RU2479263C1 - Method for forming holes in bone tissue of alveolar crest, and device for implementing it - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to surgical dentistry and may be used for intraosseous dental implantation. Within the missing teeth, an incision extends along a vertex of the alveolar crest, and a mucoperiosteal flap is detached. Bushings with cone-shaped holes and reinforcing elastic strips of different width, shape and perforation rate are inserted into the incision. They are fixed with hypoallergenic, non-toxic and hardening plastic having a high degree of plasticity before hardening. After the hypoallergenic plastic paste is hardened, it is removed above the reinforcing strips. The cortical plate is perforated by a conductor having axial holes a diameter of which corresponds to that of a perforation tool. After the holes are formed in the tooth-free section of the alveolar crest, the paste is completely degraded and removed from the oral cavity.

EFFECT: higher quality of prosthetic replacement procedure ensured by forming in the tooth-free section of the alveolar crest the holes of the pre-set length having collinear symmetry axes in the vertex of the alveolar crest and equispaced from the teeth adjoining the tooth-free section.

2 cl, 12 dwg, 1 ex

Description

The invention relates to surgical dentistry and can be used for intraosseous dental implantation.

There is a method of dental implantation, when after dissection with a scalpel along the alveolar ridge of the mucous membrane and periosteum, in the area of missing teeth, they produce holes in the bone tissue with a special drill. In the case of a large toothless area, two holes are made, which can then be connected to form a solid bed into which implants are subsequently inserted. In this case, the second hole is made in the alveolar ridge with the help of a conductor, which provides a certain spatial orientation of the two holes relative to each other. In this case, the conductor is a metal strip having a handle at one end. Equally spaced holes of different diameters corresponding to different diameters of the drills used in implantation are made along and symmetrically on the plane of the strip. (Information resource http://dentalimplantclinic.net/news/endooassalimplantation/ DENTAL Implant DENTAL CENTER; Conductor for precise drilling of a bed Stainless steel (Zr coating), catalog number K P039. Nizhny Novgorod Institute of Dental Implantology NIITOP. Information source http: // www.nidi.m / site.aspx? IID = 370663 & SECTIONID = 379461).

The disadvantage of this method is its lack of ability to ensure collinearity (parallelism) of the axes of the holes and at the same time ensure that both holes are made in the center of the alveolar ridge.

A known method of rapid implantation, characterized by a simultaneous load on the implant, which consists in the fact that the implant is installed immediately after tooth or root extraction. In this case, a conductor model is compiled on the computer with four holes through which four implants can be drilled and inserted simultaneously and immediately with ready-made dentures (Information resource http://stomcentr.ru/?page=implant ANTERA Dental Center).

The disadvantage of this method is the lack of ability to ensure collinearity (parallelism) of the axes of the holes in the bone tissue and at the same time ensure that both holes are made in the center of the alveolar ridge.

A device is known, which is a universal assembly device - a conductor and consisting of a supporting surface of the conductor, a conical retainer, a screw clamp and a clamp, as well as an additional support. In this case, the part, for example, in the form of a rail is mounted on the surface of the conductor, and its longitudinal position is fixed by a conical retainer. In the conductor, the part is clamped with a screw clamp and a clamp. An additional support is brought to the part to prevent its deflection during processing. The conductor allows you to perform two holes without readjustment (p. 11 Fig. 1.1. AP Belousov. Design of machine tools: a manual for students of technical schools. - 3rd ed., Revised and revised. - M .: Higher School, 1980 . - 240 p., Ill.).

A disadvantage of the known device is the impossibility of using it in the bone tissue of the alveolar ridge of the holes of a given spatial orientation.

A known method of obtaining sections of animal and plant tissue, which consists in a special treatment of tissues, leading it to a solid state. As such processing of tissues, freezing is used either by impregnating it with molten paraffin, which, when cooled, becomes solid, or by replacing cell water with xylene, and then displacing the latter with molten paraffin (see source of information)

http://www.nsau.edu.ru/vetfac/departments/kafedra_anatomHystology/uchebnaya/gistemb/rabochproggistiembr/textproblekc/vvodnlekcpogist/). Hard fabric has a certain stiffness, as a result of which it is easy to make holes at the required point.

