KR101181346B1 - A phantom stand for estimating quality of dental radiation panorama images - Google Patents

Abstract

PURPOSE: A phantom holder for estimating image quality of a dental radiation panoramic image is provided to systematically manage a radioactive examination for diagnosis by providing a standard and method for estimating a diagnosis image. CONSTITUTION: A main body(41) is the shape of a horseshoe. A plurality of slits(44) is formed on the main body for a phantom. A supporter(42) supports the main body by combining with the same. The supporter includes a coupling member and a screw groove. The coupling member is combined with a coupling groove formed on the main body.

Description

A phantom stand for estimating quality of dental radiation panorama images}

The present invention relates to an image quality evaluation of a dental radiation panoramic image, and more particularly, to a phantom holder for evaluating the image quality of a dental radiation panoramic image for evaluating the image quality according to each part of the panoramic image.

In the related art, quality management of medical images refers to regular performance inspection of medical equipment and image quality management of medical images in accordance with rules, and evaluation of quality assurance of imaging apparatuses and diagnostic value of images.

In addition, diagnostic X-ray generators currently used in all diagnostics in Korea are reported and safe managed in accordance with the rules for safety management of diagnostic radiation generators of the Ministry of Health and Welfare Ordinance No. 234. Many of the diagnostic imaging tests that are used or difficult to manage are conducted by the Image Quality Management Service.

However, with respect to diagnostic radiography equipments used in dentistry, the image quality evaluation criteria are not accurately established until now, and thus, it is difficult to perform image quality management of panoramic radiography and intraoral radiography.

Moreover, panoramic radiography, which is one of the extraoral radiography that is mainly performed in dental hospitals, is one of the most widely used diagnostic diagnostic equipments and occupies a high proportion of people's radiation exposure.

The panoramic radiographic equipment is a mixture of the principles of tomography and scanning, and has a characteristic that an image which loses diagnostic value is easily obtained when the jawbone to be observed is not located in the correct focal layer (upper layer).

However, as described above, since there is no clear criterion for the diagnostic value of the dental radiographic panoramic image, most dental hospitals are reading without evaluating it.

In addition, conventional x-ray imaging systems, as one of the essential conditions in today's medical applications of dental panoramic imaging, suffer from the problem that the patient must remain stationary for the entire duration of the scan (typically 5 to 30 seconds).

On the other hand, the international patient PCT / US2006 / 013190 filed on April 10, 2006 by Zendex Corporation of the United States of the patient structure for fixing the position of the X-ray system to fix the position of many different patients A description is given of structures used in dental x-ray machines.

In addition, US Pat. Appl. No. 11 / 103,026 filed April 11, 2005, "Bitepiece of Dental X-Ray System," is accommodated between the upper and lower incisors of the patient to position the head of the patient during operation of the dental x-ray system. The bite pieces used in dental x-ray systems for improving the quality of the radiographs respectively as well as contributing to the patient's comfort and stability of the patient's head position are described.

However, the structures described in the above patent documents are merely for fixing the position of the patient during imaging, and there is no mention of directly improving the image quality or evaluating the image quality of the taken image.

Therefore, it is possible to systematically manage the diagnostic radiographic examination to reduce unnecessary radiation exposure of re-photographing and patients and radiation workers, and to improve the quality of radiographic images so that more accurate diagnosis is possible. For this purpose, it is necessary to use appropriate methods for evaluating the diagnosis images and standards, but there are no methods or devices that satisfy all of these requirements.

In addition, it is desirable to reduce unnecessary medical expenses by enabling immediate countermeasures in the event of poor quality, but it is not possible to provide a method or apparatus that satisfies all such requirements. .

Moreover, even in the industry of manufacturing diagnostic imaging equipment, it is desirable to present evaluation criteria and set various image processing standards so that they can contribute to increasing the reliability of the equipment and saving human resources. There is no method or device to satisfy.

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems as described above, and thus the present invention enables systematic management of diagnostic radiographic examinations, reduces re-photographing and unnecessary radiation exposure of patients and radiation workers, The aim is to provide a phantom holder for evaluating the image quality of dental radiography panoramic images, which can contribute to the improvement of oral health of the people through early detection of diseases by enabling more accurate diagnosis through quality improvement.

