JPH08215192A - Image diagnosis device - Google Patents

Abstract

PURPOSE: To enable the cross section of a testee to be arbitrarily indicated by providing a means which can describe an oblique line normal to a panoramic curve through a specified point, and also providing a means which forms the image of an oblique cross section normal to a panoramic cross section including a oblique line. CONSTITUTION: When the coordinates of a plurality of points are inputted into a fault image 20 by an inputting means 6 to designate a panoramic curve 21, the panoramic curve 21 is described, and a image processing means 4 forms a panoramic cross section 22 which is normal to the fault image 20, and is located along a curved surface including the panoramic curve 21, by using continuous slice data read in an image memory 3. Next, when the position of an oblique line 24 is designated over the panoramic curve 21, the oblique line 24 is described, and the image processing means 4 forms the image of an oblique cross section 23 which is normal to the panoramic cross section 22, and is located along the oblique line 24, by using the continuous slice data read in the image memory 3, so that the aforesaid image is indicated at the upper left of a display means 5.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image diagnostic apparatus, and more particularly, to a region (hereinafter referred to as "interest") of a subject to be examined in detail, from a large number of slice images obtained by an acquisition apparatus such as an X-ray CT apparatus or an MRI apparatus. The present invention relates to an image diagnostic apparatus for displaying an oblique cross-section (also called an arbitrary cross section or an inclined cross section) image of a region.

[0002]

2. Description of the Related Art A diagnostic apparatus such as an X-ray CT apparatus or an MRI apparatus usually collects data by slightly shifting it in the body axis direction of a subject, and collects a large number of data parallel to an axial plane perpendicular to the body axis direction. To reconstruct the continuous slice image of. Then, the cross-sectional images of the axial surface, the sagittal surface, and the coronal surface are obtained by interpolation and cross-section conversion using a large number of continuous slice images as three-dimensional voxel data.

[0003]

However, unlike the cross section perpendicular to the body axis direction such as the axial surface, the sagittal surface and the coronal surface or the cross section parallel to the body axis direction, the oblique cross section having an arbitrary inclination angle is used. Even if it is desired to examine the subject in more detail, the conventional image diagnostic apparatus has a problem in that the cross section cannot be arbitrarily displayed.

In particular, in the medical examination in dentistry, there is no image diagnostic apparatus capable of displaying such a cross section, although the cross section display of the teeth in the direction perpendicular to the dentition is an effective diagnostic means. There was a problem.

In view of the above problems, an object of the present invention is to provide an image diagnostic apparatus capable of arbitrarily displaying a cross section of a subject.

[0006]

To achieve the above object, the present invention has the following constitution. That is, the invention according to claim 1 is an image diagnostic apparatus including a display device and an input device for inputting coordinates on a display screen of the display device,
In the tomographic image displayed on the display screen of the display device, a panoramic curve drawing unit that connects a plurality of points designated by the input device to draw a panoramic curve, and is perpendicular to the cross section indicated by the tomographic image, and A panoramic section image forming means for forming an image of a panoramic section which is a curved surface including a panoramic curve, a designating means for designating an arbitrary point on the panoramic curve by the input device, and the panoramic curve passing through the designated point. A first oblique line drawing means for drawing an oblique line perpendicular to the first oblique line, and a first oblique cross section image forming means for forming an image of an oblique cross section including the oblique line and perpendicular to the panoramic cross section. An image diagnostic apparatus characterized by being provided.

According to a second aspect of the present invention, in an image diagnostic apparatus including a display device and an input device for inputting coordinates on the display screen of the display device, a tomographic image displayed on the display screen of the display device. A panoramic curve drawing means for drawing a panoramic curve by connecting a plurality of points designated by an input device, and an image of a panoramic cross section that is a curved surface that is perpendicular to the cross section indicated by the tomographic image and that includes the panoramic curve. A panoramic cross-section image forming means to be created, a parameter designating means for designating an interval and a length of an oblique line which is a condition parameter for designating an oblique cross section, and a plurality of points at equal intervals on the panoramic curve at the designated intervals. Coordinate determining means for determining the coordinates of each of the plurality of points, and each of the plurality of points for which the coordinates have been determined is passed through one by one, and is perpendicular to the panoramic curve and specified. A second of Lee Klein drawing means for drawing a plurality of of Lee Klein length is, second to form an image of a plurality of oblique cross-section perpendicular to the of Lee Klein hints one each the panoramic section
And an oblique cross-section image forming means.

According to a third aspect of the present invention, in the invention according to the first or second aspect, the panoramic sectional image is displayed and the oblique sectional image showing the relationship with the panoramic sectional image is displayed. The image diagnostic apparatus further comprises display control means for displaying a multi-window on the display device.

