JP2004290418A - Member for alveolar bone and jawbone - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a member for alveolar bone and jawbone that can fill or revive an alveolar bone or jawbone at the time of performing odontotherapy or oral surgery treatment and can function as a supporting member when an implant is implanted, an artificial tooth is fitted, or the like. <P>SOLUTION: The member for alveolar bone and jawbone is composed of a ceramic porous material of hydroxy apatite having a flexural strength of ≥5 MPa. In the porous material, nearly spherical communicating pores are formed three-dimensionally in a state where the pores are brought into contact with each other and opened at contacting sections. The pores have a mean porosity of 55-85% and a mean pore diameter of 150-600 μm and the communicating sections of the pores have a mean diameter of opening of ≥30 μm. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a member for alveolar bone and jaw bone, and more particularly, in dental and oral surgery treatment, can replenish and regenerate alveolar bone and jaw bone, and facilitate implant implantation, installation of a denture, and the like. The present invention relates to an alveolar bone / jaw bone member.
[0002]
[Prior art]
The jawbone is called the maxilla and the mandible above and below, respectively, and both can be distinguished from the main body part and the alveolar bone on which the teeth are planted (also called alveolar process or alveolar part). .
The alveolar bone is a bone where the root is located in the jaw bone, and plays a role of supporting the teeth.When chewing food or applying force to the whole body, etc., the alveolar bone is constantly stimulated by the load through the teeth. is recieving.
[0003]
The alveolar bone does not exist in a tooth-dependent tissue, that is, where there is no tooth, and if there is no natural tooth, the alveolar bone is not formed. If the tooth is left as it is after extraction, it becomes insensitive to stimulation, and the alveolar bone is absorbed and becomes weak.
Further, due to severe periodontal disease or accident, the alveolar bone and jaw bone may be absorbed or damaged by surrounding tissues.
In such a state, it is difficult to stably support the denture, and even more difficult to implant the implant.
[0004]
For this reason, for example, when the alveolar bone of the upper jaw becomes thin before the treatment with the denture or the implant, the root can be implanted by a method called a sinus lift (maxillary sinus elevation) or a socket lift. Thus, a procedure for increasing the thickness of the alveolar bone is performed.
Further, in the case of the lower jaw, treatments such as supplementing lean bones by filling granules such as hydroxyapatite in portions where bones are insufficient, transplanting autologous bones, and the like are performed.
[0005]
By the way, the hydroxyapatite is a main component of bone, has compatibility with autologous bone and the like, and has properties such as being fixed by absorption into living tissue over time. is there. In addition, the ceramics have the advantages of excellent strength properties and no harm to living organisms, and thus have been conventionally used as a suitable material for artificial bones.
[0006]
Furthermore, among the ceramics, in particular, cells that form bone are easy to penetrate into the inside, and since nutrients and the like can be sufficiently supplied to the cells, the porosity is high, and each pore is formed throughout. It has already been proposed that a ceramic porous body having a communicating configuration is suitable (for example, see Patent Document 1 and the like).
[0007]
However, as described above, there has been an example in which a porous body made of hydroxyapatite is used as an artificial bone in the field of surgery, but there is no example that has been put to practical use as a member for dental / oral surgery.
[0008]
[Patent Document 1]
JP 2000-302567 A
[Problems to be solved by the invention]
Implants have attracted attention as a state-of-the-art dental treatment technique, but it is premised that they have sufficient alveolar bone in order to perform this treatment.
For this reason, as a method of supplementing or regenerating alveolar bone or jaw bone, the above-described treatment has conventionally been adopted.
[0010]
However, in the case of using an artificial product made of a metal or a conventional ceramic, it takes a long time for the artificial product to function as a bone, so that a heavy burden is imposed on the patient.
Also, in the method of autologous bone transplantation, a scalpel must be inserted into the patient in at least two places in order to collect bone for transplantation, and this method also places a heavy burden on the patient.
[0011]
The present invention has been made in order to solve the above technical problem, and in dental and oral surgery treatment, replenishes and regenerates alveolar bone and jaw bone, and functions as a support member in implant implantation, denture mounting, and the like. It is an object of the present invention to provide a member for alveolar bone and jaw bone that can be used.
