KR20130084800A - Method of making abutment used in dental implant - Google Patents

Abstract

PURPOSE: An implant abutment is made using a virtual model without gypsum. CONSTITUTION: A producing method of an implant abutment (30) comprises the first step of forming 3-dimentional image (37_ by obtaining oral cavity information through a scan of the implant fixture, the second step of forming a virtual model (53) corresponding the oral cavity from the 3-dimentional image, and the third step of designing the implant abutment from the virtual model. The virtual model of the third step comprise a virtual implant analogue (15). The scan of the first step is performed in the state of scan coating located on the implant fixture. The 3-dimentional image of the first step is formed by scanning the oral cavity with the implant fixture located.

Description

How to make an implant abutment {METHOD OF MAKING ABUTMENT USED IN DENTAL IMPLANT}

The present disclosure relates generally to a method of making an implant abutment, and more particularly to a method of making an implant abutment without a model made from gypsum.

Herein, the background art relating to the present disclosure is provided, and these are not necessarily meant to be known arts.

1 is a view showing an example of an implant, the implant is coupled to the implant fixture (10; Implant Fixture), the prosthesis (20; Prosthesis) and the implant fixture (10) fixed to the bone to support the prosthesis (20) Abutment (30) is included. The abutment 30 is fixed to the implant fixture 10 by a screw 32 in a state in which the connecting portion 31 is inserted into the implant fixture 10.

2 is a view showing an example of a method for manufacturing a prosthesis in the related art. First, in the state in which the abutment 30 is coupled to the implant fixture 10, the impression is taken using the impression material 40. Impression acquisition includes impression acquisition of the surrounding tooth 60.

Next, after the abutment analog 33 is inserted into the obtained impression body 41, a plaster gypsum is floated. After the plaster is hardened, the impression body 41 is removed to obtain a model 50 having the abutment analog 33 fixed thereto.

The prosthesis 30 is designed and manufactured on the obtained model 60.

3 is a view showing another example of a method for manufacturing a prosthesis in the related art. After a certain period of time after implantation of an implant fixture, a healing abutment 34 is removed to expose the implant fixture 10. Impression Coping (35) is inserted into the.

Next, the impression body 41 is obtained through the impression taking, and the implant analog 11 having the same shape as the implant fixture 10 is positioned through the impression coping 35.

Next, the model 50 is made of plaster. In the model 50, the implant analog 11 corresponding to the actual implant fixture 10 is fixed. When the impression coping 35 is removed, the model 50 can be used to design the abutment or the prosthesis. have.

The conventional abutment design / manufacturing and / or prosthesis design / manufacturing requires a gypsum mockup 50, but errors due to cure expansion of gypsum, time consuming due to cure swelling, and mockup 50 There are a number of problems such as locational constraints to move to butt and / or prosthetic fabrications, and fear of model 50 breakage.

This will be described later in the Specification for Implementation of the Invention.

SUMMARY OF THE INVENTION Herein, a general summary of the present disclosure is provided, which should not be construed as limiting the scope of the present disclosure. of its features).

According to one aspect of the present disclosure (According to one aspect of the present disclosure), a method of making an implant abutment, comprising: obtaining a three-dimensional image by acquiring information of an oral cavity in which an implant fixture is located by scanning; Stage 1; A second step of forming a virtual model corresponding to the shape of the oral cavity from the three-dimensional image; And, a third step of designing the implant abutment on the virtual model; there is provided a method of making an implant abutment.

This will be described later in the Specification for Implementation of the Invention.

1 is a view showing an example of an implant,
2 is a view showing an example of a method for manufacturing a prosthesis in the related art;
3 is a view showing another example of the conventional method for producing a prosthesis,
4 and 6 are views showing an example of making an implant abutment according to the present disclosure,
7 illustrates another example of designing an implant abutment in accordance with the present disclosure;
8 and 9 illustrate another example of designing an implant abutment in accordance with the present disclosure.

The present disclosure will now be described in detail with reference to the accompanying drawing (s).

4 and 6 are views illustrating an example of making an implant abutment according to the present disclosure. Referring first to FIG. 4, an impression acquisition using an impression material 40 is performed, through which an impression body 41 is formed. Obtained. In this case, the scan coping 36 may be used. Preferably, the scan coping 36 is made of a material (eg, plastic such as POM, PEEK, PC, etc.) in which light is not reflected or minimized. This is for accurate recognition of the scan coping 36 because the scan coping 36 may not be easy to recognize the scan coping 36 in the scan process described below when the scan coping 36 is a metal material. Reference numerals are implant fixtures 10 and teeth 60.

Next, the obtained impression 41 is scanned through the scanner 71 connected to the computer 70 with the scan coping 36 inserted therein, and thus the surface of the impression 41 and the scan coping 36. A three-dimensional image 37 (see Fig. 5) having information is formed.

Next, referring to FIG. 5, a virtual model 53 for designing the abutment 30 using the three-dimensional image 37 is formed on a computer. As in FIG. 3, when the design of the abutment 30 is made on the model 50 using the gypsum bone, the implant analog 11 is already provided in the model 50, but in the case of the present disclosure, the gypsum Since the model 50 using the bone is not manufactured separately, it is necessary to introduce the virtual implant analog 15 corresponding to the actual implant fixture 10 or the implant analog 11 in the virtual model 53.

