JP2009153928A - X-ray tomography apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an X-ray tomography apparatus which can produce preview images immediately after starting imaging. <P>SOLUTION: An X-ray tube 1 and an FPD 2 are placed oppositely to each other while interposing a subject. While moving the X-ray tube 1 and the FPD 2 reversely to each other, the subject is irradiated with X-ray in order from the X-ray tube 1 and each time of irradiation transit dose of X-ray from the subject is detected by the FPD 2, a plurality of projection images are photographed thereby, the plurality of projection images are reconstructed to produce tomosynthesis tomographic reconstruction images of the subject and preview images are generated before the generation of the tomosynthesis tomographic reconstruction image. The preview image is composed of an image formed by adding two or more projection images selected from a plurality of projection images. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  According to the present invention, an X-ray tube and an X-ray detector are arranged opposite to each other with a subject interposed therebetween, and the X-ray tube and the X-ray detector are moved in opposite directions to each other from the X-ray tube to the subject. The X-ray detector detects the transmitted X-rays from the subject each time, and thereby captures a plurality of projection images, and reconstructs the plurality of projection images to perform tomosynthesis tomography of the subject. The present invention relates to an X-ray tomography apparatus that generates a reconstructed image and generates a preview image during the reconstruction process.

  As one of X-ray tomography apparatuses, an apparatus configured to generate a tomosynthesis tomographic reconstruction image of a subject and display it on a monitor is known. This X-ray tomography apparatus includes an X-ray tube and an X-ray detector arranged to face each other, and the X-ray tube and the X-ray detector are placed between the center of the X-ray beam and the X-ray with the subject interposed therebetween. While synchronously moving in opposite directions so that the centers of the line detectors always coincide with each other, X-rays are sequentially emitted from the X-ray officer, and transmitted X-rays from the subject are detected by the X-ray detector each time. Furthermore, the X-ray tomography apparatus performs signal processing on the output from the X-ray detector, captures a projection image for each X-ray irradiation, and reconstructs the plurality of captured projection images to reconstruct the tomosynthesis tomography of the subject. A reconstructed image is generated and displayed on the monitor.

  The projection image reconstruction process usually takes 5 to 10 minutes. However, whether or not the radiographing has been performed successfully, such as whether the X-ray irradiation conditions are properly set, cannot be confirmed until the tomographic image displayed on the monitor after the reconstruction process is viewed. When shooting has to be performed again, there is a problem that it is extremely inefficient.

  In order to solve this problem, a preview image is generated by performing a reconstruction process using a number of projection images selected from these projection images during the reconstruction process of the captured projection image. It has been proposed to display a preview image on a monitor before obtaining a tomographic image (see, for example, Patent Documents 1 and 2).

  However, even with this configuration, there is a waiting time until the preview image is displayed on the monitor, and it is not possible to immediately check whether the shooting has been performed successfully, and the operator (engineer, doctor, etc.) feels frustrated. It was.

JP 2002-365239 A JP 2004-267601 A

  Accordingly, an object of the present invention is to provide an X-ray tomography apparatus capable of generating a preview image as soon as imaging starts.

  In order to solve the above-described problem, the present invention provides an X-ray tube and an X-ray detector facing each other with a subject interposed therebetween, and moves the X-ray tube and the X-ray detector in opposite directions in the same plane. While, the X-ray tube sequentially irradiates the subject with X-rays, and each time the transmitted X-rays from the subject are detected by an X-ray detector, thereby capturing a plurality of projection images, In the X-ray tomography apparatus for reconstructing a plurality of projection images to generate a tomosynthesis tomographic tomographic reconstruction image of the subject and generating a preview image before generating the tomosynthesis tomographic tomographic reconstruction image, the preview image is The X-ray tomography apparatus comprises an image generated by adding two or more projection images selected from the plurality of projection images.

