JP2004173910A - Image display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve diagnostic efficiency and diagnostic accuracy by facilitating reading of a cross-sectional image including a detected abnormal shadow candidate thereby reducing a diagnostic time and overlooking of the abnormal shadow candidate when performing diagnosis while displaying the cross-sectional image based on three-dimensional medical image data expressing a subject. <P>SOLUTION: In the image display device, an abnormal shadow candidate detection means 10 detects the abnormal shadow candidate in a plurality of pieces of cross-sectional image data P1 to Pn constituting CT image data P, and a candidate position display means 21 displays information Si, Sj and Sk for specifying the cross-sectional image in which the abnormal shadow candidate is detected, to facilitate extraction and display of the cross-sectional image including the abnormal shadow candidate. It is possible to make control of displaying the cross-sectional image in which the abnormal shadow candidate is detected before the other images and to display the cross-sectional image for a longer period than the other images in stead of the candidate position display means 21. It is also possible to display the area of the abnormal shadow candidate in the cross-sectional image so that the area can be identified from other areas. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image display apparatus, and more particularly to an apparatus for displaying an image based on a result of detecting an abnormal shadow candidate from three-dimensional image data.
[0002]
[Prior art]
Cross-sectional images generated based on three-dimensional image data configured as an aggregate of a plurality of slice image data acquired by CT (Computerized Tomography) or MRI (Magnetic Resonance Imaging) A lesion is found from a three-dimensional display image, and the state of the lesion is observed to diagnose the presence or absence of disease and the progress. Since this three-dimensional image data has more information about the subject than conventional two-dimensional radiation image data, it is possible to perform highly accurate diagnosis.
[0003]
However, diagnosis by interpretation of a cross-sectional image generated based on three-dimensional image data has a problem that the amount of interpretation is enormous and the burden on the diagnostician is very large.
[0004]
In order to solve this problem, a computer tomography apparatus including means for determining the presence or absence of an abnormal shadow candidate region in a tomographic image of a subject by CT has been proposed (for example, Patent Document 1).
[0005]
On the other hand, abnormal shadow candidates in conventional two-dimensional radiographic images are detected objectively and automatically using a computer, regardless of the experience of the diagnostician and image interpretation ability, and the entire detected area is detected. There has been proposed an abnormal shadow candidate detection processing system (computer-aided image diagnostic apparatus) that is displayed separately from an image or highlighted in an entire image (for example, Patent Document 2).
[0006]
[Patent Document 1]
JP 7-88109 A
[0007]
[Patent Document 2]
JP-A-8-294479
[0008]
[Problems to be solved by the invention]
In the diagnosis by interpretation of the three-dimensional image data, when an abnormal shadow candidate region is found from a certain cross-sectional image, the diagnostician also interprets the cross-sectional image representing the state sliced at a position before and after the image, and the region Is determined to be a true abnormal shadow candidate.
[0009]
However, Patent Document 1 proposes to store only a cross-sectional image in which an abnormal shadow candidate is detected, and a diagnostician cannot confirm images before and after the cross-sectional image as it is.
[0010]
In addition, it is considered effective to apply the abnormal shadow candidate detection processing system described in Patent Document 2 to an arbitrary cross-sectional image based on three-dimensional image data by CT or the like, but the three-dimensional image data is a two-dimensional cross-sectional image. Since it is a collection of data, unless it is possible to easily identify from which cross-sectional image data the abnormal shadow candidate is detected, the abnormal shadow candidate in the cross-sectional image is displayed separately from the entire image, Simply highlighting the entire image does not provide the effect of inclining the attention of the diagnostician.
[0011]
The present invention has been made in view of the above circumstances, facilitates the interpretation of cross-sectional images including detected abnormal shadow candidates, reduces diagnostic time and overlooks abnormal shadow candidates, thereby improving diagnostic efficiency and An object of the present invention is to provide an image display device that improves diagnosis accuracy.
[0012]
[Means for Solving the Problems]
An image display device according to the present invention displays a cross-sectional image of a subject based on the three-dimensional medical image data of the subject, and includes an abnormal shadow candidate detection unit that detects an abnormal shadow candidate from the three-dimensional medical image data, The image processing apparatus includes an image interpretation assisting unit that assists in interpretation of a cross-sectional image including the abnormal shadow candidate detected by the abnormal shadow candidate detection unit.
