JPS6041952A - X-ray phantom - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to an X-ray phantom used for adjustment and image quality testing in an X-ray apparatus, DR (digital radiography) apparatus, etc.

[Technical Background of the Invention and Problems thereof] As X-ray phantoms for the purpose of evaluating image quality during angiography, there are conventional X-ray phantoms as shown in FIGS. 1 and 2.

The X-ray phantom shown in FIG. 1 has cylindrical pores 2 of different diameters provided in a block 1 made of acrylic or the like, which has an X-ray absorption coefficient (absorption rate) approximately equal to that of human tissue. A liquid containing a contrast agent is injected into the inside.

However, the X-ray phantom shown in Figure 1 is evaluated as a combination of spatial resolution and concentration resolution, which are indicators of image quality evaluation. It was extremely difficult to evaluate quantitatively.

In addition, the X-ray phantom shown in Figure 2 is used especially for evaluating the image quality of density resolution, and has a uniform X-ray phantom.
A plurality of substances (one of which is indicated by 4) having slightly different X-ray absorption coefficients are embedded in a block 3 having a linear absorption coefficient, for example, in the shape of a rectangular parallelepiped.

However, the X-ray phantom shown in FIG. 2 is far from an X-ray phantom imitating angiography in terms of, for example, the X-ray absorption coefficient.
For example, in the boundary portion with 4), gaps are likely to occur during manufacturing, which may adversely affect the X-ray fluoroscopic image.

By the way, the latest XI! Photographic devices and the like are equipped with an automatic setting mechanism for photographing conditions, which requires adjustment of the system. Also, in the future Micro Combi 1-
The system 11 can be controlled according to a predetermined program, and the system 11 can be controlled according to a predetermined program. The need for correction is anticipated, and standardization of the X-ray phantoms used is desired.

[Object of the Invention] The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an X-ray phantom that can accurately and efficiently evaluate concentration resolution and that can be used as a standard phantom.

[Summary of the Invention] The outline of the present invention for achieving the above object is to provide a plurality of spaces each having a different depth in the direction of incidence of X-rays, and an absorption rate equal to the X-ray absorption rate of the human body that is filled in the spaces. one or more first phantom units consisting of a first liquid having a first liquid having a certain ratio, a plurality of spaces each having a different depth with respect to the X-ray incident direction, and a second phantom unit that fills the spaces and contains a contrast agent. and an outer container that accommodates the inner container and is filled with a liquid having an X-ray absorption rate equal to that of the human body. It is characterized by comprising the following.

[Embodiment of the Invention] Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

FIG. 3 is a partially cutaway perspective view of the X-ray phantom according to the present invention. In the figure, the outer container 5 has a height of, for example, 3Qcm,
It has a width of about 30 cm and a thickness of about 20 CI11, and is made of an acrylic plate with a thickness of, for example, 3 InIll, and the upper lid 9 in particular is removable. However,
The inside of the outer container 5 is filled with a liquid having an absorption rate equal to that of the human body, such as distilled water 6, and a fixing member 8 attached to the bottom of the outer container 5 allows the inner container 7 to be It is fixed approximately at the center of the outer container 5.

Next, the inner container 7 will be explained with reference to FIG. 4. The inner container 7 is made of acrylic, for example, and has a height of 1
82 mm, width 220+11111. Thickness 13m1I+
A contrast phantom unit (hereinafter simply referred to as a phantom unit"
) 11a, 115-b, 11c, 11d, 11e, and an outer frame 12 to which the phantom units 118 to 11e are detachably attached.

Here, the outer frame 12 is 12b as shown in FIG.
128 is removably attached to the
One side 12(') inside b is a recess formed by two slopes in the longitudinal direction, and the other side 12d is a convex part formed by two slopes in the longitudinal direction. (The reason for forming it this way will be explained later).

Next, details of the phantom units 11a to 11e will be explained with reference to FIGS. 6(Δ), (B), and (C). Figure 6 (A), (B).

(C) is a configuration diagram showing the configuration of the phantom unit, in which (A) is a front view, (B) is a top view, and (C) is a side view. As shown in the figure, one side of both side joint surfaces 13a and 13b of the phantom unit is a concave portion formed by two slopes in the longitudinal direction, similar to the inside of the outer frame 12 shown in FIG. The other side is a convex portion formed by two slopes in the longitudinal direction. Here, the reason why the inner side of the outer frame 12 shown in FIG. 5 and the both side joint surfaces of the phantom unit shown in FIG. 6 are made into four parts and convex parts formed by two slopes will be explained.

That is, the phantom units 11a to 1 are placed inside the outer frame 12.
When 1e is arranged, a gap is created at the joint, and the incident X
There is a possibility that a part of the line may not pass through the acrylic part and may pass through the gap (this will have an adverse effect on the evaluation described below). Therefore, by forming the joint part into four parts formed by two sloped parts and a convex part, and combining these parts, the adverse effects caused by the gap can be improved.

Therefore, the interior of the phantom unit is, for example, a cylindrical space (hereinafter also referred to as "contrast part") with a diameter of about 10II11.
2 are arranged in the vertical direction, and the cylindrical space portions 18-
An injection path 14 for distilled water or a contrast agent is interposed between the phantom unit 22 and one side of the phantom unit, and further,
An air passage 15 for venting air is interposed between the cylindrical spaces 18 to 22 and the other side of the phantom unit. The injection path 14 and the air path 15 are
Connecting paths 16a, 16 running horizontally within the phantom unit
They face each other on the outer periphery of the cylindrical space 18 via b. Similarly, on the outer periphery of the cylindrical spaces 19 to 22, the injection path 14 and the air path 15 face each other via a connecting path. Here, for example, the depth of the space 18 is 0°5 mm, and the depth of the space 19 is 1.0II11.
The depth of the space 20 is 2.0 mm, and the depth of the space 21 is 3.
．． 0II1m.