 In addition, the present invention, by evaluating the radiographic images from time to time, it is possible to take immediate measures in the event of poor image quality, thereby reducing the medical cost to reduce unnecessary social expenses for the evaluation of the image quality of the dental radiographic panoramic image It is to provide a phantom holder.

In addition, the present invention, by presenting the evaluation criteria to the industry for manufacturing diagnostic imaging equipment, it is possible to set the standard of various image processing, thereby to increase the reliability of the equipment and to contribute to the saving of human resources It is to provide a phantom holder for image quality evaluation.

In order to solve the above problems, according to the present invention, in the phantom holder for assessing the image quality of the dental radiographic panoramic image, the phantom is located, and the support body coupled to the main body to support the main body Provided is a phantom holder for evaluating the image quality of a dental radiographic panoramic image.

Here, the main body is characterized in that it comprises at least one or more slits for positioning the phantom, and a fastening groove formed on the opposite side of the surface on which the slits of the main body is formed to engage the support.

The support may further include a fastening member formed at one end thereof to engage the fastening groove formed in the main body, and a screw groove formed at one end of the opposite side of the fastening member for installation in the panoramic imaging apparatus. It includes, characterized in that formed in a polygonal or circular shape having a predetermined length and thickness in the opposite direction of the fastening member.

In addition, the main body, characterized in that formed in the shape of a horseshoe according to the shape and size (size) of the standard archery.

Further, the main body and the support is formed using a resin, the main body and the support, characterized in that the fastening groove and the fastening member is formed through the uneven processing, is configured to be bonded to each other by bonding with an adhesive. .

The main body may include at least four slits corresponding to respective portions of the anterior part, the premolar part, the molar part, and the condylar part.

As described above, according to the present invention, it is possible to provide a method and criteria for evaluating diagnostic images, thereby enabling systematic quality management of diagnostic radiographic examinations, reducing re-photography and unnecessary radiation exposure of patients and radiation workers, The qualitative improvement enables more accurate diagnosis and contributes to improving the oral health of the people through early detection of the disease.

 In addition, according to the present invention, by evaluating the radiographic image from time to time, it is possible to take immediate countermeasures when poor quality occurs, thereby reducing medical expenses and reducing unnecessary social expenses.

In addition, according to the present invention, by presenting the evaluation criteria to the industry for manufacturing the diagnostic imaging equipment, it is possible to set the standard of various image processing, thereby contributing to the increase of the reliability of the equipment and the saving of human resources.

Therefore, according to the present invention, it is possible to cultivate professional evaluation teams of panoramic radiographic images through the process of preparing panoramic image evaluation criteria, and to conduct training of industrial image research teams using clinical quality evaluation criteria of the prepared panoramic radiographic images. In addition, it is possible to reinforce the responsiveness to users and devices by establishing image quality evaluation methods and standard evaluation items for panoramic radiographic images, and further improve the international competitiveness of radiation equipment.

1 is a diagram of a panoramic image showing a human jawbone image.
FIG. 2 is a diagram illustrating a measuring tool used to evaluate the panoramic image shown in FIG. 1.
3 is a perspective view schematically showing the configuration of a phantom holder for evaluating the image quality of a dental radiographic panoramic image according to the present invention.
4 is a side view of the phantom holder for image quality evaluation of a dental radiographic panoramic image according to the present invention shown in FIG. 3.
FIG. 5 is a rear view of the phantom holder for evaluating the image quality of the dental radiographic panoramic image according to the present invention shown in FIG. 3.
FIG. 6 is a view illustrating a state in which a phantom holder for evaluating the image quality of a dental radiographic panoramic image actually manufactured according to the present invention is installed in an actual panoramic imaging apparatus and measured. FIG. 6A is a view showing a phantom holder, and FIG. FIG. 6A is a view showing a state where a phantom holder as shown in FIG. 6A is installed in an actual panoramic imaging apparatus and measurement is performed.
FIG. 7 is a diagram showing a state of actual measurement and a radiographic image thereof as shown in FIG. 6, illustrating a case where a spatial resolution test phantom is used.
FIG. 8 is a diagram showing a state of actual measurement and a radiographic image thereof as shown in FIG. 6, showing a case where a contrast test phantom is used.
FIG. 9 is a diagram of a standard arch form of Koreans disclosed in "A Study on the Mandibular Archery Form of Korean Normal Occlusion" of the Journal of Korean Dental Association.

