JP2006020973A - Dental stent - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a dental stent capable of correctly transferring a three-dimensional position and the direction provided by an image diagnosis. <P>SOLUTION: This stent 1A is formed of a dental acrylic resin. The stent 1A has an upper plate 2 and a leg plate 3 respectively having a rectangular shape. The upper plate 2 and the leg plate 3 are orthogonally connected into L shape in a cross-sectional view. A horizontal line 5 and a vertical line 6 are drawn so as to extend over the upper plate 2 and the leg plate 3 and to be orthogonal to a connecting plate 4 of the upper plate 2 and the leg plate 3. The horizontal line 5 and the vertical line 6 have each a Roentgen contrasting property. This invention can accurately transfer a diagnostic result by associating a substantial image to orthogonal two planes 2 and 3 each having a rectangular shape. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a dental stent.

  In recent years, stereoscopic image diagnosis using medical three-dimensional image data taken by CT, MRI or the like has been utilized in clinical practice. For example, in a dental region, in an implantation process of an artificial tooth root (implant) into a jawbone, an implant position and an implant direction are diagnosed based on three-dimensional image data. This has been attracting attention as an effective technique because it was not possible with conventional two-dimensional diagnosis by X-ray photography.

By the way, generally, a dental stent is widely used to associate image information with an entity. The association between the image information and the entity by the stent is usually performed in the following procedure.
(1) Collect a dentition model from the entity.
(2) In the collected dentition model, for example, there is an implant planting site where teeth are missing. Therefore, an artificial tooth made of resin is installed at the tooth defect position. The installation position is a planned arrangement position of the artificial crown (superstructure, covering) that is finally covered as the superstructure after implant implantation.

(3) A stent is created in a state where the artificial teeth are arranged on the dentition model. With the created stent, the placement position of the artificial tooth can be positioned at a fixed position within the body oral cavity and on the model thereof with reproducibility.
(4) The prepared stent is attached to the body, for example, CT imaging is performed, image processing is performed on the obtained data, the positional relationship between the position of the artificial tooth specified by the stent and the surrounding jaw bone, and the intra-maxillary condition Determine the implant placement position and orientation.

(5) At this time, since the acrylic resin, which is the material of the stent, has a low CT value, it can be displayed on the CT image together with the gums, etc., but in order to clearly display the teeth and bones, if the CT value is increased, It may disappear from the image.
JP-A-8-80306 Special table 2003-516168

The stent has an important role in associating the entity with the image information and in implanting the implant.
However, the conventional stent has a problem that a diagnosis result based on image information cannot be accurately transferred.
For example, as described above, even if the stent in which the artificial tooth is positioned on the dentition model is attached to the substance and the implanting direction and position of the implant are diagnosed on the image information obtained by CT imaging, The diagnosed planting position and planting direction could not be accurately transferred to the stent. This is because the conventional stent has an arbitrary shape, not a regular surface. For this reason, it is difficult to accurately transfer, for example, a straight line representing a direction displayed on the image onto the stent surface.

The present invention has been made based on such a background, and it is a main object of the present invention to provide a dental stent capable of correctly transcribing the three-dimensional position and orientation obtained by image diagnosis.
Another object of the present invention is to provide a dental stent in which an entity and image information can be accurately and easily correlated.

The invention according to claim 1 is a dental stent which is made of resin and has at least two orthogonal planes each having a rectangular shape.
The invention according to claim 2 is characterized in that at least two planes, which are made of resin and pre-standardized in size and shape for facilitating the association with an image, are provided so as to be orthogonal to each other. Stent.

The invention according to claim 3 is characterized in that, in the at least two planes orthogonal to each other, one plane can face the tooth planting direction and the other plane can face the tooth tip surface in parallel. The dental stent as described.
According to a fourth aspect of the present invention, at least two planes orthogonal to each other and formed in a resin and having a standardized size and shape, and one of the at least two planes in a partitioned region between the planes orthogonal to each other. The dental stent is characterized in that an artificial tooth having a contrast property is provided integrally so that the longitudinal axis of the tooth is along the plane of the tooth and the tip of the tooth faces the other plane.

