JP2003299722A - Bioabsorbable sheet and method for coating on bone failure part - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To accelerate a formation of a healthy bone in a bone failure part by preventing the bone failure part from being infected with bacteria. <P>SOLUTION: A bioabsorbable sheet 1 comprises: a sheet-like coating layer 2 made of a bioabsorbable material; and an adhesive treating layer 3 made of a silane coupling agent applied on one surface of the layer 2. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bioabsorbable sheet for coating a bone defect portion when regenerating the bone defect portion and a method for coating the bone defect portion.

[0002]

2. Description of the Related Art In recent years, due to the progress of regenerative medical engineering, it is possible to regenerate bones and repair the defective portions by filling the bone defective portion caused by excision of bone tumor or trauma with bone filling material. It is becoming possible. Bone filling materials include hydroxyapatite (HAP) and tricalcium phosphate (T
CP) is known, but a scaffolding material composed of a calcium phosphate porous material such as β-TCP is used from the idea that no foreign matter remains in the body. When β-TCP is brought into contact with the bone tissue of the bone defect portion, the osteoclasts become β-
So-called remodeling is performed in which TCP is eaten and osteoblasts form new bone. That is, the bone filling material filled in the bone defect portion is replaced with autogenous bone over time.

Further, in the field of dentistry, the following techniques have been proposed as techniques for repairing bone defects of alveolar bone due to periodontal disease and the like. That is, in order to obtain new attachment of periodontal tissue in the bone defect portion, it is necessary to grow cells derived from periodontal ligament on the root surface, but when cells of gingival tissue reach the root surface first, It is known that the proliferation of the cells of the above is hindered, and a barrier membrane is used to prevent this.

The barrier membrane includes, for example, GORE-TEX membrane manufactured by GORE, and CG membrane manufactured by CG. As shown in FIG. 15, these barrier membranes 30 have a root surface 31 and a gingival tissue 3
It is arranged between the first and second parts and secures a space 33 on the root surface 31 for growing cells derived from the periodontal ligament. In this case, if the barrier membrane 30 is exposed in the oral cavity, it is likely to be contaminated with bacteria. Therefore, it is necessary to cover the surface of the barrier membrane 30 with a gingival flap.

[0005]

However, since the gingival flap that covers the surface of the barrier membrane 30 is a mucous membrane and has a weak strength, it may be cut off when a high tension force acts on the sutured portion or other portions. . In this case, there is a possibility that bacteria may invade via the minute gap between the barrier membrane 30 and the tooth root surface 31 and infect osteoblasts in the bone defect portion during bone formation. Then, when infected, there is a problem that the osteoblasts cannot grow healthy.

The present invention has been made in view of the above-mentioned circumstances, and an object thereof is to provide a bioabsorbable sheet and a method for covering a bone defect portion, which can prevent infection of the bone defect portion with bacteria. There is.

[0007]

In order to achieve the above object, the present invention provides the following means. The invention according to claim 1 is a sheet-like coating layer made of a bioabsorbable material,
Provided is a bioabsorbable sheet including an adhesive treatment layer applied to one surface of the coating layer. According to the present invention, the adhesive treatment layer can improve the adhesiveness of the covering layer to the bone surface or the epithelial tissue, and can seal the bacterial infection route between the covering layer and the bone surface or the epithelial tissue. .

The invention according to claim 2 provides the bioabsorbable sheet according to claim 1, wherein the adhesion treatment layer is made of a silane coupling material. This invention uses a silane coupling agent as the adhesive treatment layer, whereby the hydrolyzable groups of the silane coupling agent hydrophobize the surface to which the silane coupling agent is applied, thereby further improving the adhesiveness of the coating layer to bone noodles or epithelial tissues. It is possible to improve.

