KR20190090476A - Artificial alveolar bone block set for implant drilling training - Google Patents

Abstract

The present invention relates to an artificial alveolar bone block set used in drilling training of implant holes. The artificial alveolar bone block set comprises: a first block having a first hardness range corresponding to the hardness of the front of the lower jaw; a second block having a second hardness range corresponding to the hardness of the rear of the lower jaw and the hardness of the front of the upper jaw and having the lower hardness than the first block; and a third block having a third hardness range corresponding to the hardness of the rear of the upper jaw and having the lower hardness than the second block.

Description

Artificial alveolar bone block set for implant drilling practice {ARTIFICIAL ALVEOLAR BONE BLOCK SET FOR IMPLANT DRILLING TRAINING}

The present disclosure relates generally to a set of artificial alveolar bone blocks for implant drilling practice, and more particularly to a set of artificial alveolar bone blocks capable of reproducible implant drilling practice.

Herein, the background art relating to the present disclosure is provided, and these are not necessarily meant to be known arts.

Lekholm & Zarb Classification, and Misch Bone Density Classification are known in relation to classification of bone density and alveolar bone density (Reference and Techniques used in Alveolar Bone Classification, JBR Journal of Interdisciplinary Medicine and Dental Science, et al., J Interdiscipl Med Dent Sci 2015, 3: 2).

FIG. 1 is a table showing an example of conventional bone density classification. According to the Lekholm & Zarb classification, the bone density is divided into four groups. Type 1 represents a bone composed of a homogeneous bony cortical bone, and Type 2 Type 3 refers to a bony bone composed of a thin bone cortex and dense cancellous bone. Type 4 refers to a bone consisting of a very thin bone cortex and a low density cancellous bone. The Misch classification is a sensory and intuitive classification compared to the Lekholm & Zarb classification. D1 represents the density or hardness of the oak tree or maple, D2 represents the density or hardness of the pine or spruce tree, And D4 represents density or hardness of about styrofoam.

FIG. 2 is a diagram showing an example of the jawbone indicating the Misch classification. It is known that the upper anterior portion 11 mainly has density or hardness of D3 and rarely has density or hardness of D2. The maxillary posterior portion 12 has a density or hardness of D4 and is known to have D3 density or hardness in case of Sinus grafting or the like. It is known that the anterior mandible 21 has a density or hardness of D2, and about 25% of the resorbed anterior mandible has a density or hardness of D1. The mandibular posterior 22 is predominantly D3 to dense to hard and rarely has D2 density to hardness. There is a problem in intuitively grasping the actual condition of the jawbone or alveolar bone when practicing the implant drilling using wooden blocks divided into four groups D1, D2, D3 and D4 as in the prior art . That is, when drilling is performed on a block (for example, a pine block or a spruce block) having a density or hardness of D2, the density or hardness of D2 mainly corresponds to the lower front 21, This also applies to a part of the jawbone of the anterior 11, so that it is difficult for the practitioner to match the block with the anatomical structure of the corresponding part of the jawbone or the alveolar bone. The density or hardness of D3 corresponds mainly to the upper front 11 and the lower rear 22 when drilling is performed on a block having a density or hardness of D3 (for example, a launch block) This also applies to a portion of the jawbone of the jawbone, so that it is difficult for the practitioner to intuitively match the block to the anatomical structure of the corresponding part of the jawbone or the alveolar bone. Misch classification also shows the density or hardness of bones on the basis of trees, which is not easy to maintain consistent characteristics according to the age of the tree, the dryness of the tree, the area of the tree (central or lateral) There is a problem that it is not easy to feel the feeling of drilling in the process of training. That is, since the blocks are excessively subdivided and the subdivided blocks are not reproducible or inconsistent, it is difficult to practice the drilling while feeling the density or hardness of the alveolar bone according to the anatomical structure of the alveolar bone during the practice.

This will be described later in the Specification for Implementation of the Invention.

SUMMARY OF THE INVENTION Herein, a general summary of the present disclosure is provided, which should not be construed as limiting the scope of the present disclosure. of its features).