The invention according to claim 5 has three orthogonal rectangular planes connected in a U-shaped cross-sectional view, and the teeth or jawbone portions can be covered by the three planes. Stent.
The invention according to claim 6 is characterized in that the resin includes a straight line having an X-ray contrast property extending over the two orthogonal planes or the three planes. A dental stent according to the above.

  A seventh aspect of the present invention is the dental stent according to any one of the first to sixth aspects, wherein a dental acrylic resin is used as the resin.

  According to the first and second aspects of the present invention, the dental stent is provided with at least two orthogonal planes, each of which is rectangular, or whose size and shape are standardized in advance. Therefore, by associating these two planes with the image of the entity, the position and direction (implant position and implantation direction) specified on the image can be accurately transferred on the two orthogonal planes of the stent. In other words, the stent has, for example, a rectangular outline and at least two planes orthogonal to each other. Therefore, these two planes are specified in the image, and the diagnosed implant is embedded in the two specified planes. You can post the entry direction and position. For example, when two orthogonal planes are squares each having a side of 10 mm, a square is also reflected on the image as a stent image. In addition, since the entity image is also displayed, if an arbitrary position is specified on the entity image and an arbitrary direction is specified, what kind of position and direction is relative to two square planes with a side of 10 mm? You can easily grasp whether they are in a relationship.

Therefore, after the diagnosis based on the image information, the position and direction obtained by the image diagnosis can be correctly transferred to the stent itself removed from the entity.
In this application, the “dental stent” is a concept including the above-described resin component consisting of only two orthogonal planes. That is, in the “dental stent” of the present invention, a mode in which only two orthogonal planes are formed, a mode in which a maintenance part and a mounting part are added to the teeth in addition to the two orthogonal planes, and further, they are orthogonal. Various modes such as a mode in which artificial teeth are provided in relation to the two planes and integrated with the two planes are included.

In the configuration of claim 3, the two orthogonal planes included in the stent are such that one plane can face the tooth setting direction and the other plane can be parallel to the distal end surface of the tooth. Since the positional relationship between the two planes and the two orthogonal planes of the stent is parallel or orthogonal, it is easy to transfer information obtained by image diagnosis to the stent.
In the configuration of claim 4, since the positional relationship between the two orthogonal planes and the artificial tooth is predetermined and includes the artificial tooth, it is possible to more easily transfer the result of the image diagnosis to the two planes. it can.

In the fifth aspect of the present invention, since there are three orthogonal planes connected in a U-shaped cross-sectional view, it is possible to more easily transfer diagnostic imaging information on the three orthogonal planes of the stent.
According to the sixth aspect of the present invention, the two planes or the three planes included in the stent include a straight line having an X-ray contrast property. Therefore, even if the CT value is changed to display an image showing teeth and jawbones, an X-ray contrasting straight line is displayed along with the images of teeth and bones even if the stent plane itself is not displayed. Accordingly, the association between the actual image information and the stent can be accurately performed regardless of the change of the CT value or the like.

  In the invention of claim 7, since the stent is made of a conventional dental acrylic resin, it is easy to manufacture and easy to handle.

1A and 1B are perspective views showing dental stents (resin guide plates) according to an embodiment of the present invention. As described above, in the present invention, the structure of the acrylic guide plates 1A and 1B alone shown in FIGS. 1A and 1B is also a form of a dental stent. However, in the description here, for convenience, Instead of calling it a stent, it will be called a guide plate.
First, referring to FIG. 1A, a guide plate 1A is a transparent plate-like acrylic plate having a predetermined thickness formed in an L-shape in cross section, and the upper plate 2 and the leg plate 3 are mutually connected. They are connected so as to be orthogonal. Each of the upper plate 2 and the leg plate 3 is a rectangular plate. A horizontal line 5 and a vertical line 6 are drawn so as to extend over the upper plate 2 and the leg plate 3 and to be orthogonal to the connecting portion 4 between the upper plate 2 and the leg plate 3.