The invention according to claim 3 is the bioabsorbable sheet according to claim 1 or 2, wherein the bioabsorbable sheet comprises an adhesive layer made of an adhesive between the coating layer and the adhesive treatment layer. provide. According to the present invention, the treatment for improving the adhesiveness at the time of adhering the inorganic substance to the bone surface or the epithelial tissue is performed by bringing the adhesion-treated layer into contact with the bone surface or the epithelial tissue. As a result, the adhesive treatment layer formed of the adhesive layer and the coating layer are adhered with high adhesive force. That is, according to the present invention, it is possible to strongly adhere the coating layer to the bone surface or epithelial tissue and seal the bacterial pathway simply by applying the adhesive treatment layer so as to contact the bone surface or epithelial tissue. Become.

The invention according to claim 4 provides the bioabsorbable sheet according to any one of claims 1 to 3, wherein a release sheet is attached to the adhesive treatment layer. According to this invention, the adhesive treatment layer can be exposed only by peeling off the release sheet, so that it can be used as a seal.

According to a fifth aspect of the present invention, a silane coupling material is applied to the bone surface around the bone defect portion, and then the bone surface coated with the silane coupling material is coated with a sheet made of a bioabsorbable material. A method of coating a bone defect that adheres layers is provided. According to this invention, the silane coupling material applied to the side surface around the bone defect portion improves the adhesiveness between the bone surface and the sheet-like coating layer. Therefore, by merely disposing the sheet-shaped coating layer so as to cover the bone defect portion, it is possible to seal the space between the coating layer and the bone surface around the bone defect portion and block the bacterial infection route. .

According to the sixth aspect of the present invention, the epithelial tissue covering the vicinity of the bone defect is incised to expose the bone surface around the bone defect, and the exposed bone surface and the surface of the epithelial tissue around it are subjected to silane coupling. Provided is a method for coating a bone defect portion, which comprises applying a sheet-shaped coating layer made of a bioabsorbable material to the bone surface and the epithelial tissue surface coated with the silane coupling material after applying the material. According to the present invention, by treating both the exposed bone surface and the surrounding epithelial tissue surface with a silane coupling material, it is possible to firmly adhere the coating layer to both the bone surface and the epithelial tissue surface. Become.
Therefore, compared with the conventional method of covering the epithelial tissue and then suturing the covering layer only on the bone surface, it is not necessary to peel the epithelial tissue from the bone surface over a wide area, and
There is no need to suture the epithelial tissue under tension. Furthermore, it becomes possible to prevent the growth of epithelial tissue in the bone defect portion by a simple method, and to block the bacterial infection route passing between the coating material and the bone surface.

According to a seventh aspect of the present invention, there is provided a method for coating a bone defect portion, which comprises adhering a sheet-shaped coating layer made of a bioabsorbable material to a bone surface around the bone defect portion, Provided is a method for covering a bone defect portion in which a drug for preventing bacterial infection is placed on the contact portion between the bone surface and the coating layer over the entire circumference. According to this invention, the agent for preventing bacterial infection, which is arranged at the contact portion between the bone surface and the covering layer, blocks the bacterial infection route to the bone defect portion around the entire circumference of the bone defect portion. Therefore, healthy bone formation can be performed without infecting the bone defect portion with bacteria.

According to an eighth aspect of the present invention, there is provided a method for coating a bone defect portion, which comprises adhering a sheet-shaped coating layer made of a bioabsorbable material to a bone surface around the bone defect portion, the method being in contact with the bone defect portion. Provided is a method for coating a bone defect portion, in which a bone growth factor such as a bone morphogenetic protein is arranged on the surface of the coating layer. According to the present invention, when the coating layer is coated on the bone defect portion, the bone growth factor disposed on the surface of the coating layer that contacts the bone defect portion promotes the proliferation of osteoblasts existing in the bone defect portion. To do. As a result, the bone defect part is repaired early.

According to a ninth aspect of the present invention, a secondary impression having the shape of the bone defect portion is created based on the primary impression obtained by taking an impression of the bone defect portion, and the bone is based on the secondary impression. Manufacture a sheet-like coating layer that has a boss that fits into the defect,
Provided is a method for covering a bone defect portion, in which a boss portion of the coating layer is arranged in a state of being fitted into the bone defect portion. According to this invention,
The primary and secondary impressions obtained by taking the impression make it possible to form a coating layer having an accurate bone defect shape. Therefore, by covering the bone defect portion with the thus obtained coating layer, it becomes possible to fit the boss portion to the bone defect portion and seal between the two, thereby blocking the bacterial infection route. .