Hereinafter, with reference to the accompanying drawings, the details of the phantom holder for the image quality evaluation of the dental radiographic panoramic image according to the present invention will be described.

Hereinafter, it is to be noted that the following description is only an embodiment for carrying out the present invention, and the present invention is not limited to the contents of the embodiments described below.

First, with reference to Figs. 1 and 2, a conventional method for evaluating image quality of a dental radiographic panoramic image will be described.

Referring to FIG. 1, FIG. 1 is a panoramic image illustrating a jawbone image of a person.

As shown in FIG. 1, after obtaining a panoramic image using a dental radiography panoramic apparatus, it is necessary to evaluate whether or not the image has a diagnostic value.

There are two main methods for evaluating the image quality of the panorama image as follows.

First, there is a method of measuring the observability of the anatomical structures appearing in the actual image of the person.

Secondly, it is a method of numerically analyzing and analyzing the resolution, contrast, and noise of a captured image using a measuring tool.

Among the measurement tools used in the second method, there are various types, among which the product of Elimpex-Medizintechnik (Dental Test Phantom) is widely used.

FIG. 2 is a diagram illustrating a measuring tool used to evaluate the panoramic image shown in FIG. 1 as described above.

By the way, most of these measuring tools are designed to be photographed at the foremost part of the panoramic imaging apparatus, that is, at the point where the tool to push the front teeth when photographing.

Therefore, as described above, the conventional measuring tools are designed to be positioned at the point where the tool to bite the front teeth of the panoramic imaging equipment, there is a problem that the image quality evaluation is limited to the image quality of the front teeth.

In other words, the dental radiography panorama, unlike the premises imaging equipment, is a mixture of the principle of tomography and the principle of scanning. If the jaw to be photographed is not accurately positioned on the upper layer, it is easy to obtain an image whose diagnostic value is lost. However, the phantoms that have been previously manufactured and used for evaluating the image quality of the dental radiographic panoramic images have the same or similar panel form as the phantoms for intraoral radiation equipment.

Therefore, as described above, it is true that the image quality evaluation of the dental radiation panorama equipment having different characteristics from the dental radiation equipment has been mainly limited to the image quality evaluation of the anterior portion.

In addition, in actual clinical practice, the anterior and posterior image quality of dental radiographic panoramic images have been found to be different, but this is only a conjecture, and there is a difficulty in accurate measurement.

On the other hand, the inventors of the present invention, while connecting to the anterior portion of the panoramic image equipment as follows, the phantom holder in the shape of a horseshoe according to the shape and size (size) of the standard Korean archery of the time certified to match the Korean archery size By devising the design of, we have developed a phantom holder for evaluating the image quality of dental radiography panoramic images which can evaluate the image quality of various parts by placing various measuring tools at various positions.

That is, the phantom holder for evaluating the image quality of the dental radiographic panoramic image according to the present invention enables the image quality evaluation according to each part of the anterior part, the premolar part, the molar part, and the head of the panoramic image currently used in Korea.

Next, with reference to FIG. 3, the detailed structure of the phantom holder 40 for image quality evaluation of the dental radiography panoramic image concerning this invention is demonstrated.

3 is a view schematically showing the configuration of the phantom holder 40 for evaluating the image quality of the dental radiation panoramic image according to the present invention.

As shown in FIG. 3, the phantom holder 40 for evaluating the image quality of the dental radiographic panoramic image according to the present invention is divided into a main body 41 and a support 42 supporting the main body 41.

Here, the main body 41 is formed in a horseshoe shape according to the shape and size of the standard archery as described later.

In addition, the main body 41 is provided with a plurality of slits 44 for positioning the phantom. In the present embodiment, as shown in FIG. Four slits 44 are formed to correspond to each other.

Here, each of the slits 44 corresponds to the head head, the premolar part, the anterior part, and the molar part from the right end.

