KR101528032B1 - Transmucosal implant guide for flapless implant surgery - Google Patents

Abstract

The present invention relates to an implant guide for guiding a drilling position, a drilling direction and a depth in a dental implant treatment, wherein a lower end of a sleeve for guiding a drill's entry direction and depth is provided with a mucosal tissue and a part of the alveolar bone The present invention relates to a mucosal penetration type implant guide capable of coping with a flapless implant surgery in which the overall height of the implant guide is made to be low so that the drilling operation can be easily performed and the incision of the mucosal tissue is not required.

Description

[0001] The present invention relates to a transmucosal implant guide for flapless implant surgery,

The present invention relates to an implant guide for guiding a drilling position, a drilling direction, and a depth in a dental implant treatment, wherein the lower end of the sleeve, which is provided in the implant guide and guides the depth and depth of the drill, Through a part of the implant guide, thereby lowering the overall height of the implant guide to facilitate the drilling operation, and to cope with flapless implant surgery that does not require the incision of the mucosal tissue. .

In the implant procedure, a drilling operation is performed to drill a hole into which the fixture is to be inserted into the alveolar bone. At this time, the specific procedure for placing the implant is different from patient to patient, and it is necessary to determine the position, depth and direction of implant placement considering various factors such as the state of the patient's teeth, the position of the damaged tooth or the damaged bone, .

Therefore, the perforation position, the insertion direction, and the depth at the time of implantation, which are customized to individual patients, are characterized by the fact that it is difficult to carry out the standard method determined by any one of them.

Because of these characteristics, drilling of alveolar bone, which should be performed by a customized and optimized plan for each individual patient, is not easy for beginners as well as for experienced users.

Because the implant is not implanted directly with the bone during implantation, there is a difficulty in positioning, direction, and depth. First, it is difficult to find the exact placement position in the oral cavity. When placed in the wrong position, the adjacent tooth root is damaged or cantilevered, resulting in more than necessary torque on the prosthesis. And it is difficult to set the exact orientation of the implant in the oral cavity. If placed in the wrong direction, a portion of the fixture may puncture the cortical bone, and mechanically excessive torque may be applied to the prosthesis. Finally, it is difficult to determine the depth of the implant because the bone can not be seen directly. Exceeding the predetermined depth may damage the nerve in the alveolar bone. On the other hand, when the drilling operation is completed before reaching the predetermined depth, the depth of the drilled groove is shallow, and an excessive force is required to fix the fixture, so that the thread around the groove may be damaged and the fixture can not be fixed perfectly It may happen that re-operation is needed later.

An auxiliary device called a dental jig for precision guided surgery was developed to induce various tools including a drill at a precise position, direction and depth to perform the drilling operation to alleviate the difficulty of the alveolar bone perforation One of these aids is the Implant Guide.

The implant guide establishes the implant procedure information based on the anatomical three-dimensional oral structure data of the client and combines the established implant procedure information with the three-dimensional oral structure data to form a fixed template having holes. And a hollow cylindrical sleeve capable of guiding the drill is inserted into the hole.

The circular template of the fixed template can be made after the template is filled with the template by the client, or it can be made directly from the anatomical three-dimensional structure data of the client using the rapid prototyping (RP) technique. If a hole is formed on the circular template of the fixed template based on the implant operation information related to the drilling operation and the sleeve is mounted, the drill can be guided accordingly.

An example of such an implant guide is Korean Patent No. 10-1250493 entitled " Implant placement apparatus and method of implant treatment using the same. &Quot;

These conventional implant guides are used in flapless implant surgery in which implants are implanted without cutting the gums (gums). Recent studies have shown that the flapless implant procedure is beneficial for the preservation of the soft tissue around the implant and for the early prognosis of the implant. And contributes to improving the precision of the drilling operation in the implant operation. However, some limitations were revealed.

In such a problem, the space (height) in which the drill can enter by the height of the implant guide is reduced. Since the amount of the mouth of the recipient can be limited, in particular, when performing the implant treatment of the molar portion inside the oral cavity, This is a very complicated problem. In addition, some implant guides affect the precision of the drilling operation by oscillating the implant guide while the gingiva is pushed during the unthinned implant procedure.

Korean Patent No. 10-1250493

An object of the present invention is to provide an implant guide capable of minimizing the overall height of rm so that drilling during implant treatment can be easily performed.

It is still another object of the present invention to provide an implant guide suitable for a flapless implant procedure for performing an implant without cutting the gingiva.

The present invention relates to a fixation template which is temporarily fixed in the mouth of a patient to guide the drilling position, the insertion direction and the depth of the drilling operation for implantation, and a hollow cylindrical sleeve fixed to the hole formed in the fixation template to guide the drill Wherein a plurality of stepped portions are formed on an outer circumferential surface of the sleeve, and a lowermost stepped portion penetrates a part of the alveolar bone tissue and the alveolar bone of the in-vivo tissue of the recipient.

