a monitor or film, for example, the size or shape of a lesion may be unknowingly deformed due to the line of sight deviating from the point of interest. For this reason, an interpretation doctor usually dislikes that the line of sight moves greatly during interpretation of an image.
[0049]
For example, when images are displayed on two monitors and the left and right images displayed on the two monitors are to be compared, after the image displayed on one monitor is interpreted, the image is displayed on the other monitor. It is necessary to move the line of sight greatly. As a result, thinking may be interrupted once. Thus, when comparing two images, if the line of sight deviates from the point of interest, there is a possibility that the interpretation efficiency deteriorates.
[0050]
On the other hand, in the present embodiment, since the captured image and the diagnosis support image can be displayed (alternately) in the same image display area, the interpretation doctor displays the captured image and the diagnosis support image as follows: Reference can be made without greatly moving the line of sight. Thereby, the interpretation efficiency can be further improved. In particular, when comparing the size and shape of a lesioned part, an interpretation doctor can compare the size and shape of a lesioned part without interrupting thinking, and a very large effect is obtained.
[0051]
If the image is not prefetched, the image interpretation doctor issues an instruction to display the image that he / she wants to see, then starts loading the image, performs optimal image processing, and displays the image on the monitor. As a result, the display response is poor and the diagnostic efficiency is significantly reduced.
[0052]
On the other hand, in this embodiment, the priority order of images to be prefetched is determined (switching prefetching conditions) according to the divided display format and display mode. Will be loaded. Therefore, the interpretation doctor can display the desired image on the monitor 109 when he / she wants to see it, and does not hinder the thought of the interpretation doctor, thereby improving the efficiency of image diagnosis and improving the diagnostic accuracy.
[0053]
(Second Embodiment)
Next, a second embodiment of the present invention will be described in detail. In the present embodiment, the processing when there is an image switching instruction is different from that in the first embodiment described above. Therefore, the same parts as those in the first embodiment described above are denoted by the same reference numerals as those shown in FIGS.
[0054]
The function and operation of the medical image display apparatus according to this embodiment will be described with reference to FIG. FIG. 7 is a flowchart in the case where the diagnosis support image is also switched in conjunction with an instruction to switch the captured image from the operator.
[0055]
Steps S701 to S705 are the same as steps S201 to S205 of FIG. 2 described in the first embodiment, and thus the description thereof is omitted.
[0056]
In step S706, the image reading unit 101 checks whether there is an image switching instruction according to an instruction from the operator.
For example, in FIG. 8, when the divided image format is divided into left and right, the left image display area is a mode for displaying a captured image, and the right image display area is a diagnostic support image display mode. Show.
[0057]
Here, reference numeral 803 in FIG. 8 is an image switching button. However, the operation means for switching images is not limited to buttons.
When an image interpretation doctor clicks the image switching button 803 with a mouse, an image switching instruction is generated.
[0058]
In step S707, the image reading unit 101 checks whether the interlock prohibition flag is on or off.
[0059]
For example, in the example of FIG. 8, when the operator presses a button 804 for setting on / off of the interlock prohibition flag, the interlock prohibition flag is switched on / off. However, the method of switching on and off of the interlock prohibition flag is not limited to this.
[0060]
In the example of FIG. 8, the interlock prohibition flag is off.
Therefore, the diagnosis support image is also switched in conjunction with the image switching instruction issued by the operator in step S706.
On the other hand, if the interlock prohibition flag is on, even if an image switching instruction is issued in step S706, switching of the diagnostic support image is prohibited only by switching the captured image, and before the switching instruction is issued. Maintain the state.
[0061]
In the example of FIG. 8 showing a state before an image switching instruction is given, the latest examination (captured image) 801 of this patient is displayed in the left image display area. In this example, a photographed image 801 photographed in the examination on March 27, 2002 is displayed.
[0062]
In the right image display area, a temporal difference image is displayed as a diagnosis support image. In this example, a temporal difference image between the examination on March 27, 2002 and the examination on September 9, 2001 is displayed.
