JPH02262086A - Sensitivity correction apparatus of ring ect apparatus - Google Patents

Abstract

PURPOSE:To enhance the quantitativeness of data by correcting sensitivity with high accuracy by mounting a line like radiation source, a moving block holding said radiation source and a rotary frame having a straight rail on which the moving block is made movable. CONSTITUTION:A line like radiation source 2 is held by a moving block 31 so as to become almost right-angled to a plane forming the ring-shaped arrangement of a large number of radiation detectors 1. The moving block 31 is movable along the straight rail 33 provided to a rotary disc 34 and linearly driven in the direction along the rail 33 by the motor 32 mounted to said moving block 31. The line like radiation source 2 is moved in the rotary direction by the rotation of the rotary disc 34 and also linearly moved by the movement of the moving block 31 on the rail 33. As mentioned above, since the line like radiation source 2 can be two-dimensionally moved uniformly within the ring of the detectors 1, the correction of sensitivity near to an ideal can be performed.

Description

[Detailed description of the invention] [Industrial application field]

This invention is applicable to single photon ECT (emission computed tomography) devices, positron ECT devices, etc. in which a large number of radiation detectors are arranged in a ring shape.
The present invention relates to a sensitivity correction device for a ring ECT device.

[Conventional technology]

When correcting the sensitivity of a large number of detectors in a ring ECT device, in the case of a positron ECT device, conventionally, as shown in FIGS. 3A, B, and C, a flat radiation source 5, a line radiation source, and , cylindrical phantom 6, etc. were used. That is, when a flat radiation source 5 is used, it is rotated within the ring-shaped array of radiation detectors 1, and only data in a direction perpendicular to the plane of the flat plate is used for correction. When using the linear radiation source 2, it is rotated and moved on one circular orbit to obtain correction data. Further, the phantom 6 used has a circular or elliptical cross section.

[Problem to be solved by the invention]

However, all conventional sensitivity correction devices for ring ECT devices have the following problems. First, when using the flat radiation source 5, firstly, it is very difficult to manufacture the flat radiation source, and it is also difficult to make it uniform in the plane direction. Another drawback is that only data perpendicular to the surface is used, resulting in low sensitivity and long measurement times. In addition, in the linear radiation source 2, the sensitivity is corrected by assuming that the sensitivity at the outermost periphery and the sensitivity at the center within the field of view are the same.
There remains a question as to whether the sensitivity correction in the center was performed correctly. Furthermore, when using the phantom 6, radiation is absorbed or scattered within the phantom, making it difficult to ensure accuracy. The present invention can perform sensitivity correction with high accuracy.
An object of the present invention is to provide a sensitivity correction device for a ring ECT device.

[Means to solve the problem]

In order to achieve the above object, a ring ECT according to the present invention
The sensitivity correction device of the apparatus includes a linear radiation source, a moving block that holds the radiation source, and a rotating frame having a linear rail on which the moving block can move. It also includes a linear radiation source, a moving block that holds the radiation source, an arm that holds the moving block so as to be linearly movable, and a mechanism that moves the arm in a direction substantially perpendicular to its longitudinal direction. A sensitivity correction device for a ring ECT device may be configured as follows.

[For production]

The moving block that holds the linear radiation source can move along the linear rail attached to the rotating frame, so it can move in the rotational direction only by rotating the rotating frame. Also, if this rotating frame is stationary at a certain rotation angle and the moving block moves along the rail,
Can move in a straight line in a certain direction. By combining this movement in the rotational direction and the movement in the linear direction, it is possible to move the linear source two-dimensionally on an arbitrary trajectory, so that the linear source can be moved at any position within the plane of the field of view. It is possible to locate the source. Therefore, correct data for sensitivity correction can be easily obtained. Furthermore, even if the moving block that holds the linear radiation source is moved linearly along the arm, and the arm itself is moved in a direction perpendicular to its longitudinal direction, linear movement in these two directions is not possible. By combining these, it is possible to move the linear radiation source two-dimensionally on an arbitrary trajectory. Therefore, it is possible to position the linear source at any position within the plane of the field of view, and it is possible to easily obtain correct data for sensitivity correction. Therefore, in either case, a two-dimensional distribution of the linear radiation source is obtained, which enables highly accurate sensitivity correction and improves the quantitative nature of data from the ring ECT device.

