JPH0516538Y2 - - Google Patents

Description

[Detailed description of the invention] (a) Industrial application field The present invention is used in the field of scintigraphy or scintigraphy in nuclear medicine.

When scanning the subject's whole body, this invention
In particular, it relates to a whole-body gamma camera that scans local areas of interest with high resolution.

(b) Prior art Conventionally, for example, the general method for whole body imaging using a gamma camera with a field of view of 380 mmφ is a two-pass method in which the gamma camera is placed over the whole body surface in the direction of the arrow, as shown in Figure 4. The image is scanned at a uniform speed to reconstruct the projection data of gamma rays emitted from nuclides or radioactive isotopes (RI) distributed within the body, and create an image or nuclide distribution map.

(c) Problems that the invention aims to solve When observing the distribution map of RI in the whole body, a scan like the one described above is sufficient, but when looking at affected areas such as cancer, it is necessary to check for metastasis to the whole body. be.

In that case, there are two ways to deal with it: take a whole-body image and an image of the affected area, or take a whole-body image at high resolution (but either by taking more time or by increasing the amount of RI administered to the patient). method is being carried out.

However, any of the above methods takes time and effort, and causes much pain to the subject or patient during this time.

In view of the above-mentioned problems, an object of the present invention is to provide a whole-body gamma camera that can image the whole body in one scan and perform high-resolution imaging of only the region of interest.

(d) Means for solving the problem The above-mentioned purpose is to use a gamma camera that includes a detector, a stand that supports it, and a scan control circuit that controls the movement of the stand. The scan area includes a setting device for setting the scan length of the region of interest in the region and the scan speed of the region of interest, and the scan control circuit controls the detection of the detector in the region of interest based on the setting signal of the setting device. This is achieved by switching the scan to a low speed.

(e) Effect: In advance, a region of interest is calculated from the starting point of the scan and set in the whole body scan control device using a position parameter, and the scan speed is reduced only in that part to perform whole body imaging.

(F) Embodiment A preferred embodiment of the present invention will be described with reference to FIGS. 1 to 3.

FIG. 1 is a block diagram showing the main part of one embodiment of the present invention. 10 is a detector stand, 12 is a detector, 14 is a console as an input means, 16 is a scan control circuit, 18 is an image reconstruction circuit, 2
0 is a display device, and 22 is a computer.

According to the present invention, console 14 and scan control circuit 16 involve software as a means of achieving this objective.

First, in the console 14, before starting the scan, define the region of interest in terms of scan length, speed, scan width, etc., set these parameters, and send these signals to the scan control circuit 16. tell.

The scan control circuit 16 controls the movement of the detector stand 10 according to the instruction signal from the console 14, and also controls the movement of the detector stand 10.
The image reconstruction circuit 18 is informed of how much 0 has been moved.

At this time, for example, if the region of interest in the affected area shown in Figure 2 is set as section ``b'' from the console 14, the scan speed will be lower in section ``b'' than in the other section ``a''. .

Note that the image reconstruction circuit 18 combines the scan control signal and the projection image data or signal from the detector 12 to reconstruct a whole-body image.
This output image is sent to a display device 20 for display or sent to a computer 22.

As shown in FIG. 3, the output data of the image reconstruction circuit 18 has a higher density in the section "b" due to the deceleration of the scan in that section or the region of interest, and accordingly has a higher resolution. The image is constructed.

Note that the number of RI radiation counts increases only in section "b" in Figure 3, so the scan reduction ratio in this section is sent to the image reconstruction circuit 18 by the console or by internal calculation, and the count number in that section is divided. It is also possible to output the count as a whole, which makes the overall count uniform, but the resolution is improved only in that section.

(G) Effects According to the present invention, it is possible to simultaneously obtain a whole-body image of the RI radiation distribution and an image of the region of interest.
In particular, the metastatic state of an affected area such as cancer becomes clear, and therapeutic treatment is promoted.

[Brief explanation of the drawing]

Fig. 1 is a block diagram showing the main parts of an embodiment of the present invention, Fig. 2 is an example of setting a region of interest in a whole-body scan according to the present invention, and Fig. 3 is an RI radiation seen in the region of interest according to the present invention. FIG. 4 is a diagram illustrating a count density distribution, and FIG. 4 is a diagram illustrating a whole body scan mode according to a conventional example. 10 is a detector stand, 12 is a detector, 14 is a console, 16 is a scan control circuit,
18 is an image reconstruction circuit, 20 is a display, and 22 is a computer.

Claims (1)

[Scope of utility model registration request] In a gamma camera that has a detector, a stand that supports it, and a scan control circuit that controls the movement of the stand, the scan area of the whole body of the subject and the scan length of the region of interest within that area are measured. and a setting device for setting the scan speed of the region of interest, and the scan control circuit operates by switching the scan of the detector to a low speed in the region of interest based on the setting signal of the setting device. camera.