[0063]
These images are switched according to an instruction from the operator. Specifically, for example, switching is performed as in the example illustrated in FIG.
In the example of FIG. 9, the captured image 801 in the latest examination displayed in the left image display area is switched to the photographed image 901 photographed in the examination immediately before the latest examination. In this example, a photographed image photographed in the examination on September 9, 2001 is displayed.
[0064]
Further, since the image displayed in the right image display area in FIG. 9 is switched in conjunction with the image displayed in the left image display area, the captured image displayed in the left image display area, It is a temporal difference image 902 with a photographed image photographed one time before (two times before the latest examination). In this example, a temporal difference image between the examination on September 9, 2001 and the examination on September 25, 2000 is displayed.
[0065]
As described above, in the present embodiment, the photographed image 801 in the latest examination is displayed in the left image display area, and the temporal difference image between the photographed image 801 in the latest examination and the photographed image one time before the latest examination. When the photographed image 801 in the latest examination is switched to the photographed image 901 photographed in the examination immediately before the latest examination in a state where 802 is displayed in the right image display area, it is linked with the switching operation. The temporal difference image 902 between the photographed image one time before the latest examination and the photographed image two times before the latest examination is displayed in the right image display area.
That is, when switching the captured image, the diagnostic support image is switched in conjunction with the switching of the captured image, so that the captured image and the diagnostic support image can always be displayed as a pair. This makes it easier to understand the relationship with support images.
[0066]
For example, when there are a plurality of photographed images and temporal difference images (diagnosis support images), these multiple temporal difference images are all similar. It is very difficult to instantaneously (intuitively) determine which time-difference image is a difference between captured images.
[0067]
Furthermore, even if the first photographed image and the second photographed image that are spaced with time and the difference image thereof are simultaneously displayed or switched, for example, The captured image, the second captured image, the third captured image, the difference image between the first captured image and the second captured image, and the difference image between the second captured image and the third captured image And cannot be displayed, and it is difficult to grasp the correspondence between the captured image and the temporal difference image (diagnosis support image).
[0068]
On the other hand, if the temporal difference image (diagnosis support image) is switched in conjunction with the switching operation of the captured image as in the present embodiment, the captured image and the diagnosis support image can be displayed in pairs. Therefore, it is possible to instantaneously determine what the temporal difference image (diagnosis support image) is.
[0069]
The medical image display apparatus described in each of the above embodiments can be realized by using a computer system as shown in FIG.
FIG. 10 is a block diagram showing an example of the configuration of a computer system arranged in the medical image display apparatus.
[0070]
10, a computer system 50 includes a CPU 51, a ROM 52, a RAM 53, a keyboard controller (KBC) 55 of a keyboard (KB) 54, a CRT controller (CRTC) 57 of a CRT display (CRT) 56 as a display unit, and The disk controller (DKC) 60 of the hard disk (HD) 58 and the flexible disk (FD) 59 and the network interface controller (NIC) 62 for connection to the network 61 can communicate with each other via the system bus 63. Connected configuration.
[0071]
The CPU 51 comprehensively controls each component connected to the system bus 53 by executing software stored in the ROM 52 or the HD 58 or software supplied from the FD 29.
That is, the CPU 51 performs a control for realizing an operation described later by reading a processing program according to a predetermined processing sequence from the ROM 52, the HD 58, or the FD 59 and executing it.
[0072]
The RAM 53 functions as a main memory or work area for the CPU 51.
The KBC 55 controls an instruction input from the KB 54 or a pointing device (not shown).
[0073]
The CRTC 57 controls the display of the CRT 56.
The DKC 60 controls access to the HD 58 and the FD 59 that store a boot program, various applications, an editing file, a user file, a network management program, a predetermined processing program in the present embodiment, and the like.
The NIC 52 exchanges data bidirectionally with devices or systems on the network 61.