To this end, information about the implant analog 11 is added to the virtual model 53. The addition of information on the implant analog 11 may be made in the process of making the virtual model 53 from the three-dimensional image 37, or after the virtual model 53 is made from the three-dimensional image 37. At this time, in order for the implant analog 11 corresponding to the implant implant 10 actually placed to be used, information about the implant fixture 10 is required, which can be secured in the process of implantation, and if necessary, It may be obtained by investigating. It can also be viewed on a computer by using scan coping 36 corresponding to a particular implant fixture 10. The virtual implant analog 15 may be easily applied to the virtual model 53 by having various models in the computer and selecting the image according to the implant fixture 10 or the implant analog 11.

Next, the abutment 30 is designed. Meanwhile, the design of the prosthesis 30 may precede the design of the abutment 30. In this case, there is an advantage in that the degree of freedom in designing the prosthesis 30 is increased.

Finally, as shown in FIG. 6, the information about the designed abutment 30 is sent to the machining equipment 80 to cut the abutment 30. Preferably, the machining part of the abutment 30 can be reduced by using the blank in which the connecting portion 31 corresponding to the shape of the implant fixture 10 is already shaped. The material of the blank may be Titanium, Titanium Alloy, Co-Cr Alloy, Sintered Zirconia, Green stage Sintered Zirconia, Tilite Alloy, Ni-Cr Alloy.

FIG. 7 is a view illustrating another example of designing an implant abutment according to the present disclosure. Unlike the example illustrated in FIG. 4, the process of forming the model 50 is performed without forming the impression body 41. That is, the three-dimensional image 37 is made by scanning the oral cavity using the scanner 72 connected to the computer 70. The process after the three-dimensional image 37 is obtained in the same manner as the example shown in FIGS. Reference numerals are scan coping 36 and tooth 60.

8 and 9 illustrate another example of designing an implant abutment according to the present disclosure. As shown in FIG. 8, unlike FIG. 4, the impression body 41 in which the scan coping 36 is removed is shown in FIG. 8 and FIG. Scanning is also done. Information on the shape of the scan coping 36 is obtained from the three-dimensional image thus obtained. As shown in FIG. 9, the virtual model 53 may be created by including the shape of the scan coping 36 thus obtained. The shape of this scan coping 36 is called a virtual implant abutment 31. The shape of the virtual implant abutment 31 thus formed may function as a reference line or a guideline of the abutment 30 to be designed later, and further facilitate the design of the abutment 30. The virtual implant abutment 31 does not necessarily need to be obtained from the impression body 41, but when acquired from the impression body 41, the shape of the scan coping 36 can be reflected as it is. This is advantageous if the scan coping 36 is already to some extent in the shape of the final abutment 30, although not precisely. It is also advantageous to use scan coping 36 as an upper limit of the size of abutment 30 to be finally designed.

Various embodiments of the present disclosure will be described below.

(1) a fourth step of processing the implant abutment using the designed abutment information; and a method for making an implant abutment. By performing machining using CAD / CAM, it is possible to precisely shape the implant abutment designed on a computer.

(2) In a third step, a method for making an implant abutment, characterized in that the virtual model comprises a virtual implant analog. This enables the design of implant abutments without the need for gypsum.

(3) A method of making an implant abutment in a first step, wherein the scan is performed while the scan coping is located in the implant fixture.

(4) In a first step, a three-dimensional image is formed by scanning an impression containing information of the oral cavity in which the implant fixture is located.

(5) In the first step, a three-dimensional image is formed by directly scanning the oral cavity in which the implant fixture is located, wherein the implant abutment is made.

(6) Prior to the third step, a method of making an implant abutment comprising the process of designing a tooth.

(7) In a fourth step, a method for making an implant abutment characterized in that the implant abutment is processed using a blank in which the connecting portion coupled to the implant fixture is shaped.

(8) In a third step, the virtual model comprises a virtual implant abutment.

(9) In the third step, the virtual model is provided with a virtual implant analog and a virtual implant abutment, wherein the virtual model is a three-dimensional image obtained from an impression body having scan coping and a three-dimensional image obtained from a scan cope removed. A method of making an implant abutment, characterized in that it is obtained from an image.

According to the method for making one implant abutment according to the present disclosure, it is possible to make an implant abutment using a virtual model.

In addition, according to the method of making another implant abutment according to the present disclosure, it is possible to create a custom implant abutment using a virtual model.

In addition, according to the method of making another implant abutment according to the present disclosure, it is possible to make the implant abutment without gypsum.

Virtual implant abutment (31) Impression body (41)

Claims (10)

In the method of making an implant abutment,
A first step of obtaining information of an oral cavity in which an implant fixture is located by scanning to form a three-dimensional image;
A second step of forming a virtual model corresponding to the shape of the oral cavity from the three-dimensional image; And,
And a third step of designing the implant abutment on the virtual model. The method according to claim 1,
And a fourth step of processing the implant abutment using the designed abutment information. Claim 1
In a third step, the virtual model comprises a virtual implant analog. The method according to claim 1,
In a first step, a scan is performed with a scan coping positioned in an implant fixture. The method according to claim 1,
In a first step, a three-dimensional image is formed by scanning an impression containing information of the oral cavity in which the implant fixture is located. The method according to claim 1,
In a first step, the three-dimensional image is formed by directly scanning the oral cavity in which the implant fixture is located. The method according to claim 1,
Prior to the third step, a method of making an implant abutment comprising the process of designing a tooth. The method according to claim 2,
In a fourth step, a method for making an implant abutment, characterized in that for processing the implant abutment using a blank in which the connection portion is coupled to the implant fixture. The method according to claim 1,
In a third step, the virtual model comprises a virtual implant abutment. The method according to claim 1,
In a third step, the virtual model has a virtual implant analog and a virtual implant abutment,
And a virtual model is obtained from a three-dimensional image obtained from an impression body having scan coping and a three-dimensional image obtained from an impression body from which scan coping has been removed.

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