【Example】

Next, an embodiment of the present invention will be described with reference to the drawings. 1A and 1B show a sensitivity correction device for a ring ECT device according to a first embodiment of the present invention. In these figures, a line-shaped radiation source 2 is connected to a ring-shaped radiation It is held by the moving block 31 so as to be substantially perpendicular to the plane formed by the array (the plane parallel to the plane of the paper in FIG. 1A) (see FIG. 1B). This moving block is movable along a linear rail 33 provided on a rotating disk (rotating frame) 34, and a motor 3 attached to this moving block 31
2 linearly in the direction along the rail 33. Rotating circle! 34 is rotatably held by a suitable mechanism, and is forcibly driven to rotate by, for example, providing a gear groove around it and meshing with a gear 35 that is rotationally driven by a motor 36. There is. These linear radiation sources 2 and the mechanism for holding and moving them are arranged as shown in the figure only when data for correction is to be obtained, and are usually removed. Furthermore, only the linear radiation source 2 is placed inside the ring formed by the detector 1, and the other holding and moving mechanisms are placed outside the ring as shown in FIG. 1B. In the configurations shown in FIGS. 1A and 1B, the linear radiation source 2 is moved in the rotational direction by the rotation of the rotating disk 34, and linearly moved by the movement of the moving block 31 on the rail 33. The direction of this linear movement can be arbitrary depending on the rotational position of the rotating disk 34. Note that it is preferable that the rotational movement and the linear movement be performed simultaneously and asynchronously, or that the speed of one movement be slower than the speed of the other movement, or that the linear movement be performed with sufficient precision. For example, if the rotational motion and linear motion are performed simultaneously, and the linear motion is performed more slowly than the rotational motion, the linear source 2 will draw a spiral trajectory as shown by the dotted line in FIG. 1A. I will have to move. In this way, the linear radiation source 2 can be moved two-dimensionally within the ring of the detector 1, so that the same correction as that obtained by placing an ideal phantom without absorption and scattering within the ring can be achieved. data can be obtained. Therefore,
Sensitivity correction close to ideal can be performed. FIG. 2 shows a sensitivity correction device for a ring ECT device according to a second embodiment. In this figure, the linear radiation source 2 is held by a moving block 41, which moves linearly in the lateral direction along a moving arm 43. The linear drive motor 42 is attached to the moving block 41. Further, both ends of the arm 43 are held by rails 44, and the arm 43 is configured to move in the vertical direction. That is, the arm 43 is moved in the vertical direction by the motor 45 via a suitable mechanism such as a belt/boot mechanism. By fixing the arm 43 and moving only the moving block 41, the linear radiation source 2 can be moved linearly only in the lateral direction.Also, by fixing the moving block 41 on the arm 43 and moving only the moving block 41
By moving only 3, the linear radiation source 2 can be linearly moved only in the vertical direction. If these linear movements in the vertical and horizontal directions are performed at the same time, movement in the diagonal direction is also possible. By combining these vertical and horizontal linear movements, the linear radiation source 2 can be moved along a trajectory as shown by the dotted line in FIG. 2, for example. Note that this embodiment is the same as the first embodiment in that only the linear radiation source 2 enters the ring formed by the detector 1, and the other holding and moving mechanisms exit outside the ring. . Further, the linear motion may be at a uniform speed, or may be configured so that the speed is faster near the center. In the case of the sensitivity correction device of the ring ECT device shown in Fig. 2, it is possible to move the linear radiation source 2 two-dimensionally throughout the ring of the detector 1, which is ideal without absorption or scattering. It is possible to obtain the same correction data as obtained by placing a phantom inside the ring, and it is possible to perform sensitivity correction close to the ideal. In addition, with respect to the configuration shown in FIG. 2, it is also possible to attach the rail 44 to the rotating frame by adding a mechanism for rotating the entire rail 44. Although the above description is all about the positron ECT device, it goes without saying that it is equally applicable to the single photon ECT device.

【Effect of the invention】

According to the sensitivity correction device for a ring ECT device of the present invention,
Since a two-dimensional distribution of the line-shaped radiation source is obtained, close to ideal and highly accurate sensitivity correction is possible, and the quantitative nature of data from the ring ECT device is improved.

[Brief explanation of drawings]

Figures 1A and 1B show one embodiment of this invention.
Figure A is a schematic view from the front, Figure 1B is a schematic sectional view, Figure 2 is a schematic view of another embodiment from the front, and Figures A, B, and C are each a conventional example. A schematic diagram shown from the front direction. 1... Radiation detector, 2... Line-shaped radiation source, 31.
...Moving block, 32.36.42.45...Motor 33.44...Rail, 34...Rotating disk, 3
5... Gear, 43... Moving arm, 5... Flat radiation source, 6... Phantom.

Claims (2)

[Claims] (1) Sensitivity correction of a ring ECT device characterized by comprising a linear radiation source, a moving block that holds the radiation source, and a rotating frame having a linear rail on which the moving block can move. Device. (2) A linear radiation source, a moving block that holds the radiation source, an arm that holds the moving block so that it can move linearly, and a mechanism that moves the arm in a direction approximately perpendicular to its longitudinal direction. Ring E characterized by comprising
Sensitivity correction device for CT equipment.