KR100879777B1 - Implant for flapless or mini-flap techniques - Google Patents

Abstract

The present invention relates to an implant for flapless surgery or mini-flap surgery, more specifically in the flapless surgery or mini-flap surgery to implant the fixture of the implant directly into the alveolar bone between the minimally invasive gum without exposing the alveolar bone The present invention relates to an implant for flapless or miniflap surgery, which allows a separate discriminable scale to be mounted on the mount to allow the fixture to be placed in the alveolar bone at the correct depth.

To this end, the present invention in the implant for a flapless or mini-flap type, including a fixture having a screw hole on the upper surface and a mount fastened to the screw hole by a power tool, the outer surface of the mount In 1 to 2mm intervals are stamped in turn along the vertical direction in the desired section in, or in the outer diameter surface of the mount characterized in that the lamination applied in order to distinguish the 1 ~ 2mm thick lines along the up and down direction in the desired section To provide a flapless implant or a mini-flap implant.

 Implant, Fixture, Flapless, Miniflap, Alveolar bone, Threaded portion, Graduation, Line, Gum, Mount

Description

Implants for flapless or mini-flap techniques

The present invention relates to an implant for flapless surgery or mini-flap surgery, more specifically in the flapless surgery or mini-flap surgery to implant the fixture of the implant directly into the alveolar bone between the minimally invasive gum without exposing the alveolar bone The present invention relates to an implant for a flapless or miniflap technique that forms a separate discriminable scale on a mount coupled to a fixture so that the fixture can be implanted in the alveolar bone at a precise depth.

In general, dental implants include fixtures (= substructures) placed in the alveolar bone, abutments fastened to the fixtures, and artificial tooth-shaped prostheses that are mounted to the abutments. The main configuration includes a mount for placing the fixture and a cover screw for finishing the fixture as an auxiliary configuration.

On the upper surface of the fixture, a screw hole of a predetermined depth is finally formed to fasten the abutment. The screw hole is used to fasten the fixture used for implanting the fixture into the alveolar bone, and after the fixing of the fixture is completed, The cover screw is fastened to prevent foreign matter from penetrating, and after a certain period of time, an abutment for mounting an artificial crown is fastened.

Here, the implant procedure is briefly described as follows.

Implant treatment can be divided into flap surgery, flapless surgery or mini-flap surgery.

The flap technique is a method of widely incising the gums before placing a fixture in the alveolar bone to widen the flaps of the gum tissue together with the periosteum, as shown in FIG. 4. In the state in which the alveolar bone 400 is exposed to the outside, the implantation part 102 of the fixture 100 is implanted in the alveolar bone 400, the cover screw 112 is fastened to the upper portion of the fixture 100, and then the flap is attached. The primary surgery is completed by collecting and suturing again.

In this case, the cover screw 112 is a screw hole to prevent bacteria and foreign substances remaining in the oral cavity from entering the screw hole formed on the upper surface of the fixture while waiting for the fixture 100 to be bone-bonded to the alveolar bone 400. It is fastened to 110 and serves to close.

After the fixation and the cover screw, after the bone adhesion period of the fixture, open the gingiva through the second operation to remove the cover screw, and abutment to the screw hole formed on the upper part of the fixture. The implant procedure is completed by fastening the joint and mounting an artificial dental crown on it.

However, the flap surgical method makes an incision in the bone mucosa when placing the implant fixture, exposes the bone by exposing the flap, and particularly exposes the bone wide for proper visibility and proper access to the surgical site. There is a disadvantage that excessive incision of the gums, too much damage to the mucous membrane and periosteum when placing.

On the other hand, the flapless technique is to remove the gum to the extent that the implant can be inserted without making a flap and to implant the implant, and the mini-flap technique is to insert the implant. Implants are implanted by making minimal flaps that can be as large as possible. Both of these techniques involve implanting fixtures directly into the alveolar bone without exposing the alveolar bone.

In other words, the flapless or mini-flap technique only minimally incise the gums, but does not expose the alveolar bone to the outside as shown in FIG. It refers to a method of implanting directly in the glance, and the procedure is briefly described as follows.

First, with the gums in the least incised state, the mount 200 is mounted on the electric screwdriver 300 for the handpiece, and then the mount 200 is fastened to the screw hole 110 of the fixture 100. To drive the electric screwdriver 300 for the handpiece.