[0074]
(Other embodiments of the present invention)
In order to operate various devices to realize the functions of the above-described embodiments, program codes of software for realizing the functions of the above-described embodiments are provided to an apparatus or a computer in the system connected to the various devices. What is implemented by operating the various devices according to a program supplied and stored in a computer (CPU or MPU) of the system or apparatus is also included in the scope of the present invention.
[0075]
Further, in this case, the program code of the software itself realizes the functions of the above-described embodiment, and the program code itself and means for supplying the program code to the computer, for example, the program code is stored. The recorded medium constitutes the present invention. As a recording medium for storing the program code, for example, a flexible disk, a hard disk, an optical disk, a magneto-optical disk, a CD-ROM, a magnetic tape, a nonvolatile memory card, a ROM, or the like can be used.
[0076]
Further, by executing the program code supplied by the computer, not only the functions of the above-described embodiments are realized, but also the OS (operating system) or other application software in which the program code is running on the computer, etc. It goes without saying that the program code is also included in the embodiment of the present invention even when the functions of the above-described embodiment are realized in cooperation with the embodiment.
[0077]
Further, after the supplied program code is stored in the memory provided in the function expansion board of the computer or the function expansion unit connected to the computer, the CPU provided in the function expansion board or function expansion unit based on the instruction of the program code Needless to say, the present invention includes a case where the functions of the above-described embodiment are realized by performing part or all of the actual processing.
[0078]
Examples of embodiments of the present invention are listed below.
(Embodiment 1) A medical image display device that reads medical image data stored in a storage medium and displays the medical image data on a monitor,
Split display format setting means for setting a split display format for determining an image display area on the monitor;
Display mode setting means for setting either a mode for displaying a captured image or a mode for displaying a diagnosis support image in an image display area determined based on the split display format set by the split display format setting means; ,
An image reading unit for reading medical image data stored in the storage medium based on the divided display format set by the divided display format setting unit and the mode set by the display mode setting unit;
Image processing means for performing image processing for display on medical image data read by the image reading means;
Image display means for displaying an image based on the medical image data image-processed by the image processing means in an image display area determined based on the divided display format set by the divided display format setting means. A medical image display device.
[0079]
(Embodiment 2) It comprises image switching means for switching the image displayed by the image display means,
The medical image display apparatus according to claim 1, wherein the image reading unit reads medical image data in accordance with a switching process by the image switching unit.
[0080]
(Embodiment 3) The divided display format setting means sets a plurality of image display areas formed by dividing the display area of the monitor as the divided display format,
The display mode setting means sets either a mode for displaying a captured image or a mode for displaying a diagnosis support image for each of a plurality of image display areas set by the divided display format setting means. The medical image display apparatus according to Embodiment 1 or 2.
[0081]
(Embodiment 4) A mode in which the display format setting means is set to divide the image display area into two or more, and the display mode setting means displays the captured image in at least one image display area Is set, and the mode for displaying the diagnosis support image is set for at least one image display area, the image switching means is configured to display an image display area in which the captured image is displayed. When switching a captured image, the diagnostic support image in the image display area in which the diagnostic support image is displayed is switched in conjunction with a diagnostic support image that is temporally related to the switched captured image. The medical image display apparatus according to the third embodiment.
[0082]
(Embodiment 5) An interlock prohibition flag for prohibiting switching of each image display area displayed by the division format setting means is provided,
When the interlock prohibition flag is on, the diagnosis support image is prohibited from being switched in conjunction with the captured image when the image switching means is switched. 4. A medical image display device according to 4.
[0083]
(Embodiment 6) The medical image display apparatus according to any one of Embodiments 1 to 5, further comprising prefetch means for prefetching medical image data stored in the storage medium.
[0084]
(Embodiment 7) The prefetch means is stored in the storage medium based on the divided display format set by the divided display format setting means and the mode set by the display mode setting means. The medical image display apparatus according to claim 6, wherein an order of prefetching medical image data is determined, and the medical image data is prefetched in the determined order.
