KR101163621B1 - Fixture for implant - Google Patents

Abstract

PURPOSE: A fixture for an implant is provided to prevent a screwed fixture from being separated from the alveolar bone. CONSTITUTION: A fixture for an implant is constituted as follows. A screw unit(30) to be screwed a alveolar bone is formed in the outer circumference of the fixture for an implant. In the screw unit, a non-degradable screw unit(32) made of a ceramic material and a degradable screw unit(34) are alternately formed. The degradable screw unit comprises a body unit and a coating unit. The body unit is comprised of a hydroxyapatite component. The coating unit is made of a biodegradable polymer material.

Description

Fixture for implants

The present invention relates to a fixture for implants, and more particularly, implants that are implanted in the alveolar bone for implant prosthesis to prevent reverse rotation and detachment from the alveolar bone, particularly for implants that can be usefully applied to the elderly. It is about a fixture.

As a normal person grows, teeth are replaced with permanent teeth as they grow, providing permanent oral activities such as food decomposition, accurate pronunciation, and aesthetic appearance using permanent teeth. When one or more damaged teeth are caused by oral disease, food intake is very inconvenient or difficult to implement accurate pronunciation, and it can make a bad impression on other people. This tooth damage is more severe in older people.

By using a prosthesis made of artificial teeth to treat and restore the damaged teeth, the patient or the elderly who have the damaged teeth can restore the chewing function so that they can ingest and dissolve the food, and also have aesthetic stability and interpersonal relationship. It is improving.

Implants and bridges are typical treatment methods for these injured teeth.

For example, in order to cover the decayed or weakened teeth to repair the lost tooth, the cap having the same shape as the natural teeth located on both sides of the damaged tooth is integrally provided, and the upper part of the cap is fitted like a crown bridge ( crown & bridge). The prosthesis treatment using the crown-bridged artificial tooth removes the abutment on both sides by 1 ~ 2mm on the top and 0.5 ~ 2mm on the side, and acquires an impression. After obtaining a crown-shaped crown bridge prosthesis formed by casting with a ceramic ceramic or acrylic resin to provide a, it is taking a way to cover the abutment located on both sides of the damaged tooth.

However, this method has the advantage that the procedure can be performed at a low cost and simplicity of the procedure, while the entire natural tooth must be deleted as much as the area covered by the crown bridge prosthesis, thereby damaging the nerve of the tooth during the procedure. Occasionally, there was a problem of providing pain to the patient during the procedure. In addition, there is a problem that the nerve of the deleted tooth is damaged or the normal service life is shortened, and if the prosthesis is used for a long time while the crown bridge is covered, foreign substances are caught between the crown and the crown surrounding the deleted natural tooth. Serious problems have been pointed out, such as the occurrence of a gap in the tooth decay, which can cause serious damage to natural teeth.

Therefore, in order to supplement the problems of the bridge method as described above, a method of prosthesis is implanted by implanting a screw called an implant (implants) in the jawbone.

As a general dental implant (Implant) structure, as shown in Figure 1, the abutment (3) is integrally coupled to the upper end of the fixture (2) formed with a thread (1) on the outside In the state, a screw 4 is used to securely fix the fixture 2 and the abutment 3 to each other.

However, according to the conventional dental implant (10), due to the external shock or repeated chewing action over time, the fixture (2) placed in the alveolar bone is rotated in reverse rotation often separated from the alveolar bone, and often occurs have.

In particular, in the elderly, because the gums and alveolar bone is more vulnerable than the general public, there is a fear that the conventional implant fixture 2 is more easily separated from the alveolar bone.

The present invention has been made to solve the above-mentioned conventional problems, it is a main object of the present invention to provide an implant fixture to prevent the implant fixture implanted in the alveolar bone screw-mounted to reverse the rotation. It is done.

In the implant fixture according to the present invention as a means for solving the problem in the implant fixture fixed to the alveolar bone, a screw portion for screwing to the alveolar bone is continuously formed on the outer peripheral surface of the fixture, the screw portion A non-degradable screw part made of metal or ceramic material and a decomposable screw part which are decomposed in vivo after a predetermined time are formed alternately, and the decomposable screw part is made of a hydroxyapatite component which is decomposed and bonded to alveolar bone tissue. And a coating part made of a biodegradable polymer material that is decomposed in vivo and discharged out of the body and coated on the surface of the body part, wherein the degradable screw part is decomposed and the alveolar bone grows on the removed part so that the degradable screw part To replace Thus, it is characterized in that the fixture placed in the alveolar bone is prevented from being released by rotating in reverse.

In addition, the coating part may be formed of a polylactide (PLA) material having a structure in which the following chemical formula is repeated, and may be configured to be hydrolyzed into water and carbon dioxide in vivo and discharged to the outside of the body.

