KR100950287B1 - Medical implant - Google Patents

Abstract

The present invention relates to a medical implant, the medical implant of the present invention, the implant body is placed in the bone of the body; A facilitation refilling hole formed to penetrate from one end of the implant body to a side portion of the implant body through the interior of the implant body; After the implant body is placed in the bone of the body, it is injected through the accelerator reinforcing hole exposed to the outer surface of the implant body, comprising a bone tissue growth promoting agent that serves to help adhesion and growth with bone tissue It features.

According to the present invention, after implanting the implant can be implanted bone tissue growth accelerator through the accelerator reinforcing hole to form a bone tissue growth promoter coating layer on the outer surface of the implant body. Therefore, the adhesion between the implant and the bone tissue after implant placement can be made quickly and firmly.

Implants, HAp, Bone Growth Promoters

Description

Medical Implants {MEDICAL IMPLANT}

The present invention relates to a medical implant, and more particularly, after implant implantation by firmly and stably applying bone tissue adhesion and growth aid materials for maximizing biocompatibility and bioactivity on the surface of the implant body to be placed in the bone of the body It relates to a medical implant that allows the implant to adhere quickly and firmly to bone tissue.

In the case of a child's teeth, teeth are extracted and permanent teeth are raised, but once a tooth is extracted, new teeth do not come out. Therefore, since ancient times, maintaining the dental health for a long time has been paid attention to the maintenance of dental health as one of the fivefold. In the past, the dentures were generally applied to the place where the permanent teeth were extracted so that the dentures could replace the role of the teeth. In the case of fixed dentures, the adjacent permanent teeth had to be removed to install the dentures. In the case of removable dentures, external force caused by dentures was applied to the gums, causing the wearer to feel uncomfortable and foreign body feelings.

It is an implant that has drastically improved this problem of dentures. Implant is essentially a substitute that recovers when the tissues of the body are lost, but in the dentist, it means artificial tooth implants. In order to replace the lost tooth roots, artificial tooth roots made of titanium, etc., which are not rejected by the human body, are planted and adhered to the alveolar bone where the teeth fall out, and the artificial teeth are fixed to restore the original function of the tooth.

Placed in the body, such as implants are materials that are not rejected by the body should be non-toxic, antigenic and carcinogenic. It must also maintain adhesion to bone tissue throughout the life of the implant and have high corrosion resistance. To this end, titanium or titanium alloys have been used as implants to meet these conditions.

However, conventional implants made of titanium or titanium alloy have difficulty in initial fixation due to low bonding strength with bone tissue at the initial placement.

In order to solve the problems according to the prior art as described above, a method of coating the surface of the implant using a hydroxyapatite (HAp) powder has been developed.

However, when apatite hydroxide (HAp) is simply coated on the surface of the titanium implant, the apatite hydroxide (HAp) coating is applied to the implant surface by the friction between the implant surface and the bone in the process of placing the implant on the jaw bone of the body. There is a problem that fall off from the surface, thereby the effect of the apatite hydroxide (HAp) is significantly reduced or hardly see the effect.

The present invention is to solve the conventional problems as described above, an object of the present invention is to implant the implant into the bones of the body material to aid bone tissue adhesion and growth on the surface of the implant, such as a hydroxide layer (HAp) layer By forming the implant to promote adhesion to bone tissue after implantation, to provide a medical implant that can maximize the biocompatibility and bioactive properties.

The present invention for achieving the above object, the implant body is placed in the bone of the body; A facilitation refilling hole formed to penetrate from one end of the implant body to a side portion of the implant body through the interior of the implant body; After the implant body is placed in the bone of the body, it is injected through the facilitation reinforcing hole exposed to the outer surface of the implant body, comprising a bone tissue growth promoting agent that serves to help adhesion and growth with bone tissue Provide an implant.