  In order to solve the above-described problems, the present invention also provides an X-ray tube and an X-ray detector that are opposed to each other with a subject interposed therebetween, and the X-ray tube and the X-ray detector are disposed on an optical axis of the X-ray tube. The X-ray tube is moved from the X-ray tube to the subject while circularly moving in opposite directions on a parallel plane so that a straight line connecting the center of the X-ray detector always passes through the rotation center set on the subject. X-rays are sequentially irradiated onto the subject, and transmitted X-rays from the subject are detected by an X-ray detector each time, thereby capturing a plurality of projection images, reconstructing the plurality of projection images, and In the X-ray tomography apparatus for generating a tomosynthesis tomographic reconstruction image of a subject and generating a preview image before generating the tomosynthesis tomographic reconstruction image, the preview image is selected from the plurality of projection images 2 Less than It is obtained by constituting the X-ray tomography apparatus according to claim which is an image of a projection image is generated by adding the.

In the above-described configuration, the preview image is generated after a predetermined time has elapsed after the start of shooting, and is composed of images obtained by adding all projection images shot before that, or the preview image is after shooting has started. It is preferable that the image is formed by adding two or more projection images selected from projection images taken before that, which are generated after a predetermined time has elapsed.
Alternatively, the preview image may be an image obtained by adding a newly captured projection image to an image obtained by adding all previously captured projection images generated every time a projection image is captured. preferable.

  According to the present invention, since the preview image is generated by adding the projection images acquired by the X-ray irradiation, the preview image can be generated and displayed on the monitor in a very short time. Therefore, a preview image can be displayed on the monitor in a short time after shooting is started, and thus the operator can check whether shooting has been performed well immediately after shooting starts.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. FIG. 1 is a block diagram showing the configuration of an X-ray tomography apparatus according to one embodiment of the present invention. Referring to FIG. 1, according to the present invention, a top plate 3 on which a subject M is placed, an X-ray tube 1 that irradiates the subject M on the top plate 3 with X-rays, and a subject M Is provided with a flat panel X-ray detector (FPD) 2 for detecting transmitted X-rays. The X-ray tube 1 is controlled by the X-ray tube controller 6 and supplied with a tube voltage and a tube current. Then, the X-ray tube 1 and the FPD 2 are synchronously moved in the opposite directions in the same plane by the synchronous movement mechanism 4 so that the optical axis of the X-ray tube 1 and the center of the FPD 2 always coincide with each other with the subject M interposed therebetween. You can be kidnapped. During this synchronous movement, X-rays are sequentially emitted from the X-ray tube 1 to the subject M, and each time transmitted X-rays from the subject M are detected by the FPD 2, thereby a plurality of projection images are obtained. Taken.

The synchronous movement mechanism 4 linearly moves the X-ray tube 1 along the linear trajectory L1 according to the control signal from the synchronous movement control unit 5, and at the same time, moves the FPD 2 in the direction opposite to the X-ray tube 1 along the linear trajectory L2. Move linearly. In this case, the synchronous movement mechanism 4 moves the X-ray tube 1 from position F1 → position F2 → position F3 while adjusting the swing angle of the X-ray tube 1 to change the X-ray irradiation angle, and positions the FPD 2 in position. Move from f1 → position f2 → position f3. Further, one or both of the X-ray tube 1 and the FPD 2 are moved manually or electrically in the X-ray irradiation direction, and the interval between the X-ray tube 1 and the FPD 2 can be adjusted.
The top plate 3 can be moved in the vertical direction and in the horizontal and vertical directions by the top plate moving mechanism 7. The top plate moving mechanism 7 operates according to a control signal from the top plate control unit 8.
The X-ray tube control unit 6, the synchronous movement control unit 5, and the top panel control unit 8 are connected to the main control unit 17, and the main control unit 17 is based on various commands and data input from the operation unit 18. A control signal is sent to each control unit 5, 6, 8.