[0012]
[Means for Solving the Problems]
In the alveolar bone / jaw bone member according to the present invention, the substantially spherical pores are in contact with each other and form a three-dimensional communication hole opened at the contact portion, and the average porosity is 55% or more and 85% or less. And a ceramic porous body of hydroxyapatite having an average pore diameter of 150 μm or more and 600 μm or less, an average opening diameter of a communicating portion of each pore of 30 μm or more, and a bending strength of 5 MPa or more.
The porous body described above facilitates the penetration and attachment of cells and the like that form bone into the member, and can maintain sufficient strength for supporting the implant and the like.
[0013]
The ceramic porous body may be formed such that the porosity is inclined.
Depending on the use site, purpose of use, etc. of the alveolar bone / jaw bone member, it is preferable that the porosity of the porous body be changed in one member in consideration of ease of processing, strength, and the like.
[0014]
Further, it is preferable that the porous body is formed by stirring and foaming.
According to the stirring and foaming, it is possible to uniformly and easily control the high porosity, the inclined porosity, the porosity, and the like suitable for supplementing and regenerating the alveolar bone or the jaw bone as described above.
[0015]
The alveolar bone / jaw bone member may have an implant incorporated therein, or alternatively, a hole for implant implantation may be formed, and a female screw made of titanium or titanium alloy may be embedded in the hole. May be used.
With the above configuration, the implant can be more stably and firmly fixed to the alveolar bone.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in more detail with reference to some drawings.
In the alveolar bone / jaw bone member according to the present invention, the substantially spherical pores are in contact with each other and form a three-dimensional communication hole opened at the contact portion, and the average porosity is 55% or more and 85% or less. An average pore diameter of 150 μm or more and 600 μm or less, an average opening diameter of a communicating portion of each pore of 30 μm or more, and a bending strength of 5 MPa or more, made of a ceramic porous hydroxyapatite body. .
By using such a porous ceramic body made of hydroxyapatite having a pore structure that cells can easily invade as a member for supplementing and regenerating alveolar bone or jaw bone, in the field of dental and oral surgery, a short period after surgery, In the meantime, the cells can enter the stomata, start the regeneration of bone, and immediately increase the strength to such an extent that the implant or the like can be sufficiently supported.
In addition, since the skeleton (portion that is not a pore) of the hydroxyapatite porous body can be formed as a dense body having a porosity of 5% or less, the pores of the ceramic porous body can be formed at least about 1 to 2 years after the operation. Even if bone is formed in the inside, the member itself is hardly absorbed, and the bone does not become thin again. The porosity of the skeleton is preferably 3% or less.
[0017]
Hydroxyapatite, which is a material for the alveolar bone and jaw bone members, is a main component of bone, has relatively excellent mechanical properties such as strength, and is a suitable material having excellent biocompatibility. Further, the alveolar bone / jaw bone member according to the present invention also has a feature that, after several years, it is gradually absorbed into living tissue, and is excellent in substitutability with living bone.
The hydroxyapatite may be one in which a part of a hydroxyl group or a part of a phosphate group is substituted with a carbonate group.
[0018]
The pores of the ceramic porous body made of hydroxyapatite are substantially spherical, are in contact with each other, open at the contact portion, and are three-dimensionally connected as a whole.
With such a pore structure, cells and blood forming bone can enter the inside of the member from any direction, and the regeneration of bone as a whole can be promoted.
[0019]
The average porosity of the porous body is preferably 55% or more and 85% or less.
When the average porosity is less than 55%, it is difficult for cells to enter the central portion of the member, spread sufficiently, and adhere. In addition, circulation of blood and the like becomes difficult.
On the other hand, when the average porosity is more than 85%, the member does not have sufficient strength and is easily broken.
[0020]
The porosity of the porous body is preferably 55% or more and 85% or less on average, and the porous body may be formed to be inclined. The slope may be formed by a layer structure.
For example, the porosity may be increased or decreased continuously or stepwise from the upper or lower jaw toward the direction in which teeth are formed.