In the embodiment of the present invention, the plurality of stepped portions form a step formed outside the upper surface of the hole formed in the fixed template and have a first step exposed, a second step extended from the first step and in contact with the inner circumferential surface of the hole, and And a third step extending from the second step and exposed to the outside of the hole.

Here, the plurality of stepped portions have the same inner diameters, and their outer diameters are reduced in the order of the first step to the third step.

The hole formed in the fixed template and the second step may be fixed by interference fit.

The outer diameter of the third step is preferably smaller than the outer diameter of the implant fixture to be embedded.

The mucosal penetration type implant guide according to the present invention is configured such that the stepped portion at the lowermost end of the sleeve penetrates a mucosal tissue and a part of the alveolar bone in the intraoral tissue of the recipient so that the height of the sleeve protruding outward can be made low, Since the fixation force is generated even at the lowermost end, the thickness of the fixed template itself can be reduced, thereby minimizing the overall height of the implant guide, thereby facilitating drilling.

In addition, since the sleeve penetrates the mucous membrane, the mucosal penetration type implant guide of the present invention can protect the mucosal tissue against the drill rotating at high speed during drilling, and thus the heat generated during the drilling operation is transmitted to the mucosa It is possible to effectively cope with the flapless implant procedure.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing the overall configuration of a mucosal penetration type implant guide according to the present invention. FIG.
Figure 2 is a view along the section "AA" of Figure 1;

Hereinafter, preferred embodiments of the mucosal penetration type implant guide 10 according to the present invention will be described in detail with reference to the accompanying drawings. The present invention is not limited to the embodiments described below, but may be implemented in various other forms, and the present embodiment is not intended to be exhaustive or to limit the scope of the present invention to those skilled in the art. .

FIG. 1 is a view showing the overall structure of a mucosal penetration type implant guide 10 according to the present invention, and the present invention will be described in detail with reference to FIG.

The present invention relates to an implant guide (10) for guiding a drilling position, a placement direction, and a depth of a drilling operation for an implant procedure. The structure includes a fixed template (100) temporarily fixed in the mouth of the patient, And a hollow cylindrical sleeve 200 fixed to the hole 110 formed in the template 100 to guide the drill.

Herein, the circular shape of the fixed template 100 is formed by burying the template containing the impression material by the operator and filling the template with gypsum or another resin to produce an impression model of the anatomical three-dimensional oral structure of the client, The resin may be applied to the impression model at an appropriate thickness and cured.

Alternatively, the original shape of the fixed template 100 may be formed directly from the anatomical three-dimensional structure data of the subject acquired using a three-dimensional scanning device such as a computed tomography (CT) by using a rapid prototyping (RP) technique , It is also possible to manufacture them using a three-dimensional printer, which is currently in the spotlight.

When the fixed template 100 is manufactured in this manner, the anatomical three-dimensional structure of the complicated physician is reproduced intact on the bottom surface of the fixed template 100. The bottom surface of the fixed template 100 is located on the lingual side of the tooth T The buccal side, and the gingiva.

Here, although the fixed template 100 of FIG. 1 is shown in a shape that wraps around the entire horseshoe-like arch, this is only an example, and if a sufficient fixing force can be ensured, some teeth T of the stationary template 100 having a short circular arc shape.

The circular template of the fixed template 100 forms a hole 110 as a planned position and angle based on the implant operation information related to the drilling operation. By mounting the sleeve 200 in the hole 110 thus formed, The guide 10 is completed.

When the drilling operation is performed by inserting the drill into the hollow portion, the inner circumferential surface of the hollow portion of the sleeve 200 contacts the outer circumferential surface of the drill 200 So that it is possible to guide the proceeding direction of the drill.

The implant guide according to the present invention is particularly characterized in that it is a mucosal penetration type implant guide 10. This is because a plurality of stepped portions 210 are formed on the outer circumferential surface of the sleeve 200 mounted on the fixed template 100 , And the lowermost stepped portion penetrates the mucosal tissues (M) and the alveolar bone (A) in the intraoral tissue of the subject.

When the lowermost stepped portion of the sleeve 200 penetrates a part of the mucosal tissues M and the alveolar bone A as described above, the height of the sleeve 200 protruding to the outside can be made low, It is possible to reduce the thickness of the fixed template 100 itself, and thus the overall height of the implant guide can be reduced.

Therefore, the mucosal penetration type implant guide 10 according to the present invention has an advantage in that drilling operation is considerably facilitated even when implanting the molar in the molar inside the oral cavity because a sufficient space for the drill to enter can be secured.