[0013]
“Subject three-dimensional medical image data” refers to image data in which the position of each pixel is defined in a three-dimensional space. As a specific example, in addition to volume data, a collection of a plurality of cross-sectional image data representing a state in which a subject is sequentially sliced along a predetermined axis along a cross-section perpendicular to the axis, such as CT or MRI image data. Constructed image data is conceivable.
[0014]
As a specific example of the process performed by the abnormal shadow candidate detection means, a process of detecting a tumor shadow using an iris filter or a process of detecting a microcalcification shadow using a morphology filter can be considered (see Patent Document 2). Note that the process of detecting abnormal shadow candidates is not limited to the process performed based on the cross-sectional image data, but includes the process performed based on the volume data or the like. For example, it is considered effective to extend the processing by a conventional iris filter or morphology filter to a two-dimensional radiation image in three dimensions. In addition, since the position of the abnormal shadow candidate region in the three-dimensional space is specified by these processes, the image display device according to the present invention can select any cross-sectional image including the abnormal shadow candidate based on the specified position. Can be generated.
[0015]
The interpretation assisting means may be any means as long as it assists to facilitate the interpretation of the cross-sectional image including the abnormal shadow candidate detected by the abnormal shadow candidate detection means. Display information that identifies cross-sectional images including abnormal shadow candidates, and control display priority so that cross-sectional images including detected abnormal shadow candidates are displayed before other cross-sectional images Can be considered. Note that the cross-sectional image displayed for interpretation is not limited to that based on the cross-sectional image data used to detect abnormal shadow candidates, and is viewed from a different viewpoint than the cross-sectional image based on the cross-sectional image data used for detection. It may be a cross-sectional image by a cross section.
[0016]
The “information for identifying the cross-sectional image including the detected abnormal shadow candidate” is, as a specific example, a serial number for identifying the slice number at which the cross-sectional image from which the abnormal shadow candidate is detected was captured, or detection A position in a direction perpendicular to the cross section of the cross-sectional image including the abnormal shadow candidate that has been made can be considered.
[0017]
Further, in addition to the information for identifying the cross-sectional image including the detected abnormal shadow candidate, the image interpretation assisting means displays the displayed cross-sectional image including the detected abnormal shadow candidate and the undisplayed image including the detected abnormal shadow candidate. It is also possible to display information that makes the cross-sectional image distinguishable. As a specific example, information specifying a displayed cross-sectional image including a detected abnormal shadow candidate and information specifying a non-displayed cross-sectional image including a detected abnormal shadow candidate are displayed in different colors and symbols. It is possible to display.
[0018]
An image display device according to the present invention, based on three-dimensional medical image data of a subject, moves a cross section of a cross-sectional image to be displayed with a direction perpendicular to the cross-section as an axis, and a plurality of cross-sectional images continuous in the direction of the axis. If the display is automatically and sequentially displayed, the interpretation interpretation means controls the display time of the cross-sectional image so that the cross-sectional image including the detected abnormal shadow candidate is displayed for a longer time than the other cross-sectional images. In addition to the cross-sectional image including the detected abnormal shadow candidate, it is also conceivable to perform control so that a cross-sectional image in the vicinity thereof is displayed for a longer time than other cross-sectional images.
[0019]
The image display device according to the present invention further includes identification display means for displaying the candidate area in a state in which the candidate area can be distinguished from other areas in the cross-sectional image including the abnormal shadow candidate detected by the abnormal shadow candidate detection means. It may be. Here, “display candidate areas in a state where they can be distinguished from other areas” means that, as a specific example, the candidate areas are displayed separately from the entire image or highlighted in the entire image. (See Patent Document 2).
[0020]
【The invention's effect】
According to the image display device of the present invention, the interpretation assistance means assists the interpretation of the cross-sectional image including the abnormal shadow candidate detected by the abnormal shadow candidate detection means, so that the diagnosis time can be shortened and the abnormal shadow candidate is overlooked. Reduction is realized and diagnostic efficiency and diagnostic accuracy are improved.
[0021]
In a case where the image interpretation assisting means displays information for identifying a cross-sectional image including the detected abnormal shadow candidate, the cross section including the detected abnormal shadow candidate based on the displayed information. Since images can be easily extracted and displayed, cross-sectional images including abnormal shadow candidates can be easily read, reducing diagnosis time and reducing oversight of abnormal shadow candidates. Efficiency and diagnostic accuracy are improved.