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION A bioabsorbable sheet and a method for covering a bone defect portion according to an embodiment of the present invention will be described below with reference to the drawings. As shown in FIG. 1, the bioabsorbable sheet 1 according to the present embodiment has a sheet-like coating layer 2 made of a bioabsorbable material and an adhesive treatment made of a silane coupling material applied to one surface of the coating layer 2. And layer 3.

The bioabsorbable material forming the coating layer 2 is
For example, a polylactic acid collagen complex and / or a polylactic acid complex. The coating layer 2 has, for example, a thickness of about 1
It is about 0 to 300 μm. The silane coupling material is a material having an organic functional group and a hydrolyzable group in one molecule. Adhesion treatment layer 3 comprising the silane coupling material
Is sprayed on one surface of the coating layer 2 in a state of being diluted with an organic solvent and dried. As a result, the organic functional group of the silane coupling material reacts with the coating layer 2 made of collagen and is fixed on one surface of the coating layer 2.

The operation of the bioabsorbable sheet 1 according to this embodiment having the above-mentioned structure will be described below by taking the field of dentistry as an example. In the field of dentistry, it is necessary to obtain new attachment of new periodontal tissue to a bone defect portion caused in alveolar bone due to periodontal disease or the like for the reason of fixing an implant, etc. In order to use the absorbent sheet 1, first, as shown in FIG. 2, the gingival tissue 6 in a portion of the alveolar bone 4 where the bone defect portion 5 is present is incised to remove the alveolar bone 4 and the bone defect portion 5. Expose.

In this state, the lesion portion of the bone defect portion 5 is scraped off to expose the surface of the healthy alveolar bone 4. In this state, the bone defect portion 5 is filled with a bone filling material 7 such as HAP or β-TCP. When the bone defect portion 5 is minute, the filling of the bone prosthetic material 7 may be omitted.

Next, as shown in FIG. 3, the adhesive treatment layer 3 of the bioabsorbable sheet 1 is placed toward the bone defect portion 5,
The adhesive treatment layer 3 is brought into close contact with the surface of the alveolar bone 4. Since the adhesion treatment layer 3 is composed of a silane coupling material, the hydrolyzable group of the silane coupling material reacts with the alveolar bone 4 which is an inorganic substance to hydrophobize the surface of the alveolar bone 4 to cover it. The layer 2 will adhere to the alveolar bone 4. Thereafter, as shown by a chain line in FIG. 3, the gingival tissue 6 is tensioned and sutured to form a gingival flap, as the case may be.

As described above, according to the bioabsorbable sheet 1 of the present embodiment, the covering layer 2 can be adhered to the alveolar bone 4 by the function of the adhesion treatment layer 3, so that the bone defect portion 5 is covered by the covering layer 2. Completely cover and cover layer 2 and alveolar bone 4
The gap between it and the surface of the can be sealed. Therefore, it is possible to prevent the gingival tissue 6 from entering the bone defect portion 5 and inhibiting the bone formation action in the bone defect portion 5. In addition, the space can be sealed to block the path of bacterial infection to the bone defect portion 5. Therefore, it is possible to prevent bacteria from invading the bone defect portion 5 and protect it so that a healthy bone forming action is performed. Further, when the gingival flap is formed, even when the gingival flap is broken, the coating layer 2 is bonded to the surface of the alveolar bone 4,
Bacteria do not infect the bone defect portion 5.

In addition to the method described above, when using the bioabsorbable sheet 1, the gingival tissue 6 at the site where the bone defect portion 5 exists is spread over a narrower range than the above, as shown in FIG. It is also possible to make an incision to expose only the bone defect portion 5 of the alveolar bone 4 and the alveolar bone 4 around it. And
In this case, as shown in FIG. 5, the adhesive treatment layer 3 of the bioabsorbable sheet 1 is arranged toward the bone defect portion 5, and the exposed alveolar bone 4 and the gingival tissue 6 around the alveolar bone 4 are bioabsorbable sheet. Cover with 1. At this time, the adhesive treatment layer 3 provided on one surface of the bioabsorbable sheet 1 is brought into close contact with the surface of the alveolar bone 4 around the bone defect portion 5 and the gingival tissue 6 around it.