  The entire guide plate 1A is formed of a transparent acrylic resin, and the horizontal line 5 and the vertical line 6 are drawn by an iodine-based contrast agent added to the acrylic resin. When the guide plate 1A is directly viewed, the horizontal line and the vertical line 6 drawn with the iodine-based contrast agent cannot be confirmed. Therefore, the horizontal line 5 and the vertical line 6 are drawn on the surface of the guide plate 1A with a paint or the like. Also good.

  The guide plate 1A has a standardized form and has a thickness of, for example, 1 to 1.5 mm. The size is, for example, a height H = 10 mm, a width H = 10 mm, and a depth D = 10 to 15 mm. is there. Thereby, it is the dimension which can be mounted | worn from the inside of the oral cavity of a substance (human body), or the teeth in a dentition model. FIG. 1B shows a U-shaped guide plate 1B, and the same components as those in FIG. 1A are denoted by the same reference numerals.

The guide plate may be L-shaped in cross-sectional view or U-shaped in cross-sectional view depending on the position of the tooth to be mounted. Both have the same configuration except for the difference between the L-shape and the U-shape.
In the guide plates 1A and 1B shown in FIGS. 1A and 1B, instead of drawing the horizontal line 5 and the vertical line 6 using an iodine-based contrast agent, the following may be performed. That is, only the horizontal line 5 and the vertical line 6 may be formed of an acrylic resin not added with an iodine-based contrast agent, and the remaining portion may be formed of an acrylic resin added with an iodine-based contrast agent. In this way, when the image data of the guide plate is obtained by CT imaging or the like, the entire guide plate has contrast, for example, appears whitish, and only the horizontal lines 5 and the vertical lines 6 become blackish images and the lines can be visually recognized. .

Further, in the above-described guide plates 1A and 1B, the horizontal line 5 and the vertical line 6 may be drawn using a metal such as aluminum instead of using the iodine-based contrast agent. That is, a horizontal line 5 and a vertical line 6 may be formed by arranging a metal line in the acrylic resin.
In the above-described configuration, the upper plate 2 and the leg plate 3 are not limited to rectangular plates, and may have a size and shape that are pre-standardized to facilitate association with an image. For example, the leg board 3 is good also as a triangular shape which makes the connection part 4 and one perpendicular to two sides.

Further, in the guide plates 1A and 2B, either or both of the horizontal line 5 and the vertical line 6 may be omitted.
2A, 2B, 2C, and 2D are a perspective view, a front view, a plan view, and a side view of a dental stent 20 according to another embodiment of the present invention.
As shown in FIG. 2, the dental stent 20 may have a configuration in which artificial teeth T having contrast properties are integrally provided inside. In FIG. 2, the hatched portion is an artificial tooth T having contrast properties, and the remaining white area is a guide portion having a standard dimension formed of, for example, acrylic resin. The guide portion has at least two planes 21 and 22 having a standardized size (for example, 10 mm × 10 mm) and a shape (for example, square). These planes 21 and 22 are planes orthogonal to each other, and form the front and top surfaces of the stent 20. Here, the vertical axis of the artificial tooth T is along the plane 22, and the tip side of the artificial tooth T faces the upper surface 21. The artificial tooth T is formed of, for example, an acrylic resin to which an iodine-based contrast agent is added. The artificial tooth T itself has contrast properties and is colored in an arbitrary color. On the other hand, the guide part is formed of a transparent dental acrylic resin. Therefore, the artificial tooth T is visible through the guide portion.

In this embodiment, the planes 21 and 22 of the guide portion serve as the upper plate 2 and the leg plate 3 of the embodiment shown in FIG. 1 described above, and the positional relationship between the guide planes 21 and 22 and the artificial teeth T is an image. A clear diagnosis can be made above.
3A and 3B are a plan view and a front view showing another embodiment of a dental stent. FIGS. 4A, 4B, and 4C are cross-sectional end views taken along lines AA, BB, and CC in FIG. 3B.

  The stent 9 is characterized by a hook plate that engages with teeth on both sides in addition to the guide plate portion 10 having a U-shaped cross-sectional view constituting the guide plate 1B described with reference to FIG. 11 and a covering portion 12 covering the tooth row and covering the tooth row are integrally provided. The configuration of the guide plate portion 10 is substantially the same as the configuration of the guide plate 1B described with reference to FIG. 1B, and there is no horizontal line 5 and no vertical line 6.