The depth of the space 22 is 6. The depths relative to the X-ray incident direction (arrow χ1, χ2 direction) are different from each other. Further, the spaces 18 to 22 are formed by gluing together acrylic materials, etc., but in particular, the embedded plugs 23a to 23e
, 24a to 24e are formed in a tapered shape. The reason for forming it in this way is to eliminate gaps when viewed from the X-ray incident direction (arrow χ!, χ2 direction).

Next, a method for injecting distilled water or a contrast medium into the phantom unit will be explained. First, the mouth part 25 of the injection channel 14 is closed, and the mouth part 2 of the air passage 15 is closed.
From step 6, air is removed using, for example, a vacuum pump. next,
The mouth part 26 of the air passage 15 is closed, and distilled water or a contrast agent of a specific concentration is injected from the mouth part 25 of the injection passage 14.
The mouth portion 2 of the injection channel 14 is fully filled.
Block 5.

By combining, for example, five phantom units having distilled water and contrast agents having different concentrations and storing them in the outer container 5 having distilled water inside, the entire As shown in FIG. 3, an X-ray phantom having a 5×5 matrix-like contrast area is constructed.

Therefore, the matrix columns of the assembled X-ray phantom are lined with contrast areas of different depths, each containing distilled water or a contrast agent of the same concentration, and the matrix rows are each lined with distilled water or a contrast agent of different concentration. Thus, contrast areas of the same depth are lined up.

Next, evaluation of the device 8- using the X-ray phantom according to the present invention will be explained. For example, a phantom unit injected with distilled water is arranged on both sides of a phantom unit injected with a contrast agent at a specific concentration, and a comparison is made between the contrast agent at a specific concentration and the distilled water. This is as shown in Figure 7.
The objective is to evaluate the discriminative power of the apparatus using the transmitted X-rays 27a and 28a of the distilled water 27 and the contrast agent 28 of a specific concentration in the distilled water 6 in the outer container 5, and the discrimination power of the apparatus is evaluated in 27.
28 (corresponding to the contrast part in the phantom) is
This corresponds to blood vessels in the human body, and evaluations similar to those obtained using the actual human body can be obtained.

Furthermore, since the contrast portion is arranged in a 5×5 matrix, it is possible to evaluate 25 parameters at once, which is very efficient.

It goes without saying that the present invention is not limited to the embodiments described above, and that modifications can be made as appropriate within the scope of the gist of the present invention.

For example, although the contrast parts 18 to 22 of the phantom unit shown in FIG.
Similar effects can be achieved, and the present invention is not limited to a 5×5 matrix-like contrast area; if the number of contrast areas is increased, evaluation of even more parameters can be performed at once.

The size of the phantom unit and the dimensions of each part in the above embodiments are also just examples, and can be set as appropriate in consideration of the overall size of the X-ray phantom.

Further, in the above embodiment, the joint surface when arranging the plurality of phantom units is formed of four parts and a convex part formed by two slopes, but the shape is not limited to this, and may be curved, for example. The point is that the bonding surface should be formed so as to intersect the incident X-rays.

Further, in the above embodiment, the vertically long phantom units are arranged in an upright manner in the horizontal direction, but the present invention is not limited to this, and the phantom units may be arranged horizontally and stacked, for example.

[Effects of the Invention] According to the present invention described above, there is no influence of the contrast of the entire image with a spatial resolution of 9, and since there is a plurality of contrast parts in a matrix, the resolution can be evaluated once accurately and efficiently. obtain.

Therefore, it is possible to provide an X-ray phantom that has sufficient functions as a standard phantom for adjusting X-ray devices, DR devices, etc., and for testing image quality.

[Brief explanation of the drawing]

1 and 2 are schematic configuration diagrams for explaining a conventional X-ray phantom, FIG. 3 is a partially cutaway perspective view of an X-ray phantom according to the present invention, and FIG. 4 is shown in FIG. FIG. 5 is a perspective view showing the inner container of the X-ray phantom, FIG. 5 is a perspective view showing the outer frame of the inner container shown in FIG. 4, FIG. 6 is a configuration diagram showing the configuration of the phantom unit, and (A) is a front view. In the figures, (B) is a top view, (C) is a side view, and FIG. 7 is an explanatory diagram for explaining the action of the X-ray phantom according to the present invention. 5...Outer container, 6...Liquid (distilled water) having an absorption rate equal to the X-ray absorption rate of the human body, 6...Inner container, 8...・Fixing member, 9・
... Upper lid, 11- 118-11e ... Phantom unit, 18
~22...Cylindrical space part (contrast part)
, 23a to 23e, 24a to 24e... embedded plug. Agent Patent attorney Noriyuki Chika (and 1 other person) 12- Figure 1 Figure 2 Figure 3 Figure 4th day of Akira? 8 Kaisho GO-41952 (5) Notebook 6 (B)

Claims (1)

[Claims] (1) Comprised of a plurality of spaces each having a different depth in the direction of X-ray incidence, and a first liquid that fills the spaces and has an absorption rate equal to the X-ray absorption rate of the human body.
The above-described first phantom unit, one or more second phantom units comprising a plurality of spaces each having a different depth with respect to the X-ray incident direction, and a second liquid that fills the spaces and contains a contrast agent. An X-ray device comprising: an inner container configured by arranging phantom units; and an outer container that accommodates the inner container and is filled with a liquid having an absorption rate equal to that of the human body. phantom. (2) The joint surface of the embedded plug forming the space of the first and second phantom units and the joint surface when arranging a plurality of phantom units intersect with incident X-rays. X as described in claim 1
line phantom.