In addition, the coating part may be formed of a polyglycolide (PGA) material having a structure in which the following chemical formula is repeated, and may be configured to be hydrolyzed into water and carbon dioxide in vivo and discharged out of the body.

In addition, the coating part has a structure in which polylactide (PLA) and polyglycolide (PGA) are mixed at a predetermined ratio, and may be configured to be hydrolyzed into water and carbon dioxide in vivo and discharged out of the body.

According to the implant fixture according to the present invention having the configuration as described above, by disassembling a part of the screw thread formed on the outer peripheral surface of the fixture, the alveolar bone is grown and replaced, the implant fixture implanted in the alveolar bone by screw coupling method Rotation will not be able to escape to the outside.

In addition, according to the present invention, a part of the degradable screw portion formed on the outer peripheral surface of the fixture is decomposed into water and carbon dioxide in vivo and discharged to the outside, and the remainder is ossified in the alveolar bone tissue, so that the degradable screw portion is detrimentally harmful to the human body in the process of decomposing. No harm.

In particular, the gums and alveolar bone may be more usefully applied to the elderly who are more vulnerable than the general public.

1 is a cross-sectional view showing an implant fixture according to the prior art.
2 and 3 are a perspective view and a cross-sectional view showing the fixture for the implant according to the present invention.
Figure 4 is a schematic diagram showing a state in which the implant fixture in the alveolar bone according to the present invention.

Hereinafter, a preferred embodiment of an implant fixture according to the present invention will be described in detail.

As shown in FIG. 1, a general dental implant 10 includes a fixture 2 previously placed in an alveolar bone, an abutment 3 coupled to the fixture 2, and the abutment 3. It is made up of a structure of prostheses that is coupled to and serves as an artificial tooth. The present invention also relates to a fixture used in an implant prosthetic method for fixing the prosthesis to the alveolar bone as described above.

Such a fixture has a structure in which threads are continuously formed on the outer circumferential surface so as to be fixed to the alveolar bone by screwing. Therefore, after forming the groove for inserting the fixture in the alveolar bone in advance, it is fixed to the alveolar bone while rotating the fixture. However, if the binding force between the fixture and the alveolar bone weakens over time, the fixture rotates in the reverse rotation direction at the time of the first joining and may be separated from the alveolar bone, and the present invention provides an implant fixture for preventing this. to provide.

2 and 3 show an implant fixture according to the present invention, respectively, and FIG. 4 shows a state in which the implant fixture is placed in the alveolar bone.

2 to 4, the present invention relates to an implant fixture 20 that is fixed to the alveolar bone by screw coupling method, the screw portion 30 for screwing to the alveolar bone is continuous on the outer peripheral surface of the fixture 20 Is formed.

The screw portion 30 has a structure in which a non-degradable screw portion 32 of a metal or ceramic material and a degradable screw portion 34 which are decomposed in a living body after a predetermined time are alternately formed.

Accordingly, in the process of placing the fixture 20 in the alveolar bone, the non-degradable screw portion 32 and the degradable screw portion 34 both form a threaded structure that is continuously connected while forming a solid solid state, thereby screwing the fixture 20. Rotating in a coupled manner can be easily placed in the alveolar bone.

After a certain period of time after the fixture 20 is placed in the alveolar bone, the non-degradable screw portion 32 of the metal or ceramic material maintains its original shape, but the degradable screw portion 34 is decomposed in vivo. It is excreted extracorporeally or combined with alveolar bone tissue and ossify.

As described above, the degradable screw portion 34 is decomposed, and the alveolar bone grows in the vacant position to replace the degradable screw portion 34, and the screw portion 30 formed on the outer circumferential surface of the fixture 20 forms a discontinuous thread structure. As a result, the fixture 20 implanted in the alveolar bone is reversely rotated so that it cannot be separated.

As described above, the degradable screw portion 34 formed on the outer circumferential surface of the fixture 20 according to the present invention may be made of a high-strength solid structure such as metal or ceramic at first, and may be gradually decomposed in vivo as time passes. It should be made of a biodegradable material, and in particular, it should be made of a material that does not affect alveolar bone or living tissue in the process of being degraded in vivo.

To this end, the degradable screw portion 34, the body portion 35 of the hydroxyapatite (Hydroxyapatite) component that is coupled to the alveolar bone tissue while being decomposed, and the coating portion of the biodegradable polymer material that is decomposed in vivo and discharged out of the body ( It is preferable that it consists of 36).

Since the hydroxyapatite component forming the body portion 35 of the degradable screw portion 34 is composed of the same components as natural bone, it is excellent in biocompatibility, and in particular, it is absorbed into natural bone over time and is ossified. It is a material.