Since the adhesive treatment layer 3 is composed of a silane coupling material, the hydrolyzable group of the silane coupling material reacts with the alveolar bone 4 which is an inorganic substance to make the surface of the alveolar bone 4 hydrophobic. And the covering layer 2 is adhered to the alveolar bone 4. Further, the organic functional group of the silane coupling material reacts with the gingival tissue 6, which is an organic substance, and adheres to the surface of the gingival tissue 6. As a result, as shown in FIG. 5, the surface of the bone defect portion 5 and the surfaces of the alveolar bone 4 and the gingival tissue 6 around the bone defect portion 5 are covered with the coating layer 2.

In this way, the surface of the alveolar bone 4 around the bone defect portion 5 and the coating layer 2 are bonded in a state in which the gap between them is sealed, so that the bone defect portion 5 is bonded to the bone defect portion 5 in the same manner as described above. Bacterial infection route is blocked, and bone defect portion 5 of gingival tissue 6
Is prevented from entering. In this case, it is not necessary to make a large incision in the gingival tissue 6, and the operation can be performed easily. Further, since the coating layer 2 is adhered also to the gingival tissue 6 around the bone defect portion 5, it is possible to protect a healthy bone forming action in the bone defect portion 5 without tensioning the weak mucous membrane and suturing. it can.

Next, a bioabsorbable sheet according to a second embodiment of the present invention will be described below with reference to FIG. The bioabsorbable sheet 10 according to the present embodiment has a three-layer structure in which the adhesive layer 11 is arranged between the coating layer 2 and the adhesive treatment layer 3 of the bioabsorbable sheet 1 according to the first embodiment. . The adhesive layer 11 is made of, for example, fibrin glue.
The adhesive layer 11 may be a dental adhesive Super Bond C & B manufactured by Sun Medical Co., Ltd. or a dental adhesive Panavia manufactured by Kuraray Co., Ltd.

The case of using the bioabsorbable sheet 10 according to the present embodiment having such a configuration will be described below. In order to cover the bone defect portion 5 of the alveolar bone 4 with the bioabsorbable sheet 10, first, the gingival tissue 6 at the site where the bone defect portion 5 is present is incised to expose the alveolar bone 4 and the bone defect portion 5. Next, the adhesive treatment layer 3 of the bioabsorbable sheet 10 is placed toward the bone defect portion 5.

Since the adhesive treatment layer 3 is composed of a silane coupling material, the hydrolyzable group of the silane coupling material reacts with the alveolar bone 4 which is an inorganic material, as in the first embodiment. To make the surface of the alveolar bone 4 hydrophobic. When covering not only the surface of the alveolar bone 4 around the bone defect portion 5 but also the gingival tissue 6, the organic functional groups of the silane coupling material are organic gingival tissue 6
Reacts with and is adhered to the surface of the gingival tissue 6.

When the surface of the alveolar bone 4 is hydrophobized by the action of the adhesive treatment layer 3, the adhesiveness between the adhesive layer 11 adjacent to the adhesive treatment layer 3 and the surface of the alveolar bone 4 is improved, Both are adhered in a sealed state. Further, since the surface of the gingival tissue 6 and the adhesive treatment layer 3 are adhered with a high adhesive force by the action of the adhesive treatment layer 3, the adhesive layer 11 adjacent to the adhesive treatment layer 3 is adhered to each other. It strongly adheres to the gingival tissue 6 via the treatment layer 3. As a result, the coating layer 2 adjacent to the adhesive layer 11 is hermetically adhered to the surface of the alveolar bone 4 and the gingival tissue 6, so that the bacteria present in the oral cavity can reach the bone defect portion 5 through these gaps. It is possible to prevent invasion and infection.