In addition, the porous body according to the present invention can be used as a composite in which members made of a ceramic dense body of hydroxyapatite are appropriately combined from the viewpoint of reinforcement.
[0021]
FIGS. 1 to 3 show various aspects of a porous body in a portion where an implant is implanted in an alveolar bone / jaw bone member according to the present invention.
FIG. 1 shows the alveolar bone / jaw bone member 1 in which the porosity is high in the portion where the implant 2 is to be implanted, the porosity gradually decreases downward, and the porosity decreases.
In this way, by inclining the porosity, it becomes easy to process a hole (recess) for implant implantation.
[0022]
FIG. 2 shows, in contrast to the one shown in FIG. 1, a portion where the implant 2 is implanted has a low porosity, and the porosity gradually increases downward, and the porous alveolar bone / jaw bone is used. 2 illustrates a member 2.
Such a component has the advantage that the implant can be held firmly.
[0023]
FIG. 3 shows the alveolar bone / jaw bone member 1 formed such that the porosity is low at both the upper and lower ends and the porosity is high at the middle.
By inclining the porosity in this manner, the strength of the member can be improved while maintaining the ease of entry of cells into the center of the member.
[0024]
Further, the average pore diameter of the porous body is preferably 150 μm or more and 600 μm or less, and the average opening diameter of the communicating portion of each pore of the porous body is preferably 30 μm or more.
By setting the pore diameter and the opening diameter as described above, it is possible to facilitate the invasion of cells, the invasion speed, the culture speed, and the like, and to promote the regeneration of bone as a whole.
[0025]
The ceramic porous body of hydroxyapatite as described above is preferably formed by stirring and foaming a slurry containing hydroxyapatite.
According to the stirring and foaming, a high porosity or an inclined porosity suitable for the alveolar bone / jaw bone member as described above can be easily controlled, and a porous material having a relatively high strength can be easily obtained. Can be obtained.
[0026]
As a method for producing a ceramic porous body of hydroxyapatite by stirring and foaming, for example, a method as described in Patent Document 1 (JP-A-2000-302567) can be used. A specific manufacturing method will be described below.
First, a hydroxyapatite powder and a crosslinkable resin such as polyethyleneimine are added to water to which a dispersant has been added, and the mixture is stirred and mixed to prepare a raw material slurry.
Further, a foaming agent such as polyoxyethylene lauryl ether is added, and the mixture is stirred and foamed to homogenize and stabilize the foam, thereby preparing a foam slurry.
Next, a crosslinking agent (gelling agent) such as sorbitol polyglycidyl ether is added to the foam slurry, and the mixture is stirred and mixed to prepare a porous slurry.
Then, the porous slurry is cast and molded to form a porous gel body (crosslinked body) in a state where the foam structure is maintained, and then fired to obtain a ceramic porous body.
[0027]
The alveolar bone / jaw bone member made of the porous ceramic body manufactured as described above is actually used for treatment in dental and oral surgery, even if an implant is incorporated in advance. Good.
Alternatively, a hole for implant implantation may be formed, and a female screw made of titanium or a titanium alloy may be embedded in the hole.
With this configuration, the implant can be more stably and firmly fixed to the alveolar bone.
[0028]
FIG. 4 and FIG. 5 show examples in which the implant is incorporated into the alveolar bone / jaw bone member in the above-described manner.
FIG. 4 shows that a hole (recess) 1a for implanting an implant 2 is formed in an alveolar bone / jaw bone member 1 according to the present invention, and a titanium or titanium alloy implant 2 having a large bottom portion is implanted. It is to let. The titanium alloy implant 2 is disposed so as to cover the side peripheral surface without any gap by the cylindrical divided body 4 made of hydroxyapatite ceramics.
In the treatment, the alveolar bone / jaw bone member 1 into which the implant 2 is incorporated in this way is implanted in a living body, and after a certain period of time, the strength of the refilled / regenerated bone is such that the implant can be sufficiently supported. When it has improved, the incision is made again and the crown (teeth) is covered.