According to the present invention, the implant reinforcing hole is formed in the implant body to penetrate, and after implanting the bone tissue growth promoting material through the accelerator reinforcing hole after implanting the bone tissue growth promoter coating layer on the outer surface of the implant body Can be formed. Therefore, the adhesion between the implant and the bone tissue after implant placement can be made quickly and firmly.

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

1 to 3 show a dental implant as an embodiment of a medical implant according to the present invention, wherein the implant of the present invention has a generally cylindrical implant body 10. Of course, unlike this embodiment, the implant body 10 is not limited to its shape, such as may be formed in a tapered shape to narrow at a predetermined angle from the top to the bottom.

The implant body 10 may be made of a metal material, preferably titanium or a titanium alloy, but may be configured using various materials such as a bio-friendly ceramic. The outer circumferential surface of the implant body 10 is formed with a screw thread 11 to be spirally coupled to the alveolar bone.

In addition, the implant body 10 is formed with a plurality of accelerator reinforcing holes 15 penetrating from the outer end to the side portion of the implant body 10 through the inside of the implant body 10. The stopper 30 may be installed at an outer end of the accelerator reinforcing hole 15, that is, an inlet, to prevent the accelerator reinforcing material injection hole 15 after the bone tissue growth accelerator is injected, thereby preventing the leakage and loss of the accelerator.

The accelerator reinforcing hole 15 is a function of a passage for injecting a solution or suspension of the bone tissue growth promoter 20 to assist in bone tissue adhesion and growth after implanting the implant body 10 in the bone of the body Do it.

The bone tissue growth promoting material 20 injected through the accelerator reinforcing hole 15 serves to help adhesion and growth of bones of the body, that is, bone tissue of the alveolar bone. The bone tissue growth promoting material 20 may be made of a material such as, for example, hydroxide apatite (HAp: Hydroxyapatite), but in addition to any other materials that have biocompatibility and adhesion and growth with bone tissue to replace any other material Can be used.

As described above, when the accelerator reinforcing hole 15 is formed to penetrate the implant body 10, the implant body 10 is implanted in the alveolar bone, and then the bone tissue growth accelerator 20 is formed through the accelerator reinforcing hole 15. When injected, the bone tissue growth accelerator 20 flows out to the outer surface of the implant body 10 through the outlet of the accelerator reinforcing hole 15 and onto the part or all of the implant body 10. Will form.

Referring to the operation of the implant configured as described above in more detail.

First, puncture the alveolar bone where the implant is to be placed, and then the implant body 10 is spirally coupled to the alveolar bone. Subsequently, the solution or suspension of bone tissue growth accelerator 20 is injected through the accelerator reinforcing hole 15. By injecting the bone tissue growth accelerator 20 by closing the inlet of the accelerator re-injection hole 15 using a stopper 30 it can be prevented that the bone tissue growth accelerator 20 is leaked or lost to the outside.

The bone tissue growth promoting material 20 injected through the facilitation reinjection hole 15 is blocked by the alveolar bone at the exit of the facilitation reinjection hole 15, or there is a gap between the alveolar bone and the exit of the facilitation reinjection hole 15. If there is to flow along the outer surface of the implant body 10 to form the facilitation material coating layer 21 on the part or all of the implant body (10).

Accelerator coating layer 21 formed on the outer surface of the implant body 10 is to promote the adhesion and growth of bone tissue to act to quickly and firmly adhere the implant to bone tissue.

On the other hand, in the process of implanting the implant as described above, when the implant body 10 is placed in the alveolar bone, since the accelerator reinforcing hole 15 is empty, before the bone tissue growth accelerator 20 is injected If a strong air suction force is generated through the facilitation refilling hole 15 from the outside, an additional effect may be obtained in which foreign matter inside the alveolar bone is sucked out and removed through the facilitation reinforcing hole 15.

4 and 5 show another embodiment of the medical implant according to the present invention, the implant of this embodiment is the same basic configuration as the implant of the first embodiment described above. However, the implant of this embodiment is different in that a plurality of grooves 12 having a predetermined depth are formed on the surface of the implant body 10.