  At the subsequent stage of the FPD 2, an A / D converter 9 that digitizes and extracts an X-ray detection signal that is a charge signal from the FPD 2, and a signal reading unit that processes the X-ray detection signal output from the A / D converter 9 10 is provided. The signal reading unit 10 reads a signal of a projection image of the reference section MA set as a cut section on the subject M from the X-ray detection signal from the A / D converter 9, and generates a corresponding image from the signal. The reference cross-section image reading unit 11 reads the signals of the projection images of a plurality of parallel cross-sections Ma1 to Man and Mb1 to Mbn parallel to the reference cross section MA set on the front side or the back side of the reference cross section MA, and the corresponding image is read from the signals. The parallel sectional image reading unit 12 for generating

Furthermore, a reconstruction processing unit 13 that reconstructs the projection image generated by the signal reading unit 10 to generate a tomosynthesis tomographic reconstruction image of the subject M, and the signal reading unit 10 at the subsequent stage of the signal reading unit 10. A preview image generation unit 14 that generates a preview image using the projection image generated by the reference cross-sectional image reading unit 11 is connected. In this case, the preview image generation unit 14 generates a preview image using the projection image generated by the parallel slice image reading unit 12 instead of the projection image generated by the reference slice image reading unit 11. Also good.
The signal reading unit 10, the reconstruction processing unit 13, and the preview image generation unit 14 are controlled by the main control unit 17.

  According to the present invention, the memory 15 in which the image data of the tomosynthesis tomographic reconstruction image generated by the reconstruction processing unit 13 and the image data of the preview image generated by the preview image generating unit 14 are stored, and the memory A monitor 16 that reads out and displays image data from 15 is provided.

The preview image generation unit 14 generates a preview image by adding two or more projection images selected in advance from the plurality of projection images generated by the reference slice image reading unit 11.
In one embodiment, as shown in FIG. 3 (A), the preview image generator 14 is configured to display all images taken before a predetermined time has elapsed after the start of shooting (after the third projection image has been shot). The projected images (projected images 1 to 3) are added to generate a preview image.

In another embodiment, as shown in FIG. 3B, the preview image generation unit 14 was captured after a predetermined time has elapsed after the start of capturing (after the fourth projected image has been captured) and before that. Two or more projection images (projection images 2 and 4) selected from the projection images are added to generate a preview image.
In yet another embodiment, as shown in FIG. 3 (C), the preview image generation unit 14 newly captures an image obtained by adding all the projection images captured before each time a projection image is captured. A preview image is generated by adding the projected images. According to this embodiment, the preview image is sequentially generated and displayed on the monitor from the end of the shooting of the first projection image to the end of the shooting of the last projection image. In this case, the time required to display the next preview image is about 3 seconds.

The generation principle of the preview image by the preview image generation unit 14 is as follows.
For example, considering the reference cross section MA, referring to FIG. 2, the pair of the X-ray tube 1 and the FPD 2 is such that the points G and H on the reference cross section MA are always the same points g and h on the X-ray detection surface 2A of the FPD 2. So that it is projected onto the screen. As a result, the projected position on the X-ray detection surface 2A of the point I deviating from the reference section MA changes when the X-ray irradiation angle changes. That is, the point I is projected to the point i1 on the X-ray detection surface 2A at the position k1 when the X-ray tube 1 is at the position K1, but when the X-ray tube 1 is moved to the position K2, the point I is projected to the position k2. Projected to a point i2 on an X-ray detection surface 2A.

  As a result, when the projection image is added and the preview image is generated, the signals of the points G and H are accumulated and the points G and H become clear in the preview image, while the signal of the point I is dispersed. Point I is blurred in the preview image. In this case, the degree of blur increases as the distance of the point I from the reference cross section MA increases. Thus, a preview image in which only the reference section MA is clearly captured is generated. In addition, preview images of parallel sections Ma1 to Man and Mb1 to Mbn parallel to the reference section MA are also generated in the same manner as in the case of the reference section MA.

  According to the X-ray tomography apparatus of the present invention, a preview image is generated in a short time after the start of imaging and displayed on the monitor. As a result, an operator (doctor or technician) can quickly determine whether the imaging has been performed successfully before the tomosynthesis tomographic reconstruction image is generated, and can perform X-ray tomography extremely efficiently. .

  The configuration of the present invention is not limited to the above-described embodiment. For example, in the above-described embodiment, the X-ray tomography apparatus performs the reconstruction process of the projection image by addition to generate the tomosynthesis tomographic reconstruction image. However, the reconstruction process of the projection image is performed by Feldkamp. The X-ray tomography apparatus that performs the tomosynthesis tomographic tomographic reconstruction image by the method can generate the preview image in the same manner as in the above-described embodiment before the tomosynthesis tomographic tomographic reconstruction image is generated.