[0022]
In addition to the information that the image interpretation assisting means identifies the cross-sectional image including the detected abnormal shadow candidate, the displayed cross-sectional image including the detected abnormal shadow candidate and the undisplayed cross-sectional image including the detected abnormal shadow candidate Is displayed, the diagnostician can easily determine whether or not the cross-sectional image including the detected abnormal shadow candidate has been read, so that the read cross-sectional image is read again. Therefore, the efficiency of diagnosis is improved.
[0023]
When the image interpretation assisting unit controls the display priority, it is possible to display a cross-sectional image including the detected abnormal shadow candidate before other cross-sectional images. Interpretation of cross-sectional images including can be facilitated, the diagnosis time can be shortened and the oversight of abnormal shadow candidates can be reduced, and the diagnosis efficiency and accuracy can be improved.
[0024]
Based on the 3D medical image data of the subject, the image display device automatically moves a cross section of the cross section image to be displayed around the direction perpendicular to the cross section, and automatically generates a plurality of continuous cross section images in the direction of the axis. In the case where the images are sequentially displayed and the interpretation interpretation unit controls the display time of the cross-sectional image, the cross-sectional image including the detected abnormal shadow candidate may be displayed for a longer time than the other cross-sectional images. As a result, it is possible to easily interpret a cross-sectional image including an abnormal shadow candidate, shortening the diagnosis time and reducing oversight of the abnormal shadow candidate, and improving diagnosis efficiency and accuracy.
[0025]
Further, when the interpretation interpretation means also controls the display time of the cross-sectional image near the cross-sectional image including the detected abnormal shadow candidate, the cross-sectional image near the cross-sectional image is displayed for a longer time than the other cross-sectional images. This makes it possible to observe the state around the abnormal shadow candidate more carefully, improving the diagnostic accuracy.
[0026]
When the candidate area is displayed in a state that can be distinguished from other areas in the cross-sectional image including the abnormal shadow candidate detected by the abnormal shadow candidate detecting means by further including the identification display means, the image interpretation assistance Since it is easy to distinguish candidate areas detected by the abnormal shadow candidate detection means from other areas in the cross-sectional image assisted in interpretation by the means, only extraction and display of cross-sectional images including abnormal shadow candidates In addition, it is easy to observe the abnormal shadow candidate region in the cross-sectional image, and the diagnostic efficiency is improved.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0028]
The image display device X according to the first embodiment of the present invention has a function of displaying information for specifying a cross-sectional image in which an abnormal shadow candidate is detected.
[0029]
FIG. 1 is an external view of the apparatus X, and FIG. 2 is a block diagram showing the configuration of the apparatus X.
[0030]
As shown in FIG. 1, the apparatus X includes a main body 1, a display 2 that displays a user interface such as an image, a menu, and a slide lever, and a keyboard 3 and a mouse that perform operations such as menus displayed on the display 2. 4 is provided. The main body 1 stores a CPU that performs operations such as input / output control and program execution necessary for image display, a main storage device that stores data and instructions directly used by the CPU, CT image data, and the like. Auxiliary storage devices such as hard disks, input / output interfaces that mediate exchanges between the main storage device and auxiliary storage devices and input / output devices, and image data stored in other devices are accessed via the network. Network interface device and a power supply device.
[0031]
In FIG. 2, the apparatus X displays a cross-sectional image of a subject based on the CT image data P of the subject, and abnormally receives a plurality of cross-sectional image data P1 to Pn constituting the CT image data P as input data. An abnormal shadow candidate detection unit 10 that detects a shadow candidate, and a position that identifies a cross-sectional image in which the abnormal shadow candidate is detected by the abnormal shadow candidate detection unit 10 based on detection results R1 to Rn by the abnormal shadow candidate detection unit 10 It comprises candidate position display means 21 for displaying information Si, Sj, Sk. The candidate position display means 21 is a specific example of the interpretation assistance means 20 that assists interpretation of a cross-sectional image in which an abnormal shadow candidate is detected by the abnormal shadow candidate detection means 10. Note that FIG. 2 illustrates an example in which three abnormal shadow candidates are detected, and therefore, there are three pieces of positional information for specifying a cross-sectional image from which the abnormal shadow candidates are detected: Si, Sj, and Sk. However, the apparatus X is not limited to the case where the number of detected abnormal shadow candidates is three.
