JP2003088519A - Dental radiographic system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a dental radiographic system capable of performing X-ray radioscopy in advance before imaging by intraoral dental radiography. SOLUTION: A subject 2 is seated in a chair 4, and an FPD5 is given to the subject 2, and pressed and fixed to the reverse side of a tooth/peripheral tissue 3 in the oral cavity with the fingers. An operator pulls an X-ray tube 1 suspended from a ceiling or the like to near the head of the subject 2, and turns a radiation port to an imaging site. The X-ray condition of a control device 7 is set to perform the X-ray radioscopy, and after confirming that the area concerned of the imaging site is located in the center on the monitor of an input and output display device 8, a radiographic imaging is performed. The image signal is inputted from the FPD5 to the control device 8 through a cable 6, and the X-ray image is displayed on the monitor of the input and output display device 8, and stored in the memory of the control device 7.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dental X-ray imaging apparatus, and more particularly to an X-ray image detector that is inserted into the oral cavity and detects X-rays emitted from the outside of the mouth.

[0002]

2. Description of the Related Art A dental X-ray photographing apparatus is designed mainly for photographing a tooth and its surrounding tissue, and a film or the like is put in the oral cavity so that a specific tooth and its surrounding tissue can be obtained. An intraoral dental X-ray imaging device called "Dental" that radiates X-rays from outside the oral cavity and an X-ray at the tip of an arm that rotates around the centers of teeth arranged in a substantially circular shape The tube and the film attached in a cylindrical shape are arranged so as to face each other, and the X-ray beam is rotated while irradiating the subject through the narrow gap (slit) provided in front of the film and the X-ray tube. There is a pantomo general-jaw general-purpose X-ray imaging apparatus that moves in synchronism with this scanning speed and takes a plane having a specific surface of a subject and a film surface having the same linear velocity as a tomographic plane for imaging.

In FIG. 5, the subject 2 is seated on a chair 4,
The state of intraoral dental radiography in which the film 9 is placed in the oral cavity and the tooth / peripheral tissue 3 of the subject 2 is imaged by the X-ray tube 1 is shown. A film-like 3x4 cm size is put in a light-proof, waterproof, flexible sheet-like case, which is placed in the oral cavity and strongly pressed against the back side of the tooth / peripheral tissue 3 to be photographed with a finger or the like. To be done. The holding of the film 9 is performed by the fingers of the subject 2, and the film 9 may be slightly bent and the image may be distorted. The X-ray tube 1 is attached to an arm balanced by a spring or the like, and can move freely around the head of the subject 2 sitting on the chair 4 and can be stopped at any position. X-rays can be emitted in all directions. Further, depending on the method of attaching the X-ray tube 1 and the arm, there are a moving type, a wall mounting type, a unit mounting type, a floor mounting type, a ceiling hanging type and the like. X-ray imaging conditions are usually
The tube voltage and the tube current are fixed and controlled by a timer, which is 60 kV, 10 mA, 5 sec, but some devices employ 50 or 70 kV.

FIG. 6 shows a specific method of intraoral dental radiography. (A) is also called a bisecting method, also known as an isometric imaging method, and the angle 2 formed by the film 9 placed along the tooth / peripheral tissue 3 in the oral cavity of the occlusal surface and the tooth axis center line is 2 An image in the lengthwise direction of the tooth can be photographed almost in the same way as the real thing by making the center line an incident line perpendicular to the center line. (B) is a standard dental film 9
A case in which a wing 9b is provided in the case of a, and the upper and lower teeth are simultaneously photographed on one film with the wing 9b occluded so that the dental film 9a side is located at the back side of the tooth / peripheral tissue 3 in the oral cavity. Is. Central X-ray is 5 above the occlusal plane
It is set to -10 °. (C) is an occlusal film 9c
The upper and lower jaws of the tooth / peripheral tissue 3 to be imaged are held in a slightly occluded state, and X-rays are irradiated from a direction perpendicularly incident on the occlusal film 9c.