According to a fourth aspect of the present invention, in the invention according to any one of the first to third aspects, designation of an oblique cross section or designation of an oblique cross section with respect to the plurality of oblique cross sectional images displayed is performed. The image diagnostic apparatus further comprises an addition / deletion means for designating a position on a panoramic curve and arbitrarily adding or deleting an oblique cross section.

[0010]

With the above construction, the invention according to claim 1 operates as follows. First, an arbitrary tomographic image of the region of interest is displayed on the screen of the display device. Then, a plurality of points are designated in the tomographic image by the input device, and the panoramic curve drawing means connects the designated plurality of points to draw a panoramic curve. Next, an image of a panoramic cross section that is perpendicular to the cross section indicated by the tomographic image and that is along the panoramic curve is formed by the panoramic cross sectional image forming means. It is preferable that the formed panoramic sectional image is displayed on the display device in a multi-window manner at the same time as the tomographic image on which the panoramic curve is drawn.

Then, the input device and the designating means designate a desired point on the cross section of the panoramic curve. Then, the first oblique line drawing means draws an oblique line that passes through the designated point and is perpendicular to the panoramic curve. Next, an image of an oblique cross section which is a cross section including the oblique line and perpendicular to the panoramic cross section is formed by the first oblique cross section image forming means. The oblique cross-sectional image is preferably displayed in a multi-window on the display device together with the panoramic cross-sectional image. Thus, by forming and displaying the panoramic cross section in which the region of interest of the subject is expanded and displayed and the oblique cross section that intersects with the panoramic cross section vertically, the cross sectional image necessary for diagnosis can be obtained by a simple operation.

The invention according to claim 2 operates as follows. From panoramic cross-sectional image formation and display,
This is the same as the invention described in claim 1. Then, in order to easily specify a plurality of oblique cross sections, conditional parameters consisting of intervals and lengths of oblique lines are specified by the parameter specifying means. Then, the coordinate determining means determines the coordinates of a plurality of points at equal intervals at the intervals designated by this parameter, and the second oblique line drawing means determines
A plurality of oblique lines perpendicular to the panoramic curve and having a length designated by a parameter are drawn with each of the plurality of points at equal intervals as intersections.

Next, the second oblique cross-section image forming means forms images of a plurality of oblique cross sections each including one oblique line and perpendicular to the panoramic cross section. Thus, a plurality of oblique cross-section images can be obtained by simple parameter designation, and efficient diagnosis can be performed on a large number of oblique cross-sections perpendicular to the panoramic cross-section in which the region of interest of the subject is expanded and displayed.

In the invention according to claim 1 or 2, when the tomographic image, the panoramic section and the oblique section are displayed on one display screen by multi-window display, the position of the oblique section in the region of interest can be easily recognized. it can.

Further, in the invention according to any one of claims 1 to 3, an addition / deletion means is further provided to specify an oblique section or an oblique section with respect to the plurality of oblique section images displayed by an input device or the like. It is also possible to specify the position on the panorama curve and to add or delete oblique cross sections.

[0016]

Embodiments of the present invention will now be described in detail with reference to the drawings. FIG. 1 is a block diagram showing a hardware configuration of an embodiment of the image diagnostic apparatus according to the present invention, which is common to the first embodiment to the third embodiment. In the figure, an image memory 3, an image processing device 4, a display device 5, and an input device 5 are connected via a bus 2 to a CPU 1 that controls the entire image diagnostic apparatus. Image memory 3
Stores a large number of continuous slice images or three-dimensional voxel data, a panoramic image, an oblique image, an image displayed on a display device, parameters for creating an oblique image, and the like. The image processing device 4 draws curves and line segments and forms a designated cross-sectional image from a large number of continuous slice images stored in the image memory 3 in accordance with instructions from the CPU 1. The display device 5 is a display device using a CRT, a liquid crystal panel, or the like, and displays the display image formed in the image memory 3 by the CPU 1 or the image processing device 4. The input device 6 is a keyboard, a trackball, a mouse or the like having a graphic cursor moving function, and inputs numerical parameters, coordinates on the screen displayed on the display device 5, and clicks a control view point. Used to do.

FIG. 2 is a diagram showing an output example of a display screen of the image diagnostic apparatus according to the present invention. In the figure, the display screen is a multi-window display divided into three, and the display at the center of the screen is a tomographic image selected from the axial plane, the sagittal plane, and the coronal plane (in this example, the axial plane).
Twenty. On the tomographic image 20, a panoramic curve 21 whose starting point is S and whose ending point is E is drawn. The display at the bottom of the screen is the image of the panoramic cross section 22, and the display at the upper left of the screen is the image of the oblique cross section 23. A plurality of oblique lines 24 intersect the panoramic curve 21 perpendicularly thereto. Display cursor 2 on panorama section 22
5 can be moved according to the mouse input in order to specify the position in the cross section. Furthermore, a control viewpoint 26 is provided on the right side of the center of the screen, and [cursor display] is displayed.
26-1, [Add Section] 26-2, [Delete Section] 26-
3. By specifying and clicking each viewpoint of [Guide] 26-4 and [OK] 26-5 with the mouse,
Operator's intention is transmitted.