[0032]
FIG. 3 shows the configuration of the screen displayed by the apparatus X. The display screen 90 is displayed with a title bar 91 that displays the title of the screen, a menu bar 92 that displays a menu for performing operations, settings, and the like related to image display, and a cross-sectional image display area 93 that displays a cross-sectional image. A slide lever 94 having a lever portion 94a for performing an operation for moving the position, a scroll button 95a for displaying the previous screen, and a next screen display are shown. A scroll button 95b to perform, a scroll button 96a to display the previous screen, a scroll button 96b to display the next screen, and a pointer 97 that indicates the position on the screen by operating the mouse 4 (FIG. 1). Has been.
[0033]
Hereinafter, a flow of processing realized by the apparatus X and an example of a displayed screen will be described.
[0034]
First, the abnormal shadow candidate detection means 10 reads CT image data P stored in the auxiliary storage device of the main body 1 (FIG. 1) of the apparatus X. CT image data P stored in another device may be read via a network such as a LAN (Local Area Network) and a network interface device of the main unit 1 (FIG. 1), or an external storage such as a CD-ROM. It may be read from the medium.
[0035]
The abnormal shadow candidate detection means 10 performs an abnormal shadow candidate detection process on each of the cross-sectional image data P1 to Pn constituting the read CT image data P by a predetermined method, and outputs the result data R1 to Rn. The predetermined method may be an abnormal shadow candidate detection process using an iris filter, a morphology filter, or the like. In the case of iris filter processing, the detection result data R1 to Rn are not only the output value of the iris filter (see Patent Document 2), but also the circularity representing the feature of the shape of the detected abnormal shadow candidate region (Japanese Patent Laid-Open No. 2002-2002) 109510), dispersion values representing the characteristics of the density histogram inside the abnormal shadow candidate area, contrast, angular moment, etc. (see JP-A-9-167238, JP-A-2002-109510), abnormal shadow candidate area Feature values such as variance, bias, correlation value, moment, entropy, etc. (see Japanese Patent Laid-Open Nos. 9-167238 and 2002-109510) representing marginal features, and Mahalanobis calculated from these feature values Distance and the like (see JP-A-9-167238 and JP-A-2002-109510), various secondary indicators It can be considered. The same applies to the morphological filter processing, and not only the output value of the morphological filter (see Patent Document 2), but also secondary index values such as calcification density (see JP 2002-133396 A) can be considered. The detection result data R1 to Rn are the results of comparing and judging these output values and secondary index values with a predetermined threshold value, that is, whether the region suspected of being an abnormal shadow is a true abnormal shadow candidate. May be the result of the determination.
[0036]
The candidate position display means 21 reads Rn from the detection result data R1, and for those in which an abnormal shadow candidate is detected, position information Si, Sj, Display Sk on the screen. The detection result data R1 to Rn from the abnormal shadow candidate detection means 10 to the candidate position display means 21 may be transferred via the main storage device in the main body 1 (FIG. 1) or the auxiliary storage device. FIG. 4 shows a state in which the symbol “*” is displayed on the side of the slide lever 94 corresponding to the position information Si, Sj, Sk in the direction perpendicular to the cross section of the cross section image in which the abnormal shadow candidate is detected. It is an example of a screen.
[0037]
Here, the diagnostician operates the mouse 4 (FIG. 1) to move the pointer 97, and drags the lever portion 94a of the slide lever 94 to move the lever portion 94a to the position of “*”. Then, a cross-sectional image specified by the position is displayed.
[0038]
As described above, according to the image display apparatus X according to the first embodiment of the present invention, the abnormal shadow candidates detected by the abnormal shadow candidate detection unit 10 are detected by the candidate position display unit 21 which is a specific example of the interpretation assistance unit 20. Based on the information specifying the cross-sectional image to be included, the diagnostician can extract and display the cross-sectional image in which the abnormal shadow candidate is detected, so that it is easy to interpret the cross-sectional image including the detected abnormal shadow candidate As a result, the diagnosis time can be shortened and the oversight of abnormal shadow candidates can be reduced, thereby improving diagnosis efficiency and accuracy.
[0039]
The apparatus X selects selection means for selecting the position information Si desired by the user from the position information Si, Sj, Sk displayed by the candidate position display means 21 and displaying the cross-sectional image specified by the position information Si. Further, it may be provided.