The bioabsorbable sheets 1 and 10 according to the first and second embodiments have a release sheet 12 for protecting the adhesive treatment layer 3 before being applied to a living body as shown in FIG. May be pasted. That is, the release sheet 12 may be a piece of paper whose surface is coated with a substance such as silicone or propylene glycol. Bioabsorbable sheets 1, 1 configured in this way
According to 0, the adhesive treatment layer 3 is protected by the release sheet 12 at the time of distribution or storage, and the bone defect portion 5 can be easily covered in a sealed state simply by removing the release sheet 12 at the time of use.

Next, a method for covering the bone defect portion 5 according to the embodiment of the present invention will be described with reference to FIG. The covering method according to the present embodiment uses the alveolar bone 4 around the bone defect portion 5.
After applying the silane coupling material 13 to the surface of the, the surface of the alveolar bone 4 coated with the silane coupling material 13,
A sheet-shaped coating layer 2 made of a bioabsorbable material is adhered. Further, the epithelial tissue covering the vicinity of the bone defect portion 5 is incised to expose the alveolar bone 4 around the bone defect portion 5, and the silane coupling material 13 is applied to the surface of the exposed alveolar bone 4 and the epithelial tissue 6 around it. After that, the sheet-shaped coating layer 2 made of a bioabsorbable material may be adhered to the surfaces of the alveolar bone 4 and the epithelial tissue 6 coated with the silane coupling material 13. According to these methods, it is possible to obtain the same effect as the method for covering the bone defect portion 5 according to the first and second embodiments without using the bioabsorbable sheets 1 and 10.

Next, a method of covering the bone defect portion 5 according to another embodiment of the present invention will be described with reference to FIG. 9 by way of example of application in the field of dentistry. The covering method according to the present embodiment is a method for covering a bone defect portion 5 in which a sheet-shaped coating layer 2 made of a bioabsorbable material is adhered to the surface of the alveolar bone 4 around the bone defect portion 5. This is a method of arranging the bacterial infection preventing agent 14 on the contact portion between the surface of the alveolar bone 4 and the coating layer 2 over the entire circumference of the. The drug may be impregnated into the coating layer 2 side or may be applied to the surface of the alveolar bone 4.

According to this method, the bone defect portion 5 is removed from the oral cavity.
Since the agent 14 for preventing bacterial infection is arranged in a path that passes between the covering layer 2 and the surface of the alveolar bone 4 around the bone defect portion 5, the bacteria transmitted from the oral cavity via this path are used as the agent. Sterilized by 14. As a result, bacterial infection can be prevented and the bone defect portion 5 can be repaired soundly until the bone forming action in the bone defect portion 5 is sufficiently performed. As a method of adhering the coating layer 2 and the alveolar bone 4, for example, a hydrophobic treatment with the above-mentioned silane coupling material can be considered. Instead of the bacterial infection preventing drug 14, any other drug, for example, a penicillin drug,
Streptomycin, chlortetracycline, oxytetracycline, chloramphenicol, macrolides, kanamycin, bobiocin, colistin, polymyxin-B, aurethricin, trichomycin,
Gramidine, amphotericin-B, lincomycin, synthetic cephaloporin C-based drug and the like may be arranged.

Next, a method of covering the bone defect portion 5 according to another embodiment of the present invention will be described with reference to FIG. 10 by way of example of application in the field of dentistry. The coating method according to the present embodiment is a method for coating a bone defect portion in which a sheet-shaped coating layer 2 made of a bioabsorbable material is adhered to the alveolar bone 4 around the bone defect portion 5, and the method contacts the bone defect portion 5. In this method, a bone growth promoting material 15 (bone morphogenetic protein) such as a bone morphogenetic protein is arranged on the surface of the coating layer 2 to be formed.

According to this method, the bone formation action in the bone defect portion 5 covered with the covering layer 2 is promoted by the bone growth promoting material 15 arranged on the surface of the covering layer 2.
Therefore, by adhering the covering layer 2 to the alveolar bone 4 around the bone defect portion 5, the bacterial infection route from the oral cavity to the bone defect portion 5 is blocked, and the growth rate of bone is increased, thereby improving the bone defect rate. The part 5 can be quickly and soundly restored. In addition, as a method of adhering the coating layer 2 and the alveolar bone 4,
For example, the hydrophobic treatment with the above-mentioned silane coupling material can be considered. In addition, a chemical agent for preventing bacterial infection may be arranged between the alveolar bone 4 and the covering layer 2 around the bone defect portion 5. In addition to the bone morphogenetic protein, a nutrient such as vitamin may be used as the bone growth promoting material 15.