Thus, while the rotational force of the electric screwdriver 300 is transmitted to the fixture 100 through the mount 200, the fixture 100 is implanted into the alveolar bone.

More specifically, in the state in which the alveolar bone is covered by the gum and is not exposed, that is, the alveolar bone is not visible, the insertion part 102 of the fixture 100 is implanted in the alveolar bone 400 through the minimum incision of the gum. After removing the mount 200 from the screw hole 110 of the fixture 100 and then fastening the cover screw 112 to the screw hole 110 again, by sealing the minimum incision of the gum, The fixture 100 and the cover screw are covered by the gum 700 so as to be present in the gum.

At this time, care should be taken to prevent the exposure of the upper surface of the fixture in parallel with the surface of the alveolar bone, as disclosed in the contents already filed by the applicant (Patent Application No. 006-100103 (2006.10.16)). The reason is that it is possible to prevent the repetitive load on the fixture and the cover screw during the chewing of food, thereby preventing the loss of alveolar bone and the decrease of bone adhesion around the fixture, and thus the alveolar bone and the fixture Is more tightly coupled to shorten the bone adhesion period.

Here, the experimental results of the bone loss rate and bone adhesion rate between the fixture and the alveolar bone according to the flap and flapless formula or mini-flap formula as described above.

Two months after the flapless technique or the mini flap operation and the flap technique, micro-CT imaging was performed to compare the bone loss rates with each other. As shown in the image of FIG. 5B.

Figure 5a is a micro-CT image of the labyrinth, lingual, mesial side, distal side of the implant 2 months after flapless surgery or mini-flap surgery, Figure 5b is the labial, lingual, mesial of the implant 2 months after the flap surgery As a side and distal side micro-CT image, yellow is alveolar bone and gray is implant.

5A and 5B, it can be seen that the flapless surgery or the miniflap surgery performed less bone loss in all the lateral, lingual, mesial and distal sides of the implant than in the flap surgery. there was.

In addition, after the flap-less or mini-flap surgery and flap surgery, two months later, micro-CT was used to compare bone adhesion rates with each other. The results of the adhesion rates are shown in the images of FIGS. 6A and 6B. As shown.

FIG. 6A is a micro-CT image showing the labial, lingual, mesial and distal side bone adhesion sites of the implant 2 months after flapless surgery or miniflap surgery, and FIG. 6B is 2 months after flap surgery. Micro-CT images showing the labial, lingual, mesial and distal bone adhesion sites, with red representing the bone adhesion site and gray representing the implant.

6A and 6B, it can be seen that the flapless surgery or the miniflap surgery performed more bone adhesion in all the lateral, lingual, mesial and distal sides of the implant than in the flap surgery. there was.

As described above, the flapless or miniflap type is simpler than the flap type, which can reduce the burden and pain of the patient, and in particular, has a superior effect on bone loss and bone adhesion as well as postoperative bone density. This can be called.

However, the flapless or mini-flap formula, although more efficient and larger than the flap formula, has the following problems.

The flapless surgery or mini-flap surgery requires careful attention because the fixture of the implant is placed in a state where the alveolar bone is not exposed by minimally cutting the gum, that is, without directly viewing the alveolar bone.

In other words, in the case of flap implant implantation, the gum is widely incised to extrude the flap, which is composed of the gum tissue together with the periosteum, and the alveolar bone is well exposed to the outside. Or mini-flap surgery is difficult to implant the fixture of the implant to the alveolar bone in the alveolar bone because the inner alveolar bone is not visible as a minimum incision of the gum.

That is, as shown in Figure 3, while the rotational force of the electric screwdriver 300 is transmitted to the fixture 100 through the mount 200, the fixture 100 is implanted into the alveolar bone 400, the operator Since the alveolar bone 400 covered by the gum is not visible, it is difficult to accurately determine the depth of implantation of the fixture 100.

More specifically, as described above, it is most preferable to perform the procedure so that the upper surface of the fixture is parallel to the surface of the alveolar bone, and the fixture is placed in the alveolar bone while the rotational force of the electric screwdriver is transmitted to the mount. Since the process itself is to place the fixture in the alveolar bone in the state in which the alveolar bone is covered by the gum, as a result, the fixture 100 protrudes toward the gum from the surface of the alveolar bone 400 as shown in the last sequence diagram of FIG. Or implanted into the fixture 100 deeper into the interior of the alveolar bone 400 may be a problem that is not performed well parallel between the upper surface of the fixture and the surface of the alveolar bone.