[0040]
In this case, in FIG. 4, when the diagnostician selects the desired position information Si by the selection means, a cross-sectional image specified by the selected position Si is displayed. That is, the “*” mark on the side of the slide lever 94 can be selected, and the diagnostician operates the mouse 4 (FIG. 1) to move the pointer 97 and click one of the “*” marks. As shown in FIG. 5, the cross-sectional image corresponding to the position is displayed in the cross-sectional image display area 93.
[0041]
Further, as shown in FIG. 5, among the cross-sectional images in which abnormal shadow candidates are detected by the abnormal shadow candidate detection unit 10, the symbols displayed on the side of the slide lever 94 are “*” for those already displayed. From “#” to “#”, it becomes possible to identify whether the cross-sectional image including the detected abnormal shadow candidate is displayed or not displayed. Such control is performed by, for example, defining a flag for identifying whether or not the position information Si, Sj, Sk is displayed in the candidate position display means 21, and the main memory device or auxiliary memory in the main body 1 (FIG. 1). This is realized by holding it in a storage device.
[0042]
When the apparatus X further includes a selection unit in this way, it is possible to accurately and easily extract and display a cross-sectional image in which an abnormal shadow candidate is detected, so that the detected abnormal shadow candidate is included. Interpretation of cross-sectional images can be performed more easily, reducing diagnosis time and reducing oversight of abnormal shadow candidates, and improving diagnosis efficiency and accuracy.
[0043]
Further, in addition to the information for specifying the cross-sectional image in which the abnormal shadow candidate is detected, the candidate position display means 21, the cross-sectional image in which the displayed abnormal shadow candidate is detected and the cross-section in which the undisplayed abnormal shadow candidate is detected When displaying information that makes an image distinguishable, it is possible for a diagnostician to easily determine whether or not a cross-sectional image including a detected abnormal shadow candidate has been interpreted. There is no waste of re-interpreting images, and diagnostic efficiency is improved.
[0044]
In the above description of the apparatus X, the position information in the direction perpendicular to the cross section of the cross-sectional image corresponding to the detection result data is displayed as information for specifying the cross-sectional image in which the abnormal shadow candidate is detected. The information specifying the cross-sectional image from which the shadow candidate is detected is not limited to this, and is, for example, a serial number for identifying the slice number at which the cross-sectional image from which the abnormal shadow candidate was detected was taken. Also good. FIG. 6 shows the serial number displayed in the cross-sectional image specifying information display area 98 below the cross-sectional image display area 93. The diagnostician operates the mouse 4 (FIG. 1), moves the pointer 97, selects a desired serial number from the serial numbers displayed in the cross-sectional image specifying information display area 98, and clicks to select the selected serial number. The cross-sectional image specified by can be displayed.
[0045]
The image display device Y according to the second embodiment of the present invention has a function of displaying a cross-sectional image in which an abnormal shadow candidate is detected before other cross-sectional images.
[0046]
The appearance and the screen configuration are the same as those of the apparatus X (see FIGS. 1 and 3 respectively).
[0047]
FIG. 7 is a block diagram showing a configuration of the apparatus Y. As shown in the figure, the apparatus Y displays a cross-sectional image of a subject based on the CT image data P of the subject, and inputs a plurality of cross-sectional image data P1 to Pn constituting the CT image data P as input data. Abnormal shadow candidate detection means 10 for detecting an abnormal shadow candidate, and a cross-sectional image in which the abnormal shadow candidate is detected based on detection results R1 to Rn by the abnormal shadow candidate detection means 10 before the other cross-sectional images. Display priority order control means 22 for controlling the display priority order so as to be displayed. The display priority order control unit 22 is a specific example of the interpretation assistance unit 20 that assists in interpretation of a cross-sectional image in which an abnormal shadow candidate is detected by the abnormal shadow candidate detection unit 10.
[0048]
Hereinafter, the flow of processing realized by the apparatus Y will be described focusing on differences from the apparatus X.
[0049]
Similar to the apparatus X, the abnormal shadow candidate detection means 10 reads the CT image data P and performs abnormal shadow candidate detection processing on each of the cross-sectional image data P1 to Pn constituting the CT image data P by a predetermined method. The result data R1 to Rn are output.