In a set of artificial alveolar bone blocks used in a drilling practice of an implant hole, according to one aspect of the present disclosure, a first alveolar bone block set having a first hardness range corresponding to a hardness in front of the mandible, block; A second block having a second hardness range corresponding to the hardness of the mandible rear and the hardness of the front of the maxilla and having a hardness lower than the hardness of the first block; And a third block having a third hardness range corresponding to the hardness of the maxillary posterior and having a hardness lower than the hardness of the second block.

According to another aspect of the present disclosure, there is provided a set of artificial alveolar bone blocks for use in a drilling exercise for an implant, the artificial alveolar bone block set having a first hardness range corresponding to a hardness in front of the mandible, A first block having the same hardness as the first block; A second block having a hardness lower than a hardness of the first block and having a density and a hardness, the second block having a second hardness range corresponding to the hardness of the lower back and the hardness of the upper part of the front side; And a third block having a third hardness range corresponding to the hardness of the maxillary posterior and having a hardness lower than the hardness of the second block.

This will be described later in the Specification for Implementation of the Invention.

1 is a table showing an example of a conventional bone density classification,
2 is a view showing an example of the jawbone showing the Misch classification,
3 and 4 are views for explaining the artificial alveolar bone block set according to the present disclosure.

FIGS. 3 and 4 are views for explaining a set of artificial alveolar bone blocks according to the present disclosure, in which the set of artificial alveolar bone blocks includes a first block 10 having a first hardness range corresponding to the hardness of the mandible front 21, A hardness N (e.g., 65) lower than the hardness H (e.g., 85, 75) of the first block 10 and having a second hardness range corresponding to the hardness of the back 22 and the hardness of the upper front 11 A second block 20 having a second hardness range corresponding to the hardness of the maxillary posterior 12 and a hardness S less than a hardness N of the second block 20; And a third block 30 having a value smaller than the lower limit of the hardness range). The block set was composed of three blocks (10, 20, 30) so as to correspond to the anatomical structure of the alveolar bone according to density or hardness. For example, a block can be made in a size of (30 mm x 85 mm x 19 mm).

The first block 10 is configured to correspond to the mandible front 21 having the highest hardness in the alveolar bone and the second block 20 is configured to correspond to the mandible rear 22 and the maxillary front 11, And the third block 30 is configured to have a hardness corresponding to the maxilla posterior 12 having the lowest hardness. With this configuration, the practitioner can practice the implant drilling in a state where the position of the actual alveolar bone is matched with the density or hardness thereof.

Preferably, the block set is made of a synthetic resin. By stably reproducing the hardness of the alveolar bone through the synthetic resin, it is possible to provide a block set excellent in reproducibility unlike a tree. Further, by using the synthetic resin, the colors of the respective blocks 10, 20 and 30 can be different, and the corresponding blocks can be distinguished without a separate label. There are no particular restrictions on the material and manufacturing method provided that the hardness is presented. For example, the synthetic resin can be made of polyurethane, and the hardness can be changed by adjusting the amount of the additive (synthetic resin having a hardness of 75: polyurethane (70 to 75%), soda lime borosilicate glass %), Aluminum hydroxide (15 to 18%), hardness 50, synthetic resin: polyurethane (80 to 88%) and soda lime borosilicate glass (12 to 20%). However, in the case of the third block 30, considering the hardness range, it is difficult to find an economically suitable material while making the hardness of the synthetic resin material to be similar to that of the alveolar bone drilling, It is desirable to solve this problem by combining the used synthetic resin with wood. For example, the third block 30 may consist of a body 31 as a firing neck and a coating film 32 formed thereon to give a cortical bone feel, Lt; RTI ID = 0.0 > a < / RTI > Likewise, the synthetic resin forming the film 32 may be made of a polyurethane material, and it is also possible to control the hardness by adjusting the additives. It is possible to increase the hardness of the entire third block 30 by configuring the coating film 32 to have a hardness higher than that of the main body 31. [ The coating film or the synthetic resin film 32 may be formed through coating, but it is also possible to adhere to the main body 31 after the film formation. Therefore, this is referred to as a hardness reinforcing film. Incidentally, in this way, it becomes possible for the practitioner to feel the initial feeling of entry into the alveolar bone of the drill, which can be felt when drilling the upper posterior 11 of the actual alveolar bone.