A photographing method without using the film 9 as shown in FIG. 7 is being performed. In FIG. 7A, the CCD sensor unit 22 is used instead of the film 9, and the CCD sensor unit 22 is set on the base unit 23.
The light shielding plate 24 is placed on the front surface and is housed in the case 25. The CCD sensor unit 22 stores charges generated by incident X-rays in a potential well formed in the semiconductor, applies a transfer voltage from the outside, and sequentially moves the potential well to transfer the charges along the semiconductor surface. The device is a solid-state image sensor in which a sensor and a scanning unit are integrated. Then, the signal from the CCD sensor unit 22 is sent to an external controller via the cable 26, and an X-ray image is displayed on an output display device (not shown). Figure 7
In (b), the imaging plate 26 is used instead of the film 9, and the imaging plate 26 is set on the base portion 23, and the protective plate 24a is placed on the front surface and stored in the case 25a. The imaging plate 26 includes a barium fluorohalide compound (BaFX: Eu ₃₊ , X = Cl, and
It is a coating of crystals of Br, I). When X-rays enter, electrons are formed in the crystal, halogen ions F ⁺
Are trapped in the holes of, and metastable color centers (F centers) are formed, and X-ray energy is accumulated in an analog manner as image information. Then, after shooting, when the laser light of the secondary excitation light (reading light) is spot-irradiated on this color center,
The excited dose of energy is emitted, and the X-ray dose stored in the spot can be measured by a light amount sensor, and the signal is converted into a digital amount to obtain a digital image.

FIG. 8 shows a diagram for explaining the principle of pantomography of a full-jaw general-purpose X-ray imaging apparatus. The X-ray tube 1 and the film 9d are placed facing each other at the tip of an arm that rotates with the center of the tooth row of the subject 2 arranged in a circle as the rotation center O, and placed in front of the X-ray tube 1 and the film 9d. When the X-ray beam is rotated (X-ray tube 1: PQR) while being irradiated with the X-ray beam through the slit for the X-ray beam, the X-ray beam sequentially scans the tooth row. When the film 9d is rotationally moved in synchronization with this scanning speed (film 9d: P'-Q'-R '), the X-ray beam of the specific surface (B surface) of the dentition and the film 9d surface is changed. A plane in which the moving velocities match (constant velocity motion) is captured as a still image as a tomographic image, and the other planes (planes A and C) in which the velocities do not match do not form an image due to motion blur. It is suitable for panoramic diagnosis of the tooth / surrounding tissue 3.

[0007]

Although the conventional dental X-ray imaging apparatus is constructed as described above, the method of imaging using the film 9 is such that the region of the tooth / peripheral tissue 3 to be imaged is accurately measured. Whether or not the film is photographed at the center position of the film cannot be judged without developing the photographed film 9 and seeing the result. Usually, in X-ray fluoroscopy, X-ray fluoroscopy is performed by an image intensifier or the like,
Spot imaging is performed after the imaging site is accurately confirmed. Further, the method of photographing using the film 9 requires processing such as development as processing after photographing, and thus the photographing result cannot be observed quickly. Then, there is a problem that a storage space for the photographed film 9 is required. Further, the method of capturing an image using the CCD sensor unit 22 of the solid-state image sensor has high sensitivity as an image sensor using visible light as an input, and may be small in size, robust, and low in power consumption.
The D sensor element has low sensitivity to electromagnetic waves having a short wavelength such as X-rays, and clear imaging cannot be performed unless the X-ray irradiation conditions are raised. The exposure dose to the subject 2 increases, which is not preferable. Further, the presence of the cable 26 makes the subject feel uncomfortable. Further, when imaging is performed using the imaging plate 26, it is necessary to irradiate secondary excitation light (reading light) to read out an X-ray image after imaging, and after erasing, erasing light is uniformly irradiated. Then, the work of removing the afterimage is required. Also in this case, there is a problem in that the X-ray fluoroscopy before imaging cannot be performed using the imaging plate 26. In addition, the film 9d is also similarly used for pantomography.
In the method using, there is a problem that it is not possible to perform X-ray fluoroscopy prior to imaging.

The present invention has been made in view of such circumstances, and it is possible to perform an X-ray fluoroscopy in advance before imaging, and it is possible to take an image after confirming the imaging site and performing an intraoral dentistry X.
It is an object of the present invention to provide a dental X-ray imaging apparatus using a radiography method.

[0009]

In order to achieve the above object, a dental X-ray imaging apparatus of the present invention is a compact X-ray image detector which is inserted into the oral cavity and detects X-rays emitted from the outside of the mouth. In a dental X-ray imaging apparatus including the above, a flat panel detector including a flat solid-state detection element array is used for the X-ray image detector.