[0050]
The display priority order control means 22 reads the detection result data R1 to Rn and displays the cross-sectional image corresponding to the detection result data before the other cross-sectional images for those in which abnormal shadow candidates are detected. The display order is determined and the display order data Q is output.
[0051]
Here, in the display order data Q, for example, abnormal shadow candidates are detected from cross-sectional images of the fifth (hereinafter # 5), 37th (hereinafter # 37), and 38th (hereinafter # 38) slices at the time of photographing. In this case, it may include only information for specifying a cross-sectional image in which an abnormal shadow candidate is detected, such as “# 5, # 37, # 38”, or “# 5, # 37, # 38, “# 1, # 2, # 3...” May indicate the display order of all cross-sectional images to be displayed.
[0052]
The apparatus Y displays the cross-sectional image in which the abnormal shadow candidate is detected based on the display order data Q before the other cross-sectional images. When abnormal shadow candidates are detected from a plurality of cross-sectional images, the display of the cross-sectional images is manually switched by the diagnostician operating the mouse 4 (FIG. 1) and clicking the scroll buttons 95a and 95b. The apparatus Y may move a plurality of cross sections continuous in the direction of the axis while moving the cross section of the cross sectional image to be displayed based on the CT image data P about the direction perpendicular to the cross section. If an automatic scroll display function for automatically displaying images sequentially is provided, the image may be automatically switched at regular time intervals.
[0053]
As described above, according to the image display apparatus Y according to the second embodiment of the present invention, the display priority order control unit 22 which is a specific example of the image interpretation assisting unit 20 uses other cross-sectional images from which abnormal shadow candidates have been detected. Since it is possible to display before the cross-sectional image, it becomes easy to interpret cross-sectional images including abnormal shadow candidates, shortening diagnosis time and reducing oversight of abnormal shadow candidates, and diagnostic efficiency And diagnostic accuracy is improved.
[0054]
The image display device Z according to the third embodiment of the present invention displays a cross-sectional image in which an abnormal shadow candidate is detected or a cross-sectional image in the vicinity thereof when another cross-sectional image is displayed when the cross-sectional image is displayed by the automatic scroll display function. It has a function of displaying for a longer time.
[0055]
The appearance and the screen configuration are the same as those of the apparatus X (see FIGS. 1 and 3 respectively).
[0056]
FIG. 8 is a block diagram showing the configuration of the apparatus Z. As shown in the figure, the apparatus Z displays a cross-sectional image of a subject based on the CT image data P of the subject, and inputs a plurality of cross-sectional image data P1 to Pn constituting the CT image data P as input data. The abnormal shadow candidate detection means 10 for detecting an abnormal shadow candidate and the cross-sectional image in which the abnormal shadow candidate is detected based on the detection results R1 to Rn by the abnormal shadow candidate detection means 10 are longer than the other cross-sectional images. The display time control means 23 controls to display the time, and the setting file 24 stores information for display time control. The display time control means 23 and the setting file 24 are specific examples of the interpretation assistance means 20 that assists in interpretation of a cross-sectional image in which an abnormal shadow candidate is detected by the abnormal shadow candidate detection means 10.
[0057]
In the setting file 24, for example, in automatic scroll display, the display time of a cross-sectional image in which an abnormal shadow candidate is detected, the display time of other cross-sectional images, and the display of cross-sectional images in the vicinity of the cross-sectional image in which an abnormal shadow candidate is detected Time and neighborhood range can be set. Alternatively, the setting information may be directly given to the display time control means 23 without storing these settings in the setting file. For example, when the apparatus Z is activated, a setting screen may be displayed, and the input value may be stored in the main storage device of the main body 1 (FIG. 1) using the keyboard 3 (FIG. 1) or the like.
[0058]
Hereinafter, the flow of processing realized by the apparatus Z will be described focusing on differences from the apparatus X.
[0059]
Similar to the apparatus X, the abnormal shadow candidate detection means 10 reads the CT image data P and performs abnormal shadow candidate detection processing on each of the cross-sectional image data P1 to Pn constituting the CT image data P by a predetermined method. The result data R1 to Rn are output.
[0060]
The display time control means 23 reads the detection result data R1 to Rn before the cross-sectional image is automatically scrolled and displayed, whether or not the abnormal shadow candidate is included in the cross-sectional image corresponding to each detection result data, and It is determined whether the cross-sectional image corresponds to the vicinity of the cross-sectional image including the abnormal shadow candidate, and the display time of each cross-sectional image is determined based on the setting of the setting file 24. Then, during the automatic scroll display of the cross-sectional image, the switching of the display of the cross-sectional image is controlled with the determined display time.