[0029]
FIG. 5 shows a member 1 for alveolar bone and jaw bone in which a truncated cone-shaped through hole 1b is formed, and a female screw 5 made of titanium or a titanium alloy for implant implantation is inserted from the back surface. The female screw 5 has an outer periphery formed in a truncated cone shape, is firmly inserted into the truncated cone-shaped through hole 1b of the alveolar bone / jaw bone member 1, and does not come off toward the upper surface.
The ceramic porous body of hydroxyapatite at the portion where the alveolar bone / jaw bone member 1 comes into contact with the female screw 5 is preferably slightly dense from the viewpoint of maintaining strength.
When implanting in a living body, the concave portion of the female screw 5 is closed with a temporary screw or the like, and the alveolar bone / jaw bone member 1 is fixed to the living body. When the strength of the refilled / regenerated bone has increased to a level that can sufficiently support the implant, the embedding site is again incised, the temporary screw is removed, and a male screw is formed in the recess of the female screw 5. Of the implant 2 is inserted.
If there is no problem in hygiene, the external thread-shaped implant 2 may be fitted from the beginning.
[0030]
The alveolar bone / jaw bone member according to the present invention is not limited to the above-described implant applications because the strength is rapidly improved after the operation, and is used for filling / regenerating damaged jaw bones and filling the tooth extraction cavity. It can also be suitably used for the above application.
[0031]
【Example】
When the alveolar bone / jaw bone member according to the present invention was implanted in a defect of a living alveolar bone, the strength of the member doubled in one week and tripled in two weeks.
Also, one year after the implantation, the corners of the member remained clean, and it was confirmed that the original shape was firmly retained.
The above embodiment is merely an example of the present invention, and the present invention is not limited to the above embodiment.
[0032]
【The invention's effect】
As described above, the alveolar bone / jaw bone member according to the present invention can promote post-operative bone regeneration in the field of dentistry / oral surgery, and to the extent that it can sufficiently support an implant or the like at an early stage. Strength can be improved.
In addition, even if bone is formed inside the member for at least about one to two years after the operation, the member itself is hardly absorbed by the surrounding tissue, and the bone does not become thin again.
Therefore, the alveolar bone / jaw bone member according to the present invention is a member suitable for supplementation / regeneration of the alveolar bone and jaw bone in dental / oral surgery, and also as a support member in implant implantation, denture mounting, and the like. It can be suitably used.
[Brief description of the drawings]
FIG. 1 is a schematic view showing one embodiment of a porous body in a portion where an implant of an alveolar bone / jaw bone member according to the present invention is implanted.
FIG. 2 is a schematic view showing another embodiment of the porous body in a portion where the implant of the alveolar bone / jaw bone member according to the present invention is implanted.
FIG. 3 is a schematic view showing another embodiment of a porous body in a portion where an implant of the alveolar bone / jaw bone member according to the present invention is implanted.
FIG. 4 is a schematic view showing a state in which an implant is incorporated into an alveolar bone / jaw bone member according to the present invention.
FIG. 5 is a schematic view showing a state in which an implant is incorporated into an alveolar bone / jaw bone member according to the present invention.
[Explanation of symbols]
1 Alveolar and jaw bone members 1a Hole (recess)
1b Through hole 2 Implant 3 Crown (teeth)
4 Cylindrical divided body 5 Female screw

Claims (5)

Substantially spherical pores are in contact with each other to form three-dimensional interconnected pores opened at the contact portion, and have an average porosity of 55% to 85%, an average pore diameter of 150 μm to 600 μm, Alveolar bone and jaw bone members comprising a ceramic porous body of hydroxyapatite having an average opening diameter of the communicating portion of 30 μm or more and a bending strength of 5 MPa or more. The alveolar bone / jaw bone member according to claim 1, wherein the porous body has an inclined porosity. The alveolar bone / jaw bone member according to claim 1 or 2, wherein the porous body is formed by stirring and foaming. The alveolar bone / jaw bone member according to any one of claims 1 to 3, wherein an implant is incorporated. The alveolar bone according to any one of claims 1 to 4, wherein a hole for implant implantation is formed, and a female screw made of titanium or a titanium alloy is embedded in the hole. Jaw bone component.

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