Further, in the dental X-ray imaging apparatus of the invention described in claim 2, the flat panel detector is provided with the wireless transmitting / receiving means.

The dental X-ray radiographing apparatus of the present invention is constructed as described above, and a flat panel detector of an X-ray image detector comprising a flat and small solid-state detection element array is inserted into the oral cavity, and the flat panel detector is inserted from the outside of the mouth. The dental X-ray imaging apparatus is capable of irradiating X-rays, performing X-ray fluoroscopy in advance before imaging, and confirming the tooth / surrounding tissue of the imaging site before imaging. Since a flat panel detector is used, it is possible to manufacture a small solid-state detection element array,
It can be inserted into the oral cavity instead of the film, and fluoroscopy can be performed before imaging before imaging. Then, unlike the conventional art, it is possible to store the image data in the storage device of the control device and quickly display the X-ray image on the monitor of the input / output display device without requiring the troublesome work such as the film developing process. You can Moreover, if the signals are transmitted and received wirelessly, discomfort to the patient can be reduced.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of a dental X-ray imaging apparatus of the present invention will be described with reference to FIGS. Figure 1
Sit the subject 2 on the chair 4 and apply the dental X of the present invention.
The state of intraoral dental radiography in which the FPD 5 of the radiographic apparatus is placed in the oral cavity and the tooth / peripheral tissue 3 of the subject 2 is imaged by the X-ray tube 1 is shown. FIG. 2 shows an external view of the FPD 5 of the present dental X-ray imaging apparatus. This dental X-ray imaging apparatus is an X-ray tube 1 that can be suspended from a ceiling or the like and whose position and direction can be freely set, and an X-ray tube 1 that is inserted into the oral cavity and set on the back surface of the tooth / surrounding tissue 3 with a finger or the like. An FPD5 (flat panel detector), which is an X-ray image detector including a flat small solid-state detection element array for detecting transmitted X-rays, and F
It is composed of a control device 7 which inputs a signal from the PD 5 through a cable 6 and processes the signal to form an X-ray image, and an input / output display device 8 which displays the X-ray image.

The difference between the present dental X-ray photographing apparatus and the conventional apparatus is that the conventional apparatus uses the film 9, the CCD sensor unit 22 and the imaging plate 26 for the X-ray image detector. This is the point that FPD5 is used. When the FPD 5 is used, it has a feature that it is possible to perform fluoroscopy before imaging and perform imaging after confirming the imaging site of the tooth / peripheral tissue 3 by fluoroscopy. The conventional film 9 and the imaging plate 26 cannot be seen through. Further, since the CCD sensor unit 22 has a low X-ray sensitivity, it cannot be seen through under normal X-ray conditions.

The X-ray tube 1 is attached to an arm balanced by a spring or the like as in the conventional case, and can freely move around the head of the subject 2 sitting on the chair 4. Moreover, it is possible to stop at an arbitrary position and emit X-rays in all directions. Depending on the mounting method, there are a moving type, a wall mounting type, a unit mounting type, a floor mounting type, a ceiling hanging type and the like. The difference from the past is
The point is that X-rays can be seen through. An X-ray tube focus for fluoroscopy is provided on the X-ray tube 1 and the focus size is small, so that an X-ray fluoroscopic image with good resolution can be observed on the monitor of the input / output display device 8. Conventionally, the tube voltage and the tube current are fixed, and the imaging time is controlled by the timer. However, in this apparatus, X-ray fluoroscopy is performed, and the X-ray fluoroscopy is performed.
The X-ray image displayed under the line condition can be stored and stored in the storage device of the input / output display device 8. Further, it is possible to fix the tube voltage and the tube current and take an image with a timer. The fluoroscopic X-ray condition is about 50 to 70 kV and about 3 mA.

The FPD 5 has a case 2 as shown in FIG.
It is sealed at 1, and its control and output signals are input / output via a cable 6 to / from a control device 7 provided outside. The FPD 5 is formed in a size of about 3 × 4 cm, which is the same as the film 9. Then, it is sealed by a plastic case 21 that absorbs a small amount of X-rays so that it can be inserted into the oral cavity, and each corner has a rounded shape to facilitate insertion. Then, the cable 6 is connected and the waterproof portion is provided with a waterproof seal.