[0085]
(Embodiment 8) The medical diagnosis image according to any one of Embodiments 1 to 7, wherein the diagnosis support image is an image obtained by performing a difference process on a plurality of captured images captured at different timings. Image display device.
[0086]
(Embodiment 9) The display format setting unit is set to divide the image display area into two or more, and the display mode setting unit displays the diagnosis support image from the mode for displaying the captured image. When the mode is set to be changed, and the diagnostic support image is switched in conjunction with the captured image by the image switching unit, the image display unit is configured to capture the captured image as a target of the diagnostic support image. The medical image display apparatus according to any one of Embodiments 4 to 8, wherein the latest diagnosis support image relating to the image is displayed.
[0087]
(Embodiment 10) A medical image display device that displays at least one of a captured image and a diagnosis support image stored in a storage medium on a monitor screen,
Display area setting means for setting an image display area in the screen of the monitor;
Display image setting means for setting which of the captured image and the diagnosis support image is to be displayed in the image display area set by the display area setting means;
An image display unit that reads a captured image or a diagnosis support image set by the display image setting unit from the storage medium and displays the read image in the image display region set by the display region setting unit. Medical image display device.
[0088]
(Embodiment 11) Image switching means for switching the captured image or diagnosis support image displayed by the image display means to another image,
The medical image display apparatus according to claim 10, wherein the image display means reads out and displays a captured image or a diagnosis support image from the storage medium in accordance with a switching process by the image switching means.
[0089]
(Embodiment 12) When a plurality of image display areas are set by the display area setting means, the display image setting means displays the captured image in at least one of the plurality of image display areas, and the rest 12. The medical image display apparatus according to claim 10 or 11, wherein a setting is made to display a diagnostic support image that is related to the captured image to be displayed over time in at least one of the image display areas.
[0090]
(Embodiment 13) A medical image display method for reading medical image data stored in a storage medium and displaying it on a monitor,
A split display format setting step for setting a split display format for determining an image display area on the monitor;
A display mode setting step for setting either a mode for displaying a captured image or a mode for displaying a diagnosis support image in an image display area determined based on the split display format set by the split display format setting step; ,
An image reading step for reading medical image data stored in the storage medium based on the divided display format set in the divided display format setting step and the mode set in the display mode setting step;
An image processing step of performing image processing for display on the medical image data read by the image reading step;
An image display step of displaying an image based on the medical image data image-processed by the image processing step in an image display area determined based on the divided display format set by the divided display format setting step. A medical image display method as a feature.
[0091]
(Embodiment 14) The image switching step of switching the image displayed by the image display step is provided,
14. The medical image display method according to claim 13, wherein the image reading step reads medical image data according to the switching process in the image switching step.
[0092]
(Embodiment 15) In the divided display format setting step, a plurality of image display areas formed by dividing the display area of the monitor are set as the divided display format,
The display mode setting step sets either a mode for displaying a captured image or a mode for displaying a diagnosis support image for each of a plurality of image display areas set by the divided display format setting step. The medical image display method according to the embodiment 13 or 14.
[0093]
(Embodiment 16) A mode in which the image display area is set to be divided into two or more in the display format setting step, and the captured image is displayed in at least one image display area in the display mode setting step Is set, and the mode for displaying the diagnosis support image is set for at least one image display area, the image switching step includes the step of displaying an image display area in which the captured image is displayed. When switching a captured image, the diagnostic support image in the image display area in which the diagnostic support image is displayed is switched in conjunction with a diagnostic support image that is temporally related to the switched captured image. The medical image display method according to the fifteenth embodiment.
[0094]
(Embodiment 17) When an interlock prohibition flag for prohibiting switching of each image display area displayed in the division format setting step is on, the captured image is displayed in the image switching step. 17. The medical image display method according to claim 16, wherein the diagnosis support image is prohibited from switching in conjunction with switching.
[0095]
(Embodiment 18) The medical image display method according to any one of Embodiments 13 to 17, further comprising a prefetch step of prefetching medical image data stored in the storage medium.