FIG. 3 is a flow chart for explaining the operation of the first embodiment. First, a large number of continuous slice data are read into the image memory 3 via the bus 2 from a line device (not shown) or an external storage device (step S3).
1).

Next, the image processing device 4 forms three cross sections, which are the axial surface, the sagittal surface, and the coronal surface of the region of interest, are displayed on the display device 5 in a multi-window, and a panoramic cross section is designated from these three cross sections. A cross-section that is convenient for is selected and displayed as a tomographic image 20 (step S32). Next, the input device 6 is used in the tomographic image 20 to input the coordinates of a plurality of points for designating the panoramic curve (step S33). Then, the panoramic curve 21 that connects the plurality of input points is drawn (step S34).

Next, the image processing apparatus 4 uses the continuous slice data read into the image memory 3 to generate a tomographic image 2
A panoramic cross section 22 that is perpendicular to 0 and along a curved surface including a panoramic curve 21 is formed, and multi-window display is performed at the bottom of the screen of the display device 5 on which the tomographic image 20 is displayed (step S35). Next, in order to specify the position of the oblique line 24 on the panoramic curve 21, the coordinates of the point on the panoramic curve 21 are specified by the input device 6 (step S3).
6). Then, an oblique line 24 passing through the designated point and perpendicular to the panoramic curve 21 is drawn (step S3).
7).

Next, the image processing device 4 uses the continuous slice data read in the image memory 3 to form an image of the oblique cross section 23 perpendicular to the panoramic cross section 22 and along the oblique line 24, and the display device 5 is displayed. Is displayed on the upper left of the screen (step S38). In this way, an arbitrary oblique cross-sectional image can be designated and displayed.

Next, a second embodiment of the image diagnostic apparatus according to the present invention will be described with reference to the flow charts of FIGS. 4 and 5. The second embodiment corresponds to claim 2. First, a panoramic cross section 22 is formed and a tomographic image 20 is displayed from the point where a large number of continuous slice data is read from the line device (not shown) or an external storage device into the image memory 3 via the bus 2 (step S41). Multi-window display is performed at the bottom of the screen of the display device 5 (step S45).
Up to this point, the operation is the same as that of the first embodiment shown in FIG. 3, so a detailed description thereof will be omitted.

Next, while referring to the displayed image of the panoramic cross section 22, a plurality of oblique lines 24 are automatically designated in a direction perpendicular to the panoramic curve 21 and the panoramic cross section. The line length is input as a parameter from the input device 6 (step S46). Next, the image processing device 4
As a result, a plurality of oblique lines 24 having a specified length are drawn on the tomographic image 20 at equal intervals at the specified interval (step S47). Next, the image processing apparatus 4 uses the continuous slice data read into the image memory 3 to form images of a plurality of oblique cross sections 23 perpendicular to the panoramic cross section 22 and along each oblique line 24 (step S48). ), The oblique cross-sectional image designated by the position of the display cursor 25 is displayed in a multi-window on the upper left of the display screen of the display device 5 (step S4).
9).

Next, waiting for input from the input device 6 (step S51), if the input is a mouse operation (step S52), the display cursor 25 is moved according to the input (step S53), and an oblique cross-sectional image corresponding to the cursor position is displayed. Is selected or newly formed to display a multi-window on the upper left of the screen of the display device 5 (step S54),
The process returns to input waiting (S51). Thus, the oblique cross-sectional image at the cursor position designated by the mouse is displayed in real time.

Next, a third embodiment of the image diagnostic apparatus according to the present invention will be described with reference to the flow charts of FIGS. The third embodiment corresponds to claim 3, and since the first half of the operation is the same as the second embodiment, the first half of the flowchart is shared with the second embodiment.

Similar to the second embodiment, after the tomographic image, panoramic cross section and oblique cross section are displayed in a multi-window, the process moves to FIG. 6 and waits for input (step S61).
When there is an input from the input device 6, the input type is checked, and the flow branches to S63, S64, S65, and S66 by mouse operation, result output, cross-section addition, and cross-section deletion, respectively. In the case of a mouse operation, the display cursor 25 is moved according to the movement of the mouse, and the process returns to input waiting (S61) (step S6).
3). In the case of the result output, the screen being displayed is stored (step S64). When a cross section is added, an oblique line 24 is added at the position of the display cursor 25 (step S6
5) An image of the oblique cross section 23 corresponding to the added oblique line 24 is formed and displayed (step S6).
7) and returns to input waiting (S61). When the cross section is deleted, the oblique line 24 and the oblique cross section 23 at the position of the display cursor 25 are deleted (step S66), and the process returns to the input waiting (S61). In this way, the oblique cross-sectional image at the cursor position designated by the mouse can be added and deleted in real time.