In particular, since the thickness of the gum varies from person to person, it may be difficult to determine how deeply the fixture should be implanted in the state where the alveolar bone is covered by the gum and not exposed, and in this case, the fixture The upper surface of the do not parallel to the surface of the alveolar bone may be a problem that is incorrectly processed more.

As a result, if the upper surface of the fixture is not parallel to the surface of the alveolar bone, as described above, the repeated load during the chewing of the food acts on the fixture, resulting in the loss of the alveolar bone around the fixture and a decrease in the adhesion rate. have.

Thus, in flapless or mini-flap implants, it will be very important to place the implant at the correct depth so that the upper surface of the fixture is parallel to the surface of the alveolar bone.

The present invention has been made in view of the above, and in the flapless surgery or mini-flap implant implant procedure that is directly implanted into the alveolar bone without looking at the alveolar bone, the mount is fastened to the screw hole of the fixture By forming a separate scale or a certain thickness of lines that the operator can visually identify on the surface, when the rotational force of the electric screwdriver is transmitted to the fixture through the mount and the fixture is placed in the alveolar bone in the gum, By looking at the scale formed on the mount, it is easy to identify how much deeper the fixture should be placed outside the gum that has not yet been implanted, so that the implant fixture can be placed at the correct depth parallel to the surface of the alveolar bone. Implement for flapless or mini flap The purpose is to provide an agent.

One embodiment of the present invention for achieving the above object: for a flapless or mini-flap type, including a fixture having a screw hole on the upper surface, and a mount fastened to the screw hole to rotate by an electric tool In the implant, it provides an implant for a flapless surgery or mini-flap surgery, characterized in that the interval of 1 ~ 2mm intervals in the vertical direction in the desired section on the outer diameter surface of the mount is inscribed.

Another embodiment of the present invention for achieving the above object: for a flapless or mini-flap type, including a fixture having a screw hole on the upper surface, and a mount fastened to the screw hole to rotate by an electric tool In the implant, it provides an implant for a flapless surgery or a mini-flap surgery, characterized in that the lamination is applied in order to distinguish the line of 1 ~ 2mm thickness along the up and down direction in the desired section on the outer diameter surface of the mount.

Preferably, the 1 ~ 2mm intervals and the 1 ~ 2mm thickness lines are characterized in that formed in different colors for visual identification.

More preferably, the section in which the scale and lines are formed in the outer diameter section of the mount is characterized in that up to a point 2 ~ 7mm away from the lower end of the mount.

The present invention can provide the following effects through the problem solving means as described above.

According to the implant for a flapless surgery or mini-flap surgery according to the present invention, by forming a separate scale or a line of a certain thickness that can be visually identified by the operator on the surface of the mount fastened to the screw hole of the fixture, the operator Viewing the scale formed on the mount provides ease of procedure to easily identify how deeply the fixture outside the gum that has not yet been implanted.

Therefore, since the implant fixture can be implanted at an accurate depth parallel to the surface of the alveolar bone, the bone loss rate of the alveolar bone around the fixture can be reduced and the bone adhesion rate can be improved.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a side view illustrating an implant for flapless surgery or mini-flap surgery according to the present invention.

As described above, the dental implant has a fixture (= substructure) that is placed in the alveolar bone, an abutment (not shown) that is fastened to the fixture, and an actual tooth-shaped prosthesis that is mounted to the abutment ( And a mount for transmitting the rotational force of the electric screw drive when the fixture is placed, and a cover screw for closing the screw hole of the fixture.

The mount is also referred to in the art as an adapter or carrier, and in the present invention, the mount is referred to as a mount for unification of the term.

The attached fixture 100 shown in (a), (b), and (c) of FIG. 1 is a structure that can be used for flapless or miniflap surgery, and the outer surface thereof has a thread 106. Formed implantation portion 102: the portion to be implanted in the alveolar bone 400 is formed, the upper surface of the screw hole in which the mount, the cover screw is fastened in the fixation implantation process and finally the abutment is fastened (fixed in Figure 1) The chews are side views, so are not shown).