Next, a method for covering a bone defect portion according to another embodiment of the present invention will be described with reference to FIGS. 11 to 14 as an example of application in the field of dentistry. The covering method according to the present embodiment includes a primary impression acquisition step, a secondary impression creation step, a covering layer manufacturing step, and a covering step.

In the primary impression acquisition step, as shown in FIG. 11, the gingival tissue 6 in the bone defect portion 5 is incised to expose the alveolar bone 4, and the impression material 16 is placed in the bone defect portion 5 in the alveolar bone 4. It is performed by injecting (FIG. 11A), curing (FIG. 11B), and removing the impression material 16 from the bone defect portion 5 after curing (FIG. 11C). This allows
The primary impression mold 17 having a shape complementary to the bone defect portion 5 is manufactured. As the impression material 16, any material can be applied. For example, a silicone or polyether elastic impression material is used.

In the secondary impression creating step, as shown in FIG. 12, the primary impression mold 17 of the bone defect portion 5 acquired in the primary impression taking step is placed in the container 18 and the plaster 19 is added.
Is injected and cured (FIG. 12A), and the primary impression mold 17 is taken out after curing (FIG. 12B). As a result, the secondary impression mold 20 having the same shape as the bone defect portion 5 and its surroundings is manufactured.

In the coating layer manufacturing step, as shown in FIG. 13, a predetermined amount of the thermosetting organic-inorganic hybrid gel 21 is placed on the secondary impression mold 20 prepared in the secondary impression preparing step. For example, the heating is performed at 37 ° C. Since the secondary impression mold 20 has a recess 22 having the same shape as the bone defect portion 5, the thermosetting organic-inorganic hybrid gel 2 covers the recess 22.
Apply 1. This allows a certain amount of thermosetting organic-
The inorganic hybrid gel 21 is the recess 2 on the secondary impression mold 20.
It is cured in a state where it slightly flows into the inside of 2.

Therefore, the coating layer 23 is manufactured by removing the cured thermosensitive organic-inorganic hybrid gel 21 from the secondary impression mold 20. The coating layer 23 manufactured in this manner has a boss portion 24 having a shape that fits exactly into the opening of the bone defect portion 5. And
In the covering step, as shown in FIG. 14, the boss portion 24 of the covering layer 23 is arranged so as to be fitted to the bone defect portion 5. By fitting the boss portion 24 into the bone defect portion 5, it is possible to close the path of infection of bacteria from the oral cavity into the bone defect portion 5 by eliminating the gap between the two. Further, by fitting the boss portion 24 to the bone defect portion 5,
During the bone formation in the bone defect portion 5 performed with the bone defect portion 5 blocked from the oral cavity, the coating layer 23 causes the bone defect portion 5 to
It is possible to prevent the deviation. Furthermore, if necessary, alveolar bone 4 made of silane coupling material
Bacterial infection of the bone defect portion 5 can be prevented more reliably by using hydrophobicity of the surface and adhesion with fibrin glue or the like.

In each of the above-mentioned embodiments, an example of application to the field of dentistry has been described, but the present invention is not limited to this and is applicable to a bone defect portion in any other bone tissue. You can

[0041]

As described above, according to the bioabsorbable sheet and the method for covering a bone defect portion according to the present invention, the path of infection of bacteria from the oral cavity to the bone defect portion is blocked and the inside of the bone defect portion is blocked. It has the effect of protecting and promoting the bone formation action and achieving healthy bone formation.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view showing a bioabsorbable sheet according to an embodiment of the present invention.

FIG. 2 is a longitudinal sectional view showing a bone defect portion of an alveolar bone to which the bioabsorbable sheet of FIG. 1 is applied.