[0027]

As described above, according to the first aspect of the invention, the oblique cross section perpendicular to the panoramic cross section can be easily designated based on the panoramic curve and the panoramic cross section provided in the region of interest of the subject. This makes it possible to freely see the cross-sectional image required for diagnosis by a simple operation, and there is an effect that the diagnosis support ability is improved.

According to the second aspect of the present invention, it is possible to easily specify a plurality of oblique cross sections by specifying parameters with reference to the panoramic curve and panoramic cross section provided in the region of interest of the subject. With a simple operation, the cross-sectional image required for diagnosis can be viewed freely, and the diagnostic support ability is improved.

Further, according to the third aspect of the present invention, since the tomographic image, the panoramic cross section and the oblique cross section are simultaneously displayed on one display screen, the position of the oblique cross section in the region of interest can be easily recognized. There is an effect that can be.

According to the fourth aspect of the present invention, it is possible to easily specify a plurality of oblique cross sections by specifying parameters with reference to the panoramic curve and panoramic cross section provided in the region of interest of the subject. At the same time, the addition and deletion of the oblique cross section can be easily performed, which has the effect of improving the diagnostic support capability.

[Brief description of drawings]

FIG. 1 is a block diagram showing a hardware configuration of an embodiment of an image diagnostic apparatus according to the present invention.

FIG. 2 is a diagram illustrating screen display of the embodiment of the image diagnostic apparatus according to the present invention.

FIG. 3 is a flowchart illustrating the operation of the first embodiment of the image diagnostic apparatus according to the present invention.

FIG. 4 is a flow chart diagram for explaining the first half operation of each of the second and third embodiments of the image diagnostic apparatus according to the present invention.

FIG. 5 is a flow chart for explaining the latter half operation of the second embodiment of the image diagnostic apparatus according to the present invention.

FIG. 6 is a flow chart for explaining the latter half operation of the third embodiment of the image diagnostic apparatus according to the present invention.

[Explanation of symbols]

1 CPU 2 Bus 3 Image Memory 4 Image Processing Device 5 Display Device 6 Input Device 20 Tomographic Image 21 Panorama Curve 22 Panorama Section 23 Oblique Cross Section 24 Oblique Line
25 Display cursor 26 Viewpoint for control

Claims (4)

[Claims] 1. An image diagnostic apparatus comprising a display device and an input device for inputting coordinates on a display screen of the display device, wherein the input device specifies the tomographic image displayed on the display screen of the display device. Curve drawing means for drawing a panoramic curve by connecting a plurality of selected points, and a panoramic section image forming means for forming an image of a panoramic section which is a curved surface perpendicular to the section indicated by the tomographic image and including the panoramic curve Specifying means for specifying an arbitrary point on the panoramic curve by the input device, and first oblique line drawing means for drawing an oblique line passing through the specified point and perpendicular to the panoramic curve, A first oblique section image forming means for forming an image of an oblique section including the oblique line and perpendicular to the panoramic section. An image diagnostic device characterized by the above. 2. An image diagnostic apparatus comprising a display device and an input device for inputting coordinates on a display screen of the display device, wherein the input device specifies the tomographic image displayed on the display screen of the display device. Curve drawing means for drawing a panoramic curve by connecting a plurality of selected points, and a panoramic section image forming means for forming an image of a panoramic section that is a curved surface that is perpendicular to the section indicated by the tomographic image and that includes the panoramic curve And parameter specifying means for specifying the intervals and lengths of the oblique lines, which are condition parameters for specifying the oblique cross section, and coordinate determination for determining the coordinates of a plurality of points at equal intervals on the panoramic curve at the specified intervals. Means and a plurality of observers each passing through each of the plurality of points whose coordinates have been determined, perpendicular to the panoramic curve, and having a specified length. A second oblique line drawing means for drawing a line; and a second oblique cross section image forming means for forming an image of a plurality of oblique cross sections each including one oblique line and perpendicular to the panoramic cross section. An image diagnostic apparatus characterized in that 3. The display control means for displaying the panoramic cross-sectional image and displaying the oblique cross-sectional image showing the relationship with the panoramic cross-section on the display device in a multi-window manner. Item 1
Alternatively, the image diagnostic apparatus according to claim 2. 4. An addition / deletion unit for arbitrarily adding or deleting an oblique cross section by designating an oblique cross section or a position on the panoramic curve of the oblique cross section with respect to the plurality of oblique cross section images displayed. The image diagnostic apparatus according to any one of claims 1 to 3, characterized in that