The flat panel detector is an X-ray image detector of a semiconductor flat panel, which is usually an X-ray conversion film for converting X-rays into light, a photodiode array arranged directly below the X-ray conversion film, and each photodiode. An indirect method of a type which is composed of switching elements connected to an array, and after X-ray irradiation, sequentially turns on each switching element to read out signal charges accumulated in each pixel to form an X-ray image. And a radiation sensor array consisting of a conversion film that is sensitive to radiation and directly outputs a charge signal corresponding to the incident dose.Switching elements are connected to the electrodes arranged in a matrix immediately below the radiation sensor array. By directly turning on the switching elements, the signal charge accumulated in each pixel is read out to form an X-ray image, which is a direct method. There is a kind of thing.

FIG. 3 shows the FPD5 of the latter direct method.
The circuit configuration is shown. a-Se, PbI _Two, CdTe film, etc.
When the conversion layer 11 is irradiated with radiation, the conversion layer 11
Electric charges (electrons-holes) are generated. Conversion layer 11 and charge storage
The capacitor 12 has a structure in which it is electrically connected in series.
Therefore, a voltage is applied to the common electrode above the conversion layer 11.
Then, the charges (electrons-holes) generated in the conversion layer 11 become
Move to the + electrode side and − electrode side respectively, and as a result, charge storage capacity
The charge is accumulated in the quantity 12. And the same active
A sensor provided on the matrix substrate 19 (or outside)
The input signal of the gate line 14 from the gate drive circuit 16 is
It is input to the gate G of the TFT of the switching element 13, and T
The FT is opened and stored in the charge storage capacitor 12.
The generated charge is extracted from the source S to the drain D, and
The same active matrix substrate 1 by the data line 15
9 (or external) provided in the signal read circuit 17
Be kicked out. Electrode arrangement of gate line 14 and data line 15
Line, switching element 13 thin film transistor (TF
T), the charge storage capacitors 12, etc. are arranged in an XY matrix.
Since it is provided in the pixel area 18, the gate of the TFT
The signal input to G is sequentially scanned from the gate line 14.
Therefore, the image information of the X-ray is two-dimensionally transmitted from the data line 15.
You can get it.

The control device 7 includes the signal reading circuit 1 of the FPD 5.
Signals from 7 to each pixel in the pixel region 18 are input via the cable 6, and an X-ray image is formed in synchronization with the gate drive signal from the gate drive circuit 16. The input / output display device 8 receives the X-ray image signal from the control device 7 and displays the X-ray image on the monitor.
Line images can be displayed. In addition, from the keyboard, etc., the name of the subject 2, the ID number, the imaging date, the imaging conditions,
An imaged region, diagnostic information, etc. can be input, and the imaged image can be displayed and recorded by being superimposed on the imaged X-ray image. You can also create a chart at the same time. Further, the input / output display device 8 is provided with a storage device, the captured X-ray images can be classified and data can be stored, and image data obtained by follow-up observation can be compared.

Next, the handling of the FPD 5 of the present dental X-ray imaging apparatus will be described. FIG. 4 shows a state in which the FPD 5 is set on the back surface of the tooth / peripheral tissue 3 and X-rays are input from the outside to perform fluoroscopy / imaging. This state is shown in FIG.
Same as the isometric imaging method shown in Fig.
An image in the lengthwise direction of the tooth becomes a real object by making an X-ray incident perpendicularly to the bisector of the angle formed by the FPD 5 placed along the peripheral tissue 3 and the tooth axis center line. It is possible to perform fluoroscopy / photographing in almost the same state. Also,
A blade corresponding to the blade 9b shown in FIG. 6 (b) is attached to the incident surface side of the case 21, and the blade is occluded so that the FPD 5 side is located at the back side position of the tooth / peripheral tissue 3 in the oral cavity. The FPD 5 can simultaneously see through and photograph the teeth of. Further, the FPD 5 is held in a state in which it is slightly occluded by the upper and lower jaws of the tooth / peripheral tissue 3 to be imaged, and the X is perpendicular to the FPD 5.
By irradiating a line, it is possible to perform fluoroscopy / imaging by the occlusal method.