  Further, instead of the above-described X-ray tomography apparatus, an X-ray tube and an X-ray detector are arranged to face each other with the subject interposed therebetween, and the X-ray tube and the X-ray detector are connected to the optical axis of the X-ray tube and the X-ray. The X-ray tube sequentially irradiates the subject with X-rays while circularly moving in opposite directions on the parallel plane so that the straight line connecting the centers of the detectors always passes through the rotation center set for the subject. In each case, transmitted X-rays from the subject are detected by an X-ray detector, and a plurality of projection images are photographed, and a plurality of projection images are reconstructed to generate a tomosynthesis tomographic tomographic reconstruction image of the subject. Also in the X-ray tomography apparatus, the preview image can be generated in the same manner as in the above-described embodiment before the tomosynthesis tomographic reconstruction image is generated.

It is a block diagram which shows the structure of the X-ray tomography apparatus by one Example of this invention. It is a figure explaining the production | generation principle of the preview image by a preview image generation part. It is a figure which shows the Example of the preview image generation operation | movement by a preview image generation part.

Explanation of symbols

1 X-ray tube 2 FPD
3 Top plate 4 Synchronous movement mechanism 5 Synchronous movement control unit 6 X-ray tube control unit 7 Top plate movement mechanism 8 Top plate control unit 9 A / D converter 10 Signal reading unit 11 Reference cross-sectional image reading unit 12 Parallel cross-sectional image reading unit 13 Reconstruction Processing Unit 14 Preview Image Generation Unit 15 Memory 16 Monitor 17 Main Control Unit 18 Operation Units L1, L2 Linear Trajectory M Subject MA Reference Section Ma1-Man Parallel Section Mb1-Mbn Parallel Section

Claims (5)

An X-ray tube and an X-ray detector are arranged opposite to each other with the subject interposed therebetween, and the X-ray tube and the X-ray detector are moved in opposite directions in the same plane, and the X-ray tube is moved from the X-ray tube to the subject. X-rays are sequentially irradiated onto the subject, and transmitted X-rays from the subject are detected by an X-ray detector each time, thereby capturing a plurality of projection images, reconstructing the plurality of projection images, and In an X-ray tomography apparatus for generating a tomosynthesis tomographic tomographic reconstruction image of a subject and generating a preview image before generating the tomosynthesis tomographic tomographic reconstruction image,
The X-ray tomography apparatus, wherein the preview image is an image generated by adding two or more projection images selected from the plurality of projection images. An X-ray tube and an X-ray detector are arranged opposite to each other with a subject interposed therebetween, and the X-ray tube and the X-ray detector are arranged such that a straight line connecting the optical axis of the X-ray tube and the center of the X-ray detector is The X-ray tube sequentially irradiates the subject with X-rays while circularly moving in opposite directions on parallel planes so as to always pass through the center of rotation set for the subject, and the subject each time. Detecting transmitted X-rays from the specimen with an X-ray detector, thereby capturing a plurality of projection images, reconstructing the plurality of projection images to generate a tomosynthesis tomographic tomographic reconstruction image of the subject, In the X-ray tomography apparatus for generating a preview image before generating the tomosynthesis tomographic reconstruction image,
The X-ray tomography apparatus, wherein the preview image is an image generated by adding two or more projection images selected from the plurality of projection images.   3. The X according to claim 1, wherein the preview image is an image that is generated after a predetermined period of time has elapsed since the start of imaging and is obtained by adding all projection images that were previously captured. Line tomography equipment.   The preview image is formed of an image obtained by adding two or more projection images selected from projection images captured before that, which are generated after a predetermined time has elapsed since the start of imaging. The X-ray tomography apparatus according to claim 2.   The preview image is an image obtained by adding a newly captured projection image to an image obtained by adding all previously captured projection images generated every time a projection image is captured. The X-ray tomography apparatus according to claim 1 or 2.

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