As another design form, a fixture already filed by the applicant of the present application (Patent Application No. 006-100103 (October 16, 2006)) can be used for flapless or miniflap surgery, and this fixture 100 As shown in (d) and (e) of FIG. 1, respectively, an implantation unit 102 having a thread 106 formed on an outer surface of the alveolar bone 400, and an upper surface of the implantation unit 102. The flat portion 108 formed to be parallel to the surface of the alveolar bone 400, the screw hole 110 penetrated therein from the surface of the flat portion 108, and the screw hole 110 so as to be completely embedded in the screw hole 110. Is inserted and fastened is configured to include a cover screw to be parallel to the surface of the alveolar bone 400 and the flat portion 108.

In this case, the fixture 100 illustrated in FIG. 1 is illustrated in a state in which the mount 200 is fastened to a screw hole formed to face inward from an upper surface thereof.

The present invention, when placing the implant fixture that can be used in the flapless surgery or mini-flap surgery as described above to the alveolar bone in the gum, it is easy to determine how deeper the implant should be implanted, finally the implant fixture to the alveolar bone The main point is to be able to be placed in parallel with the surface of the.

Looking at the implant structure of the present invention for this purpose is as follows.

As described above, a mechanism for transmitting the rotational force of the electric screwdriver to the fixture is called a mount 200. As shown in FIG. 1, the upper portion of the mount 200 has a head having a wrench groove (not shown). 202, and the lower portion is formed of a screw 204 inserted into and fastened to the screw hole 110 of the fixture 100.

That is, a wrench groove (not shown) is formed on an upper surface of the head portion 202 of the mount 200, and a screw portion 204 is formed downward from the point where the head portion 202 ends.

Accordingly, as shown in FIG. 2, the electric screwdriver 300 is fastened to the wrench groove of the mount 200, and the screw part 204 is fastened to the screw hole 110 of the fixture 100. will be.

Therefore, the rotational drive of the electric screw drive 300 is started and the mount 200 rotates, and the rotational force of the mount 200 is transmitted to the fixture 100 to fix the fixture for the alveolar bone 400 ( Placement of 100) is made.

As an embodiment according to the present invention, as shown in (a) to (d) of Figure 1, in the outer diameter surface of the mount 100 is fastened to the screw hole 110 of the fixture 100 In the desired section along the up and down direction marks 1 to 2mm intervals 500 in turn.

Of course, each scale 500 is to be stamped along the circumferential direction on the outer diameter surface of the mount 200 to be seen in the entire direction of the mount 200.

As another embodiment according to the present invention, as shown in Figure 1 (e) of the attachment, the up and down direction in the desired section in the outer diameter surface of the mount 200 is fastened to the screw hole 110 of the fixture 100 Along the 1 to 2mm thick line 600 is applied in order to be distinguished as if stacked.

Similarly, each line 600 is to be applied along its circumferential direction at the outer diameter surface of the mount 200 so that it can be seen from the entire direction of the mount 200.

At this time, in the procedure of placing the fixture 100 in the alveolar bone 400 through the minimally incised gum 700, the scale of the interval of 1 ~ 2mm formed on the mount 200 to increase the visual identification of the operator ( 500 and 1 to 2 mm thick lines 600 are preferably imprinted or applied in different colors.

In particular, a section in which the scale 500 or the line 600 is formed in the entire longitudinal length section of the outer diameter surface of the mount 200 is a point 2-7 mm upward from the lower end of the mount 200. It is preferable to set in the range of.

That is, the scale 500 is imprinted at intervals of 1 to 2 mm or the line 600 is applied at a thickness of 1 to 2 mm within a range of 2 to 7 mm above the lower end of the mount 200. The reason for this is that the thickness of the gum varies from person to person, but it is usually 2-3mm thick, rarely up to 7mm thick.

The reason why the scale 500 and the line 600 are formed in the range from the bottom end of the mount 200 to a point 2 to 7 mm apart from the lower end of the mount 200 will be more clearly understood through the procedure described below. .

Here, it will be described in order with reference to Figure 2 attached to the implant procedure is proceeding using the mount for the implant of the scale or line formed as described above as follows.

In order to facilitate understanding of the present invention, as shown in the fourth drawing of the flowchart of FIG. 2, a total of five 1 mm thick lines 600 different from each other to a 5 mm point from the bottom end of the mount 200 are different colors. It is assumed that it is formed while forming.