The first hardness range is a range including 85 and 75, which corresponds to the hardness of the mandible front 21. The second hardness range is a range including 65, 50, which is a range corresponding to the hardness of the mandible rear 22 and the hardness of the maxillary front 11. The third range of hardness is a range corresponding to the hardness of the maxillary posterior 12 and has a value smaller than the lower limit of the second range of hardness (in the case of a soft material such as a firing neck, Hardness value is the value applied Shore D type hardness meter. The hardness reinforcing membrane may be made of a variety of materials used for coating the surface for the purpose of protecting materials such as urethane coating, UV coating, paint spraying, rinsing and the like.

Hereinafter, various embodiments of the present disclosure will be described.

(1) A set of artificial alveolar bone blocks used in a drilling exercise for an implant, comprising: a first block having a first hardness range corresponding to a hardness in front of the mandible; A second block having a second hardness range corresponding to the hardness of the mandible rear and the hardness of the front of the maxilla and having a hardness lower than the hardness of the first block; And a third block having a third hardness range corresponding to the hardness of the maxilla and having a hardness lower than the hardness of the second block. In the case where the third block is composed of a plurality of layers, the hardness means an average hardness.

(2) A set of artificial alveolar bone blocks including a first hardness range of 75 hardness. As a result of the test, dentists preferred a hardness of 75 to a hardness of 85.

(3) A set of artificial alveolar bone blocks including a second hardness range of 50 hardness. As a result of testing, dentists preferred a hardness of hardness 65 to hardness 65.

(4) The artificial alveolar bone block set as set forth in (3), wherein the third block has a hardness enhancing membrane on a side where a drill is inserted.

(5) A set of artificial alveolar bone blocks used in a drilling exercise for an implant, comprising: a first block having a first hardness range corresponding to the hardness of the mandible front and having the same density and hardness; A second block having a hardness lower than a hardness of the first block and having a density and a hardness, the second block having a second hardness range corresponding to the hardness of the lower back and the hardness of the upper part of the front side; And a third block having a third hardness range corresponding to the hardness of the maxillary posterior and having a hardness lower than the hardness of the second block. It should be understood by those skilled in the art that the densities and the hardnesses are commonly referred to as the density and hardness at the time of producing the synthetic resin.

(6) The artificial alveolar bone block set in which the first block and the second block are made of synthetic resin. The third block may also be made of synthetic resin.

(7) Each of the first block, the second block and the third block is a synthetic alveolar bone block set at least partially.

(8) The third block is a set of artificial alveolar bone blocks containing wood material.

(9) The third block is a set of artificial alveolar bone blocks in which a hardness reinforcing membrane is bonded to a body made of wood.

One set of artificial alveolar bone blocks according to the present disclosure makes it possible to practice implant drilling in accordance with the anatomical structure of the actual alveolar bone.

Another set of artificial alveolar bone blocks according to the present disclosure makes it possible to provide a set of artificial alveolar bone blocks having consistent hardness.

The first block 10, the second block 20, the third block 30, the main body 31, the coating film or the synthetic resin film 32

Claims (5)

In the artificial alveolar bone block set used for the drilling practice of the implant hole,
A first block having a first hardness range corresponding to the hardness of the mandibular anterior and having the same density and hardness;
A second block having a second hardness range corresponding to the hardness of the lower back and the hardness of the maxillary anterior, having a hardness lower than that of the first block, and having the same density and hardness; And,
And a third block having a third hardness range corresponding to the hardness of the posterior maxilla and having a hardness lower than that of the second block. The method according to claim 1,
The first block and the second block is an artificial alveolar bone block set made of a synthetic resin. The method according to claim 1 or 2,
Each of the first block, the second block and the third block is a synthetic alveolar bone block set of at least a portion of a synthetic resin. Claim 3
The third block is an artificial alveolar block set comprising a wood material. The method of claim 4,
The third block is an artificial alveolar bone block set, the hardness reinforcement film is coupled to the body of wood.

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