[0061]
For example, in the setting file 24, “the display time of the cross-sectional image in which the abnormal shadow candidate is detected = 30 seconds, the display time of the other cross-sectional images = 5 seconds, and the cross-sectional image in the vicinity of the cross-sectional image in which the abnormal shadow candidate is detected is displayed. Display time = 30 seconds, neighborhood range = two images before and after ”, and when an abnormal shadow candidate is extracted from the cross-sectional images of the fifth, 37th, and 38th slices at the time of shooting, automatic scroll display Is displayed sequentially from the cross-sectional image of the first slice, the display time is 30 seconds for the cross-sectional image from the third to the seventh, 35th to 40th slice, 5 seconds for the other cross-sectional image Switch to cross-sectional image.
[0062]
If the display time of the cross-sectional image near the cross-sectional image where the abnormal shadow candidate is detected is the same as the display time of the cross-sectional image where the abnormal shadow candidate is not detected, all detections are performed before the automatic scroll display. It is not necessary to read the result data R1 to Rn, and it is also possible to control the switching of the display of the cross-sectional images while sequentially reading the detection result data corresponding to the cross-sectional images in the display order of the cross-sectional images and sequentially determining the display time. .
[0063]
As described above, according to the image display device Z according to the third embodiment of the present invention, the cross-sectional image in which the abnormal shadow candidate is detected by the display time control unit 23 and the setting file 24 which are specific examples of the image interpretation assisting unit 20. Can be displayed for a longer time than other cross-sectional images, making it easier to read cross-sectional images containing abnormal shadow candidates, reducing diagnostic time and reducing oversight of abnormal shadow candidates. In addition, diagnostic efficiency and diagnostic accuracy are improved. Further, when the display time control means 23 controls the display time of the cross-sectional image near the cross-sectional image including the abnormal shadow candidate based on the setting file 24, the cross-sectional image in the vicinity of the cross-sectional image is also another cross-sectional image. Since the display can be performed for a longer time, the diagnostic accuracy is improved by more carefully observing the state around the abnormal shadow candidate.
[0064]
In the description of the above three embodiments, the function of facilitating the extraction and display of the interpretation of the cross-sectional image from which the abnormal shadow candidate is detected has been described. However, the abnormal shadow candidate is detected by the abnormal shadow candidate detecting means 10. An image display device that further includes identification display means (not shown) for displaying the candidate region in a state where it can be distinguished from other regions in the cross-sectional image is also conceivable.
[0065]
When the identification display means reads the detection result data R1 to Rn and displays the cross-sectional image including the abnormal shadow candidate detected by the abnormal shadow candidate detection means 10, the abnormal shadow candidate in the cross-sectional image as shown in FIG. The area is surrounded by a rectangular frame, displayed separately from the entire image, or the candidate area is highlighted in the entire image (see Patent Document 2).
[0066]
As a result, the candidate area detected by the abnormal shadow candidate detecting means 10 in the cross-sectional image assisted by the interpretation interpretation means 20 can be easily distinguished from other areas. Not only the interpretation of the cross-sectional image but also the observation of the abnormal shadow candidate region in the cross-sectional image is facilitated, and the diagnostic efficiency is improved.
[0067]
Further, since the position of the abnormal shadow candidate region in the three-dimensional space is specified by the processing of the abnormal shadow candidate detecting means 10, the cross-sectional image displayed with assistance by the interpretation assisting means 20 is the abnormal shadow candidate detecting means 10. It is not restricted to the cross-sectional image based on the cross-sectional image data used for the process. That is, even if the cross-sectional image is a cross-sectional image viewed from a different viewpoint from the cross-section of this cross-sectional image, MPR (Multi Planar Reconstruction) based on the position detected and specified by the abnormal shadow candidate detection means 10 Therefore, the interpretation assisting means 20 can assist in interpretation of any cross-sectional image including abnormal shadow candidates.
[Brief description of the drawings]
FIG. 1 is a diagram showing an external appearance of an image display device X, Y, Z according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of an image display device X according to the first embodiment of the present invention.
FIG. 3 is a diagram showing a screen configuration of the image display devices X, Y, and Z according to the embodiment of the present invention.