[0096]
(Embodiment 19) The prefetch step is stored in the storage medium based on the divided display format set by the divided display format setting step and the mode set by the display mode setting step. 19. The medical image display method according to claim 18, wherein the order in which medical image data is prefetched is determined, and the medical image data is prefetched in the determined order.
[0097]
(Embodiment 20) The medical assistance according to any one of Embodiments 13 to 19, wherein the diagnosis support image is an image obtained by performing a difference process on a plurality of captured images captured at different timings. Image display method.
[0098]
(Embodiment 21) It is set that the image display area is divided into two or more by the display format setting step, and the diagnosis support image is displayed from the mode for displaying the captured image by the display mode setting step. If the diagnosis support image is switched in conjunction with the captured image in the image switching step, the image display step includes a captured image that is a target of the diagnosis support image. 21. The medical image display method according to any one of Embodiments 16 to 20, wherein the latest diagnosis support image related to the image is displayed.
[0099]
(Embodiment 22) A computer program for causing a computer to read medical image data stored in a storage medium and display it on a monitor,
A split display format setting step for setting a split display format for determining an image display area on the monitor;
A display mode setting step for setting either a mode for displaying a captured image or a mode for displaying a diagnosis support image in an image display area determined based on the split display format set by the split display format setting step; ,
An image reading step for reading medical image data stored in the storage medium based on the divided display format set in the divided display format setting step and the mode set in the display mode setting step;
An image processing step of performing image processing for display on the medical image data read by the image reading step;
Causing the computer to execute an image display step of displaying an image based on the medical image data image-processed by the image processing step in an image display area determined based on the divided display format set by the divided display format setting step. A computer program characterized by the above.
[0100]
(Embodiment 23) A computer-readable recording medium in which the computer program according to Embodiment 22 is recorded.
[0101]
【The invention's effect】
As described above, according to the present invention, the image display area on the monitor is set, and which of the captured image and the diagnosis support image is displayed in the set image display area is set. Since the image is displayed in the set image display area, the captured image or diagnosis support image to be displayed can be displayed in an optimal form, and the diagnosis support image can be displayed on the same screen as the captured image at the time of interpretation. Will be able to refer to within. In this way, since the diagnosis support image can be explicitly shown simultaneously with the original captured image, compared with the conventional method of grasping the lesion in the human head by comparing the captured image, It is possible to quickly and surely grasp the progress status and healing status of the lesioned part of the examination with intervals over time.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating an example of a configuration of a medical image display apparatus according to a first embodiment of this invention.
FIG. 2 is a flowchart illustrating the operation of the medical image display apparatus according to the first embodiment of this invention.
FIG. 3 is a diagram illustrating a display example before switching display modes according to the first exemplary embodiment of the present invention.
FIG. 4 is a diagram illustrating a display example after switching display modes according to the first exemplary embodiment of the present invention.
FIG. 5 is a diagram illustrating an example of a priority order for prefetching when a captured image is displayed according to the first embodiment of this invention.
FIG. 6 is a diagram illustrating an example of prefetching priorities in the case where two images are displayed in an image display area divided into left and right according to the first embodiment of this invention.
FIG. 7 is a flowchart illustrating the operation of the medical image display apparatus according to the second embodiment of this invention.
FIG. 8 is a diagram illustrating a display example before image switching according to the second exemplary embodiment of the present invention.
FIG. 9 is a diagram illustrating a display example after switching images according to the second exemplary embodiment of the present invention.
FIG. 10 is a block diagram illustrating an example of a configuration of a computer system provided in the medical image display apparatus according to the embodiment of this invention.