FIG. 3 is a vertical cross-sectional view showing a state in which a bioabsorbable sheet is applied to the bone defect portion of FIG.

FIG. 4 is a vertical cross-sectional view illustrating another application example of the bioabsorbable sheet of FIG.

5 is a vertical cross-sectional view showing a state in which a bioabsorbable sheet is applied to the bone defect portion of FIG.

FIG. 6 is a longitudinal sectional view showing a bioabsorbable sheet according to a second embodiment of the present invention.

FIG. 7 is a longitudinal sectional view showing another bioabsorbable sheet in which a release sheet is attached to the bioabsorbable sheets according to the first and second embodiments.

FIG. 8 is a vertical sectional view illustrating a method for covering a bone defect portion according to the embodiment of the present invention.

FIG. 9 is a longitudinal sectional view illustrating a method for covering a bone defect portion according to another embodiment of the present invention.

FIG. 10 is a vertical cross-sectional view illustrating a method for covering a bone defect portion according to another embodiment of the present invention.

FIG. 11 is a schematic diagram illustrating a primary impression taking step of a method for covering a bone defect portion according to another embodiment of the present invention.

FIG. 12 is a schematic diagram illustrating a secondary impression forming step of the covering method of FIG.

13 is a schematic diagram illustrating a coating layer forming step of the coating method of FIG.

FIG. 14 is a schematic diagram illustrating a coating step of the coating method of FIG.

FIG. 15 is a cross-sectional view for explaining a conventional method for repairing a bone defect portion of alveolar bone.

[Explanation of symbols]

1,20 Bioabsorbable sheet 2,23 coating layer 3 Adhesive treatment layer 4 Alveolar bone (bone surface) 5 Bone defects 6 epithelial tissue 11 Adhesive layer 12 Release sheet 13 Silane coupling material 14 Drugs (Bacterial Infection Prevention Drugs) 15 Bone growth promoting material (bone growth factor) 17 Primary impression type (Primary impression) 20 Secondary impression type (Secondary impression) 24 Boss

Claims (9)

[Claims] 1. A bioabsorbable sheet comprising a sheet-shaped coating layer made of a bioabsorbable material and an adhesive treatment layer applied to one surface of the coating layer. 2. The bioabsorbable sheet according to claim 1, wherein the adhesive treatment layer is made of a silane coupling material. 3. The bioabsorbable sheet according to claim 1, further comprising an adhesive layer made of an adhesive between the coating layer and the adhesive treatment layer. 4. The bioabsorbable sheet according to claim 1, wherein a release sheet is attached to the adhesive treatment layer. 5. A bone defect in which a silane coupling material is applied to a bone surface around a bone defect portion, and then a sheet-shaped coating layer made of a bioabsorbable material is adhered to the bone surface coated with the silane coupling material. Part coating method. 6. An incision is made on the epithelial tissue covering the vicinity of the bone defect to expose the bone surface around the bone defect, and the silane coupling material is applied to the exposed bone surface and the epithelial tissue surface around the bone surface. A method for coating a bone defect part, which comprises adhering a sheet-shaped coating layer made of a bioabsorbable material to a bone surface and an epithelial tissue surface coated with the silane coupling material. 7. A method for coating a bone defect part, which comprises bonding a sheet-shaped coating layer made of a bioabsorbable material to a bone surface around the bone defect part, the bone surface covering the entire circumference of the bone defect part. A method for coating a bone defect portion, in which a drug for preventing bacterial infection is arranged at a contact portion between the and the coating layer. 8. A method for covering a bone defect part, comprising adhering a sheet-like coating layer made of a bioabsorbable material to a bone surface around the bone defect part, wherein the surface of the coating layer is in contact with the bone defect part. , A method for covering a bone defect portion in which a bone growth factor such as a bone morphogenetic protein is arranged. 9. A secondary impression having the shape of a bone defect part is created based on a primary impression obtained by taking an impression of a bone defect part, and fitted to the bone defect part based on the secondary impression. A method for coating a bone defect portion, which comprises producing a sheet-like coating layer having a boss portion and disposing the boss portion of the coating layer in a state of being fitted into the bone defect portion.