In addition, the fastening groove 51 for engaging with the support body 42 is formed in the surface opposite to the surface in which the slit 44 of the said main body 41 was formed.

In addition, the support 42 is for supporting the main body 41 in combination with the main body 41, more specifically, as shown in Figure 4, is formed in a polygonal or circular shape having a constant length, At one end, a fastening member 52 for engaging with the fastening groove 51 formed in the main body 41 is formed. On the opposite side, as shown in FIG. 5, a screw groove used to install the panoramic image device at the center thereof ( 53) is formed.

Here, the main body 41 and the support 42 are made of, for example, a resin such as ABS resin, and thus, the fastening groove ( 51 and the fastening member 52 may be formed, and the main body 41 and the support 42 may be bonded to each other by bonding with an adhesive or the like.

After the main body 41 and the support body 42 have been coupled as described above, as shown in FIG. 6, the screw groove 53 is used to connect to a tripod, and then installed in the panoramic imaging apparatus. Position and image quality is evaluated and measured.

That is, as described above, a phantom holder as shown in Fig. 6A is produced, and this is installed in an actual panoramic imaging device as shown in Fig. 6B for measurement.

7 is a view showing the results of performing the measurement by manufacturing the phantom holder according to the present invention as described above and installed in the actual panoramic image device.

That is, in addition to the case where a spatial resolution test phantom is used as shown in FIG. 7 and the contrast test phantom is used as shown in FIG. Various test phantoms can be placed to evaluate the image quality of various areas.

Here, in the manufacture of a phantom holder that conforms to the standard Korean arch of the Korean, as shown in FIG. 9, for example, "a study on the shape of the lower dental arch of the Korean normal occlusal", Journal of the Korean Dental Association 1996; 26 Standard archery data of Koreans using the archery measurement method as disclosed in: 535-564 can be used.

In addition, for the sake of brevity, a detailed description of the above-described "study on the shape of the mandibular arch form of Korean normal occlusion" is omitted.

As described above, a phantom holder for evaluating the image quality of the dental radiographic panoramic image as shown in FIG. 3 can be manufactured. Therefore, according to the present invention, a test phantom holder reproducing the standard archery of Koreans as described above is used. Evaluate panoramic images used in the clinic.

As described above, the phantom holder for evaluating the image quality of the dental radiographic panoramic image according to the present invention has been described through the embodiments of the present invention, but the present invention is not limited to the contents described in the above embodiments. It is a matter of course that various modifications, changes, combinations, and substitutions may be made by those skilled in the art according to design needs and various other factors by those skilled in the art.

40. Phantom holder for evaluating the image quality of dental radiographic panoramic images
41. Body 42. Support
44.Slit 51.Tightening Groove
52. Fastening member 53. Screw groove

Claims (6)

A phantom holder for evaluating the image quality of a dental radiographic panoramic image,
A main body including at least four slits corresponding to respective portions of the anterior part, the premolar part, the molar part, and the condylar part to position the phantom; And
A phantom holder for assessing the image quality of a dental radiographic panoramic image, comprising: a support coupled to the main body to support the main body.
The method of claim 1,
The main body includes:
The phantom holder for evaluating the image quality of the dental radiographic panoramic image, characterized in that it comprises a fastening groove formed on the opposite side of the surface on which the slit is formed to be coupled to the support.
The method of claim 2,
Wherein the support comprises:
A fastening member formed at one end of the fastening member to be engaged with the fastening groove formed in the main body; And
It includes a screw groove formed on one end of the opposite side of the fastening member for installation in the panoramic image device,
The support is a phantom holder for evaluating the image quality of the dental radiographic panoramic image, characterized in that formed in a polygonal or circular shape having a predetermined length and thickness in the opposite direction of the fastening member.
The method of claim 1,
The main body is a phantom holder for assessing the image quality of a dental radiographic panoramic image, characterized in that formed in a horseshoe shape according to the shape and size of the standard arch. The method of claim 3, wherein
The main body and the support are formed using a resin,
The main body and the support, the phantom holder for image quality evaluation of the dental radiographic panoramic image, characterized in that the fastening groove and the fastening member are formed through the concave-convex processing and are bonded to each other by bonding with an adhesive.
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