1. First, a partial anesthesia is performed using an anesthesia syringe at the site where the fixture 100 is to be placed in the patient.

2. Make a minimum incision of the gum 700 using a mass.

3. Open the minimally cut gums 700 to the diameter of the fixture 100 to form an inlet.

4. Measure gum thickness, or soft tissue thickness.

Since the thickness of the soft tissue is different for each person, first, the soft tissue thickness is measured by a soft tissue thickness measurement probe (periodontal probe), and it is assumed that the soft tissue thickness is measured to be 3 mm to help the understanding of the present invention.

4. The electric screwdriver 300 or the manual screwdriver is coupled to the wrench groove of the mount 200 and the screw 204 of the mount 200 is fastened and fixed to the screw hole 110 of the fixture 100. .

5. The rotational force is transmitted to the fixture 100 through the mount 200 while simultaneously driving the electric screwdriver 300 or the manual screwdriver.

6. Thus, through the inlet opening of the gum is minimally incision, the insertion portion 102 of the fixture 100 is implanted in the alveolar bone 400, wherein the upper surface of the fixture 100 is the outer surface of the gum 700 When inserted to the height, since the soft tissue thickness is already measured at 3mm, when the fixture 100 is further placed 3mm, the upper surface of the fixture 100 is parallel to the surface of the alveolar bone 400.

Therefore, the operator looks at the total of five 1mm thick lines 600 formed on the outer diameter surface of the mount 200, by placing the fixture 100 deeper by three lines 600 thickness (3mm), The implantation surface of the fixture 100 is able to perform an accurate procedure to be parallel to the surface of the alveolar bone.

7. When the implantation is completed, fasten the cover screw 112 to the screw hole of the fixture 100, and then attach the cut gum to its original shape, seal the inlet with a single suture and fix the fixation in the gum 700. The chew 100 and the cover screw 112 are embedded.

As such, according to the present invention, by forming a line having a predetermined scale or a predetermined thickness on the mount, an accurate procedure in which the upper surfaces of the fixture 100 and the cover screw 112 are parallel to the surface of the alveolar bone 400 can be easily performed. Thus, it is possible to reduce the bone loss rate of the alveolar bone around the fixture and at the same time improve the bone adhesion rate.

1 is a side view illustrating an implant for flapless surgery or mini-flap surgery according to the present invention,

Figure 2 is a schematic diagram illustrating performing a flapless surgery or mini-flap surgery using the implant according to the present invention,

Figure 3 is a schematic diagram illustrating a problem that occurs when the flapless surgery or mini-flap surgery using an existing implant,

4 is a schematic diagram illustrating a general flap surgery procedure,

5a and 5b is an image showing the results of measuring the bone loss rate by the flap surgery and flap surgery or mini-flap surgery method by 3D Micro-CT,

Figure 6a and 6b is an image showing the results of the measurement of bone adhesion by the flap surgery and flapless surgery or mini-flap surgery method by 3D Micro-CT.

<Explanation of symbols for the main parts of the drawings>

100: fixture 102: implantation part

106: thread 108: flat part

110: screw hole 112: cover screw

200: mount 202: head

204: screw portion 300: electric screwdriver

400: alveolar bone 500: scale

600: line 700: gum

Claims (4)

In the implant for flapless or mini-flap type, including a fixture having a screw hole on the upper surface and a mount fastened to the screw hole and rotated by an electric tool, Implants for flapless surgery or mini-flap surgery, characterized in that the interval of 1 ~ 2mm interval in the vertical direction in the desired section on the outer diameter surface of the mount inscribed. In the implant for flapless or mini-flap type, including a fixture having a screw hole on the upper surface and a mount fastened to the screw hole and rotated by an electric tool, Implants for flapless surgery or mini-flap surgery, characterized in that the lamination applied in order to distinguish the line of 1 ~ 2mm thickness along the up and down direction in the desired section on the outer diameter surface of the mount. The method according to claim 1 or 2, The scales of the 1 ~ 2mm intervals, and the 1 ~ 2mm thickness lines are formed in different colors for visual identification implants for flapless surgery or mini-flap surgery. The method according to claim 1 or 2, The section in which the scale and lines are formed in the outer diameter section of the mount is a flapless surgery or mini-flap surgery, characterized in that up to a point 2 ~ 7mm away from the lower end of the mount.

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