In addition, since the sleeve 200 penetrates the mucous membrane, the mucosal penetration type implant guide 10 of the present invention also blocks the mucosal tissues M against drills rotating at a high speed during drilling.

Therefore, the mucosal penetration type implant guide 10 according to the present invention can prevent the heat generated during the drilling operation by causing the mucosal tissue (gingiva) to rock the implant guide 10 during drilling operation as in the conventional implant guide, It is possible to effectively cope with flapless implant surgery in particular.

A detailed structure of the sleeve 200 applied to the mucosal penetration type implant guide 10 of the present invention having the above functions will be described with reference to FIGS. 1 and 2. FIG.

As described above, the sleeve 200 mounted on the hole 110 of the fixed template 100 has a plurality of stepped portions 210 formed on the outer circumferential surface thereof, while the lowermost stepped portion has the mucosal tissues M of the subject and the alveolar bone M, (A). In the embodiment of the present invention, the plurality of stepped portions 210 include three stepped portions.

That is, the three steps form a step outside the upper surface of the hole 110 formed in the fixed template 100, and the first step 211, which is exposed from the first step 211, A second step 212 contacting the inner circumferential surface and a third step 213 extending from the second step 212 and exposed from the lower surface of the hole 110. [

The plurality of stepped portions 210 have the same inner diameters and their outer diameters are reduced in the order of the first step 211 to the third step 213.

Accordingly, since the first step 211 which is thickest is formed to be larger than the diameter of the hole 110, when the sleeve 200 is inserted into the hole 110 of the fixed template 100, And functions as a stopper to be set.

The second step 212, which is thicker than the second step 212, is a portion that is substantially equivalent to the length of the hole 110 of the fixed template 100 and is in contact with the inner circumferential surface of the hole 110, (212) serves to provide a force to keep the sleeve (200) from moving relative to the fixed template (100). It is also possible to apply a known constitution, for example, a screw or groove connection, which can generate a clamping force, in connection with the inner surface of the fixed template 100 hole 110 and the second step 212, It is preferable that the template 100 is coupled in a tight fitting manner in which the thickness of the template 100 is reduced while no additional processing is required.

The third step 213 extends from the second step 212 to protrude outside the lower surface of the hole 110, that is, outside the bottom surface of the fixed template 100. Accordingly, The third step 213 is a part of the mucosal tissues M and the alveolar bone A of the recipient according to the length extending from the second step 212 as shown in Fig. Respectively.

In the embodiment of the present invention, the outer diameter of the third step 213 to penetrate a part of the alveolar bone A is formed to be smaller than the outer diameter of the implant fixture to be embedded. This is because the mucosal penetration type implant guide 10 ) Is smaller than the outer diameter of the implant fixture. This is advantageous in that the screw thread formed on the fixture secures sufficient bone-bonding force and contact area when the alveolar bone A is fixed while tapping.

On the other hand, the sleeve 200 having the above configuration can be made of titanium, zirconia, plastic material, and artificial bone. The production method uses injection molding or computer-aided design and manufacturing. The third step 213 can be made of a plastic material such as an engineering plastic having a strength enough to penetrate a part of the alveolar bone A.

As described above, the mucosal penetration type implant guide 10 according to the present invention has been described with reference to the drawings. However, the present invention is not limited to the embodiments and drawings disclosed in the present specification, It will be understood by those skilled in the art that various modifications may be made without departing from the scope of the present invention.

10: Mucosal penetration type implant guide 100: Fixed template
110: Hole 200: Sleeve
210: step portion 211: first step
212: second step 213: third step
T: Teeth M: Mucosal tissue
A: alveolar bone

Claims (5)

An implant comprising a fixed template temporarily fixed in the mouth of the subject and a hollow cylindrical sleeve fixed to the hole formed in the fixed template for guiding the drilling position, the insertion direction and the depth of the drilling operation for the implant operation, As for the guide,
Wherein the sleeve has a plurality of stepped portions formed on an outer circumferential surface thereof and the lowest stepped portion penetrates the mucosal tissues or the mucosal tissues and the alveolar bone of the in-vivo tissue of the recipient,
Wherein the plurality of stepped portions comprise:
A first step that forms a step outside the upper surface of the hole formed in the fixed template and is exposed;
A second step extending from the first step and in contact with the inner circumferential surface of the hole; And
And a third step extending from the second step and exposed from the bottom surface of the hole,
Wherein the hole formed in the fixed template and the second step are fixed by interference fit.
delete The method according to claim 1,
Wherein the plurality of stepped portions have the same inner diameters and the outer diameters thereof are reduced in the order of the first step to the third step.
delete The method of claim 3,
Wherein the outer diameter of the third step is smaller than the outer diameter of the implant fixture to be implanted.

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