And the coating portion 36 is coated on the surface of the body portion 35 is made of a biodegradable polymer material is made of a material that is hydrolyzed and discharged out of the body over time.

Therefore, after a certain time has elapsed since the fixture 20 is placed in the alveolar bone, the coating portion 36 of the biodegradable polymer material is first hydrolyzed and discharged out of the body, and then the body portion 35 of the hydroxyapatite component is formed. By disassembling) and ossifying the alveolar bone tissue, the degradable screw portion 34 disappears, and the alveolar bone grows to replace the degradable screw portion 34.

On the other hand, as the coating portion 36 of the degradable screw portion 34 made of a biodegradable polymer material as described above, polylactide (PLA) or polyglycolide (PGA) may be used. The polyglycolide (PGA) and polylactide (PLA) components are relatively excellent in performance, and are used in various applications in the medical field due to their affinity and nontoxicity for the environment or living body.

The polylactide (PLA) component is decomposed into lactic acid in monomeric form by hydrolysis, and finally decomposed into water and carbon dioxide by TCA (tricarboxylic acid) cycle and is discharged out of the body through lungs and urine. It has a high affinity for the environment, high physical performance and adaptability to living bodies, and is a material suitable for use as the coating part 36 of the degradable screw part 34.

When the coating part 36 of the degradable screw part 34 according to the present invention is formed using the polylactide (PLA), which is one of environmentally friendly biodegradable polymers, as a main component, a structure of the following Chemical Formula 1 is repeated It is preferable that it consists of. As such, the polylactide (PLA) is made of a polyester structure manufactured using corn, which is a natural substance, so that it can be easily decomposed into water and carbon dioxide in vivo.

In addition, the polyglycolide (PGA) is an aliphatic polyester having a simple structural unit (-O-CH2-CO-), which is decomposed in vivo, and thus, active research is being conducted as a medical material together with the polylactide (PLA). It is becoming.

The polyglycolide (PGA) was synthesized from glycolic acid and used as a surgical bioabsorbable suture, and hydrolyzed by nonspecific enzymes (esterase and carboxypeptidase) to decompose glycolic acid (glycolic acid, GA). It is either released through the urine out of the body, or it is further broken down into water and carbon dioxide by the TCA cycle and released out of the body through the metabolic pathway.

And when the coating portion 36 of the degradable screw portion 34 according to the present invention is formed of the polyglycolide (PGA), which is one of the environmentally friendly biodegradable polymers as a main component, the unit of Formula 2 below is repeated. It is preferable that it consists of a structure.

On the other hand, the coating portion 36 of the degradable screw portion 34 according to the present invention may be configured to have a structure in which the polylactide (PLA) and polyglycolide (PGA) is mixed in a predetermined ratio. For example, it shows different decomposition rates depending on the mixing ratio of polylactide (PLA) and polyglycolide (PGA), which is best when polylactide (PLA) and polyglycolide (PGA) are mixed in the same ratio. Decomposition rate is faster.

While the invention has been shown and described with respect to the specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Anyone with it will know easily.

20; Fixture 30; Thread
32; Non-degradable threaded portion 34; Degradable Thread
35; Body 36; Coating part

Claims (4)

In the fixture for the implant fixed to the alveolar bone,
On the outer circumferential surface of the fixture, a screw portion for screwing into the alveolar bone is continuously formed,
The screw portion is made of a non-degradable screw portion of a metal or ceramic material, and a degradable screw portion that is decomposed in vivo after a predetermined time is formed alternately,
The degradable screw portion includes a body portion formed of a hydroxyapatite component that is decomposed and bonded to alveolar bone tissue, and a coating portion formed of a biodegradable polymer material that is decomposed in vivo and discharged out of the body and coated on the surface of the body portion. Composed of,
The decomposable screw portion is an implant fixture, characterized in that the alveolar bone grows on the disassembled and removed portion to replace the degradable screw portion, thereby preventing the fixture placed in the alveolar bone from being reversed and disengaged. The method of claim 1,
The coating unit is formed of a polylactide (PLA) material consisting of a repeating structure of the following chemical formula unit, the fixture for implants, characterized in that the hydrolyzed into water and carbon dioxide in vivo and discharged to the body.

The method of claim 1,
The coating unit is an implant fixture, characterized in that formed of a polyglycolide (PGA) material consisting of a repeating structure of the following chemical formula unit, is hydrolyzed into water and carbon dioxide in vivo and discharged out of the body.

The method of claim 1,
The coating unit is made of a structure in which polylactide (PLA) and polyglycolide (PGA) is mixed in a predetermined ratio, the fixture for implants, characterized in that hydrolyzed into water and carbon dioxide in vivo and discharged out of the body.

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