[Explanation of symbols]
101 Image reading means
102 Image processing means
103 Image display means
104 split display format setting means
105 Display mode setting means
106 Image switching means
107 Images taken
108 Diagnosis support image
109 monitor

Claims (8)

A medical image display device that reads medical image data stored in a storage medium and displays the medical image data on a monitor,
Split display format setting means for setting a split display format for determining an image display area on the monitor;
Display mode setting means for setting either a mode for displaying a captured image or a mode for displaying a diagnosis support image in an image display area determined based on the split display format set by the split display format setting means; ,
An image reading unit for reading medical image data stored in the storage medium based on the divided display format set by the divided display format setting unit and the mode set by the display mode setting unit;
Image processing means for performing image processing for display on the medical image data read by the image reading means;
Image display means for displaying an image based on the medical image data image-processed by the image processing means in an image display area determined based on the divided display format set by the divided display format setting means;
Image switching means for switching the image displayed by the image display means ;
Flag switching means for switching on and off of an interlock prohibition flag for prohibiting switching of each image display area displayed by the divided display format setting means ,
The division display format setting means is set to divide the image display area into two or more, and the display mode setting means sets a mode for displaying the captured image in at least one image display area. And when the mode for displaying the diagnosis support image is set for at least one image display area, the image switching means switches the captured image of the image display area in which the captured image is displayed. In this case, when the interlock prohibition flag is off, the diagnosis support image in the image display area where the diagnosis support image is displayed is linked to the diagnosis support image that is temporally related to the captured image after switching. When the interlock prohibition flag is on, the captured image in the image display area where the captured image is displayed is switched. Even example, without switching in conjunction diagnosis support image in the image display area in which the diagnosis assisting image is displayed,
The image reading means reads medical image data in accordance with the switching process by the image switching means,
The medical image display device, wherein the image processing means and the image display means perform processing using medical image data read in accordance with the switching processing. The divided display format setting means sets a plurality of image display areas formed by dividing the display area of the monitor as the divided display format,
The display mode setting means sets either a mode for displaying a captured image or a mode for displaying a diagnosis support image for each of a plurality of image display areas set by the divided display format setting means. The medical image display apparatus according to claim 1. Comprising prefetch means for prefetching medical image data stored in the storage medium,
The prefetch means prefetches medical image data stored in the storage medium based on the divided display format set by the divided display format setting means and the mode set by the display mode setting means. to order to determine the medical image display device according to claim 1 or 2, characterized in that pre-read the medical image data in the order determined as described above. The medical image display apparatus according to any one of claims 1 to 3 , wherein the diagnosis support image is an image obtained by performing a difference process on a plurality of captured images captured at different timings. The division display format setting means sets the image display area to be divided into two or more, and the display mode setting means changes the mode from the mode for displaying the captured image to the mode for displaying the diagnosis support image. When the image switching unit switches the diagnosis support image in conjunction with the captured image, the image display unit displays the latest diagnosis related to the captured image that is the target of the diagnosis support image. The medical image display device according to any one of claims 1 to 4 , wherein a support image is displayed. A medical image display method for reading medical image data stored in a storage medium and displaying it on a monitor,
A divided display format setting step for setting a divided display format for setting an image display area on the monitor;
The display mode setting means sets either a mode for displaying a captured image or a mode for displaying a diagnosis support image in an image display area determined based on the divided display format set in the divided display format setting step. Display mode setting step to be performed;
Image reading means for reading medical image data stored in the storage medium based on the divided display format set in the divided display format setting step and the mode set in the display mode setting step Steps,
Image processing means for performing image processing for display on the medical image data read by the image reading step;
An image display step in which the image display means displays an image based on the medical image data image-processed by the image processing step in an image display area determined based on the divided display format set by the divided display format setting step; ,
An image switching step for switching an image displayed in the image display step ;
A flag switching step for switching on and off of an interlock prohibition flag for prohibiting switching of each image display area displayed in the divided display format setting step ;