The shapes and dimensions of the hook part 11 and the covering part 12 are made in accordance with the individual tooth shape of the patient. That is, on the dentition model, the hook part 11 and the covering part 12 are made according to the dentition, and these are integrally connected to the guide plate part 10.
The guide plate part 10, the hook part 11, and the covering part 12 are all made of dental acrylic resin, and are easy to form and easy to handle.

The dental stent according to the present invention may be configured only by the guide plate portion 10 or may include various types of engagements including the guide plate portion 10 and formed on the guide plate portion 10 in accordance with the actual tooth arrangement or the like. The structure to which the parts 11, 12 etc. were attached may be sufficient. In short, it is only necessary to include a guide plate portion 10 having a rectangular shape and two or three orthogonal planes.
FIG. 5 is a plan view showing a state in which a dental stent 15 according to still another embodiment of the present invention is mounted on the substance, and FIG. 6 is a right side view thereof.

5 and 6, the tooth T is missing, and the tooth T shown in the figures is an artificial tooth.
FIG. 7 is a display example of image information obtained by CT imaging of the state of FIG. In the image information, when the CT value is increased, the teeth, artificial teeth T, and jawbone are displayed as shown in FIG. From this image, it can be diagnosed that the direction in which the implant for attaching the artificial tooth T is planted is not the vertically downward direction but the obliquely downward arrow A1 direction.

The diagnosis result thus diagnosed can be correctly transferred to the guide plate portion 10 of the stent 15. Because the outline of the stent 15 can be grasped on the image, it can be confirmed that the implant insertion direction A1 is 3 mm from the upper left end and 5 mm from the lower right end in relation to the guide plate 10.
Therefore, as shown in FIG. 8, the diagnosis result can be measured with respect to the guide plate portion 10 of the stent 15 removed from the entity, and the line A2 indicating the planting direction can be correctly transferred.

The present invention is not limited to the specific embodiments described above.
The present invention can be variously modified within the scope of the claims.

It is a perspective view which shows the dental stent (resin guide plate) which concerns on one Embodiment of this invention. It is a figure which shows the dental stent which concerns on other embodiment of this invention. It is the top view and front view which show other embodiment of a dental stent. FIG. 10 is a cut end view of yet another embodiment of a dental stent. It is a top view which shows the state with which the dental stent which concerns on other embodiment of this invention was mounted | worn on the substance. FIG. 5 is a right side view of the dental stent of FIG. 4. 6 is a display example of image information obtained by performing CT imaging of the state of FIG. It is a figure which shows the example of a straight line to the guide board part of a stent.

Explanation of symbols

1A, 1B Guide plate (dental stent)
2 Upper plate 3 Leg plate 4 Connection portion 5 Horizontal line 6 Vertical line 9, 15, 20 Dental stent 10 Guide plate portion 11 Hook portion 12 Covering portion 21, 22 Plane

Claims (7)

  A dental stent formed of a resin and having at least two orthogonal planes each having a rectangular shape.   A dental stent characterized in that at least two planes, which are formed of resin and pre-standardized in size and shape for facilitating association with an image, are provided so as to be orthogonal to each other.   The dental stent according to claim 1 or 2, wherein at least two planes orthogonal to each other are such that one plane faces a tooth setting direction and the other plane faces a tooth tip surface in parallel.   A longitudinal axis of a tooth is formed on one plane of the at least two planes in at least two planes orthogonal to each other and formed in a resin and having a standardized size and shape. A dental stent characterized in that a contrasting artificial tooth is integrally provided along the other plane so that the distal end side of the tooth faces the other plane.   3. The dental stent according to claim 1, wherein the dental stent has three rectangular planes connected in a U-shape in cross-section and can cover a tooth or a jaw bone portion by the three planes.   The dental stent according to any one of claims 1 to 5, wherein the resin includes a straight line having an X-ray contrast property extending over the two orthogonal planes or the three planes.   The dental stent according to any one of claims 1 to 6, wherein a dental acrylic resin is used as the resin.