FIG. 4 is an example of a screen on which the position of a cross-sectional image including a detected abnormal shadow candidate is displayed in the image display device X according to the first embodiment of the present invention.
FIG. 5 is an example of a screen displaying a cross-sectional image including a detected abnormal shadow candidate in the image display device X according to the first embodiment of the present invention.
FIG. 6 is an example of a screen on which a serial number of a cross-sectional image including a detected abnormal shadow candidate is displayed in the image display device X according to the first embodiment of the present invention.
FIG. 7 is a block diagram showing a configuration of an image display device Y according to a second embodiment of the present invention.
FIG. 8 is a block diagram showing a configuration of an image display device Z according to a third embodiment of the present invention.
FIG. 9 shows an example of a screen that surrounds and displays an abnormal shadow candidate region in a cross-sectional image in the image display device according to the embodiment of the present invention.
[Explanation of symbols]
1 body
2 display
3 Keyboard
4 Mouse
10 Abnormal shadow candidate detection means
20 Interpretation aids
21 Candidate position display means
22 Display priority control means
23 Display time control means
24 Setting file
90 Display screen
91 Title bar
92 Menu bar
93 Sectional image display area
94 Slide lever
94a Lever part
95a Scroll button (previous screen)
95b Scroll button (next screen)
96a Scroll button (previous screen)
96b Scroll button (screen after screen)
97 Pointer
98 Sectional image specific information display area
PCT image data
P1 Cross-sectional image data from the first slice
P2 Cross-sectional image data from the second slice
Pn Cross-sectional image data by the nth slice
Abnormal shadow candidate detection result data for R1 P1
Abnormal shadow candidate detection result data for R2 P2
Abnormal shadow candidate detection result data for Rn Pn
Q Display order data
Information for identifying the i-th cross-sectional image including the detected abnormal shadow candidate
Sj Information for specifying the j-th cross-sectional image including the detected abnormal shadow candidate
Sk Information for specifying the k-th cross-sectional image including the detected abnormal shadow candidate
X Image display apparatus according to the first embodiment of the present invention
Y Image display apparatus according to the second embodiment of the present invention
Z Image display apparatus according to the third embodiment of the present invention

Claims (8)

In an image display device for displaying a cross-sectional image of the subject based on the three-dimensional medical image data of the subject,
An abnormal shadow candidate detecting means for detecting an abnormal shadow candidate from the three-dimensional medical image data;
An image display apparatus comprising: an image interpretation assisting unit that assists in interpretation of a cross-sectional image including an abnormal shadow candidate detected by the abnormal shadow candidate detection unit. The image display apparatus according to claim 1, wherein the image interpretation assisting unit displays information for specifying a cross-sectional image including the detected abnormal shadow candidate. The image display apparatus according to claim 2, wherein the information specifying the cross-sectional image including the detected abnormal shadow candidate is information indicating a position of the cross-sectional image in a direction perpendicular to the cross-section. In addition to the information for specifying the cross-sectional image including the detected abnormal shadow candidate, the image interpretation assisting means includes the displayed cross-sectional image including the detected abnormal shadow candidate and the undetected detected abnormal shadow candidate. The image display device according to claim 2, wherein the image display device displays information that makes it possible to identify a cross-sectional image including a cross-sectional image. 2. The display interpretation unit is configured to control display priority so that a cross-sectional image including the detected abnormal shadow candidate is displayed before other cross-sectional images. Image display device. Based on the three-dimensional medical image data of the subject, the image display device automatically moves a plurality of continuous cross-sectional images in the direction of the axis while moving the cross-section of the cross-sectional image to be displayed around a direction perpendicular to the cross-section. Display sequentially,
2. The image interpretation assisting unit controls the display time of a cross-sectional image so that a cross-sectional image including the detected abnormal shadow candidate is displayed for a longer time than other cross-sectional images. The image display device described. In addition to the cross-sectional image including the detected abnormal shadow candidate, the cross-sectional image display time is controlled so that a cross-sectional image near the cross-sectional image is displayed for a longer time than the other cross-sectional images. The image display device according to claim 6. From the first aspect, further comprising: an identification display unit configured to display the candidate region in a state in which the candidate region can be distinguished from other regions in the cross-sectional image including the abnormal shadow candidate detected by the abnormal shadow candidate detection unit. 8. The image display device according to any one of items 7.

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