In the above-mentioned embodiment, the signal is output from the FPD 5 through the cable 6, but by providing the FPD 5 with a wireless transmission / reception means, a wireless system can be realized, and the cable does not hinder radiography, so that the patient can No more discomfort with. In this case, the driving power source is stored in the case 21 of the FPD 5. It is also possible to integrate the controller (not shown) of the X-ray tube 1 and the controller 7 of the FPD 5 into one.

[0021]

The dental X-ray radiographing apparatus according to the present invention is constructed as described above, and is a small X-ray image detector F in the oral cavity.
The PD can be inserted in place of the conventional film and irradiated with X-rays from the outside of the mouth to perform fluoroscopic imaging.
Therefore, since it is possible to perform X-ray fluoroscopy in advance before imaging and confirm the tooth / surrounding tissue of the imaging site before imaging, it is possible to accurately capture the imaging site and not fail.
Further, unlike the conventional case, it is possible to quickly display the X-ray image on the monitor without requiring the troublesome work such as the film developing process, and to store the X-ray image in the storage device. Then, it is possible to quickly read out and compare the previous data and perform follow-up observation. Further, by wirelessly transmitting and receiving signals, it is possible to reduce the feeling of foreign matter in the oral cavity of the patient, and it is possible to perform X-ray imaging with less discomfort.

[Brief description of drawings]

FIG. 1 is a diagram showing an embodiment of a dental X-ray imaging apparatus of the present invention.

FIG. 2 is a diagram showing an external appearance of a dental X-ray imaging apparatus of the present invention.

FIG. 3 is a diagram showing a circuit of an FPD of the dental X-ray imaging apparatus of the present invention.

FIG. 4 is a diagram showing the operation of the FPD of the dental X-ray imaging apparatus of the present invention.

FIG. 5 is a diagram showing conventional dental X-ray photography.

FIG. 6 is a view showing a method of photographing a tooth / surrounding tissue using a conventional film.

FIG. 7 is a diagram showing a sensor unit of a dental X-ray imaging apparatus using a CCD sensor and an imaging plate.

FIG. 8 is a diagram showing the principle of pantomography.

[Explanation of symbols]

1 ... X-ray tube 2 ... Examinee 3 ... Tooth / peripheral tissue 4 ... Chair 5 ... FPD 6 ... Cable 7 ... Control device 8 ... Input / output display device 9 ... Film 9a ... Dental film 9b ... Tsubasa 9c ... occlusal film 9d ... film 11 ... conversion layer 12 ... Charge storage capacity 13 ... Switching element 14 ... Gate line 15 ... Data line 16 ... Gate drive circuit 17 ... Signal readout circuit 18 ... Pixel area 19 ... Active matrix substrate 21 ... Case 22 ... CCD sensor section 23 ... Base part 24 ... Light shielding plate 24a ... protective plate 25, 25a ... Case 26 ... Imaging plate

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Masahiro Kono             1st Nishinokyo Kuwabara-cho, Nakagyo-ku, Kyoto City Stock Association             Inside the Shimadzu factory (72) Inventor Isao Nakata             1st Nishinokyo Kuwabara-cho, Nakagyo-ku, Kyoto City Stock Association             Inside the Shimadzu factory (72) Inventor Hiroshi Miyata             1st Nishinokyo Kuwabara-cho, Nakagyo-ku, Kyoto City Stock Association             Inside the Shimadzu factory (72) Inventor Katsunori Yuan             1st Nishinokyo Kuwabara-cho, Nakagyo-ku, Kyoto City Stock Association             Inside the Shimadzu factory F term (reference) 2G088 EE01 FF02 GG19 GG20 GG21                       JJ05 JJ09 KK20 KK32                 4C093 AA01 CA16 DA05 EB12 EB13                       EB17 FH06 FH10                 5C024 AX11 GX07 GY31

Claims (2)

[Claims] 1. A dental X-ray imaging apparatus having a small X-ray image detector that is inserted into the oral cavity and detects X-rays emitted from the outside of the mouth, and a flat solid-state detection element for the X-ray image detector. A dental X-ray imaging apparatus using a flat panel detector including an array. 2. The dental X-ray imaging apparatus according to claim 1, wherein the flat panel detector includes a wireless transmitting / receiving unit.