The inside of some or all of the plurality of grooves 12 may be a bone tissue growth promoting material 20 to help adhesion and growth with bone tissue may be fixed before implantation. In this case, the bone tissue growth promoting material 20 is fixed to the groove 12 of the implant body 10 in a manner that is solidified after immersing the implant body 10 in a solution or suspension of bone tissue growth promoting material, or the implant body It can be fixed in such a way that it is directly injected into the groove 12 of 10 and then solidified. The bone tissue growth promoting material pre-filled in the groove 12 may be the same material as the bone tissue growth promoting material injected through the accelerator reinforcing hole 15 after implantation, but may be used by adopting a different material.

As such, when the bone tissue growth promoting material 20 is filled and fixed to the inside or part of the groove 12 before implantation, bone tissue growth when the implant body 10 is spirally coupled to the bone of the body such as the alveolar bone The accelerator 20 remains firmly secured without a phenomenon that the promoter 20 is separated or damaged out of the groove 12 by friction with the bone. Therefore, the bone tissue growth promoting material 20 in the groove 12 serves to assist the bone tissue adhesion and growth together with the bone tissue growth promoting material 20 injected through the accelerator reinforcing hole 15 after implant placement. Fast and robust bone adhesion can be achieved.

In addition, some or all of the plurality of grooves 12 may be formed in communication with the accelerator refilling hole 15. In this case, unlike the foregoing, the implant body 10 is placed in the alveolar bone in an empty state without the bone tissue growth accelerator 20 being fixed to the groove 12 in advance, and thereafter, the accelerator reinforcing hole 15 is inserted therein. Bone tissue growth accelerator 20 is injected through the bone tissue growth accelerator 20 may be filled in the groove 12. That is, after implanting the implant without the bone tissue growth promoting material 20 is fixed to the groove 12 before implantation is implanted bone tissue growth promoting material 20 through the accelerator reinforcing hole 15 to the groove 12 ) Bone tissue growth accelerator 20 can be filled inside.

Meanwhile, although the implant of the above embodiments is a dental implant, the medical implant of the present invention may be applied to various implants such as orthopedic implants in addition to dental implants.

1 is a front view showing an embodiment of a dental implant as a medical implant according to the present invention

2 is a cross-sectional view taken along the line I-I of FIG.

3 is a sectional view showing the main parts of a state in which the implant of FIG. 1 is placed in the alveolar bone;

Figure 4 is a front view showing another embodiment of the medical implant according to the present invention

5 is a cross-sectional view taken along the line II-II of FIG. 4.

Explanation of symbols on the main parts of the drawings

10: implant body 11: thread

12: Home 15: Promotion refilling hole

20: bone tissue growth promoting material 21: promoting material coating layer

Claims (6)

An implant body implanted in a bone of the body; A facilitation refilling hole formed to penetrate from one end of the implant body to a side portion of the implant body through the interior of the implant body; After the implant body is placed in the bone of the body, it is injected through the facilitation reinforcing hole exposed to the outer surface of the implant body, comprising a bone tissue growth promoting agent that serves to help adhesion and growth with bone tissue Implants. The medical implant of claim 1, wherein a plurality of grooves are formed at a predetermined depth on the surface of the implant body. The medical implant of claim 2, wherein the accelerator reinforcing hole is in communication with the groove to fill a bone tissue growth accelerator. The medical implant of claim 2, wherein some or all of the plurality of grooves are filled with and secured to bone tissue growth accelerator before the implant body is placed in the bones of the body. The medical implant of claim 1, wherein the bone tissue growth accelerator injected through the accelerator reinforcing hole is coated to form a promoter layer by coating a part or all of the outer surface of the implant body. The medical implant of claim 1, further comprising a stopper for blocking the entrance of the facilitation reinforcing hole after the bone tissue growth facilitator is injected through the facilitation reinforcing hole.

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