In the divided display format setting step, the image display area is set to be divided into two or more, and in the display mode setting step, a mode for displaying the captured image in at least one image display area is set. And when the mode for displaying the diagnosis support image is set for at least one image display area, the image switching means switches the captured image of the image display area in which the captured image is displayed. In this case, when the interlock prohibition flag is off, the diagnosis support image in the image display area where the diagnosis support image is displayed is linked to the diagnosis support image that is temporally related to the captured image after switching. When the interlock prohibition flag is on, the captured image in the image display area where the captured image is displayed is displayed. It is switched, without switching in conjunction diagnosis support image in the image display area in which the diagnosis assisting image is displayed,
The image reading means reads medical image data in accordance with the switching process by the image switching means,
The medical image display method, wherein the image processing means and the image display means perform processing using medical image data read in accordance with the switching processing. Computer
A medical image display device that reads medical image data stored in a storage medium and displays the medical image data on a monitor,
Split display format setting means for setting a split display format for determining an image display area on the monitor;
Display mode setting means for setting either a mode for displaying a captured image or a mode for displaying a diagnosis support image in an image display area determined based on the split display format set by the split display format setting means; ,
An image reading unit for reading medical image data stored in the storage medium based on the divided display format set by the divided display format setting unit and the mode set by the display mode setting unit;
Image processing means for performing image processing for display on the medical image data read by the image reading means;
Image display means for displaying an image based on the medical image data image-processed by the image processing means in an image display area determined based on the divided display format set by the divided display format setting means;
Image switching means for switching the image displayed by the image display means ;
Flag switching means for switching on and off of an interlock prohibition flag for prohibiting switching of each image display area displayed by the divided display format setting means ,
The division display format setting means is set to divide the image display area into two or more, and the display mode setting means sets a mode for displaying the captured image in at least one image display area. And when the mode for displaying the diagnosis support image is set for at least one image display area, the image switching means switches the captured image of the image display area in which the captured image is displayed. In this case, when the interlock prohibition flag is off, the diagnosis support image in the image display area where the diagnosis support image is displayed is linked to the diagnosis support image that is temporally related to the captured image after switching. When the interlock prohibition flag is on, the captured image in the image display area where the captured image is displayed is switched. Even example, without switching in conjunction diagnosis support image in the image display area in which the diagnosis assisting image is displayed,
The image reading means reads medical image data in accordance with the switching process by the image switching means,
A computer program for functioning as a medical image display device, wherein the image processing means and the image display means perform processing using medical image data read in accordance with the switching processing. Computer
A medical image display device that reads medical image data stored in a storage medium and displays the medical image data on a monitor,
Split display format setting means for setting a split display format for determining an image display area on the monitor;
Display mode setting means for setting either a mode for displaying a captured image or a mode for displaying a diagnosis support image in an image display area determined based on the split display format set by the split display format setting means; ,
An image reading unit for reading medical image data stored in the storage medium based on the divided display format set by the divided display format setting unit and the mode set by the display mode setting unit;
Image processing means for performing image processing for display on the medical image data read by the image reading means;
Image display means for displaying an image based on the medical image data image-processed by the image processing means in an image display area determined based on the divided display format set by the divided display format setting means;
Image switching means for switching the image displayed by the image display means ;
Flag switching means for switching on and off of an interlock prohibition flag for prohibiting switching of each image display area displayed by the divided display format setting means ,
The division display format setting means is set to divide the image display area into two or more, and the display mode setting means sets a mode for displaying the captured image in at least one image display area. And when the mode for displaying the diagnosis support image is set for at least one image display area, the image switching means switches the captured image of the image display area in which the captured image is displayed. In this case, when the interlock prohibition flag is off, the diagnosis support image in the image display area where the diagnosis support image is displayed is linked to the diagnosis support image that is temporally related to the captured image after switching. When the interlock prohibition flag is on, the captured image in the image display area where the captured image is displayed is switched. Even example, without switching in conjunction diagnosis support image in the image display area in which the diagnosis assisting image is displayed,
The image reading means reads medical image data in accordance with the switching process by the image switching means,
The image processing means and the image display means perform processing using medical image data read in accordance with the switching processing, and read the computer storing a computer program for functioning as a medical image display device Possible recording media.

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