The disadvantage of this method is the fact that its use is impossible on a living person, for example, when implanting a tooth.

Known surgical conductor (patent No. 2231317 RU, IPC АВВ 17/17, АВВ 17/24, publ. 02/14/2004), containing a L-shaped housing, a smaller part of which is equipped with installation means, and most of which are rotatably connected and fixing with an extended removable bar. The removable rod has an end guide with a working channel. The working channel is oriented across the longitudinal axis. Most of the L-shaped housing is connected to a removable elongated rod by means of a transverse axis with a clamp. The transverse axis is located in the plane of bending of the housing and has a latch located in the transverse slot, which is made in the rod. The end guide is made in the form of a replaceable sleeve and has a working channel of a special design for inserting a drill and a self-cutting threaded element with a working outer diameter, the value of which exceeds the diameter of the working channel. The elongated removable rod along the longitudinal axis has additional holes for attaching the replaceable sleeve.

A disadvantage of the known surgical jig is the lack of the possibility of its exact orientation in space, since with the help of a pin and an installation tool it is impossible to provide the necessary orientation in the space of the surgical jig relative to the alveolar ridge

The closest in technical essence is the method of intraosseous dental implantation (patent RU No. 2350289, IPC АВВ 17/24, publ. 03/27/2009), which consists in the fact that in the area of missing teeth an incision is made along the crest of the alveolar process and the mucosal-periosteal flap is detached prepare the maternal bed by perforating the cortical plate, introduce two-stage implants, make a sampling from the donor area of the bone autograft, lay it in the area of the defect, and return the mucoperiosteal flap to esto and tightly sutured wound.

The disadvantage of this method is the insufficient quality of the prosthetics due to the lack of the ability to ensure collinearity (parallelism) of the axes of the holes in the bone tissue and at the same time ensure that both holes are made in the center of the alveolar ridge.

The closest in technical essence to the device that implements the inventive method is a surgical conductor (patent No. 2344771 RU, A61B 17/17, A61B 17/24, publ. 01/27/2009), containing an arcuate body, orienting means and measuring element . The housing is equipped with a guide, made with the possibility of rotation of its longitudinal axis, and has the ability to provide reciprocating movement through it of a cylindrical rod-shaped surgical instrument. The casing is made in the form of a flat figured plate, part of which is made rectilinear and part arcuate. The longitudinal part of the plate is provided with a longitudinal hole. The guide is made in the form of a removable tube, the wall of which is rigidly connected with a rod equipped with a thread. The thread size does not exceed the width of the longitudinal hole. The rod is passed through a longitudinal hole with the possibility of fixing with a nut. A shelf is fixed at the upper end of the housing. The plane of the shelf is perpendicular to the surface of the flat curly plate and is oriented along its concave edge. The edges of the shelves are equipped with parallel guides. The guides are made with the possibility of providing reciprocating movement through them of the measuring element, made in the form of a flexible metal tape with measured divisions. The tape is provided with a longitudinal slot. The orienting means is made in the form of a pointed hairpin. The hairpin is passed through the sleeve. The sleeve is rigidly fixed to the plate, perpendicular to it through an opening in the plate and through a slot in a flexible metal tape. The arcuate body is equipped with a handle - holder. Handle - the holder is fastened with the convex edge of the arcuate body. The longitudinal axis of the tube, guide and bushings are placed in the same plane.

A disadvantage of the known device is the inability to process holes in the bone tissue of the alveolar ridge with it.

The objective of the invention is to improve the quality of prosthetics by making holes of a given length in the toothless fragment of the alveolar ridge with collinear axes of symmetry at the top of the alveolar ridge and equally spaced from the teeth bordering the toothless area.

The problem is solved due to the fact that in the method of making holes in the bone tissue of the alveolar ridge, namely, in the region of missing teeth, an incision is made along the top of the ridge of the alveolar ridge and the mucosal-periosteal flap is detached, the mother bed is prepared by perforating the cortical plate, according to the invention , in the cut set bushings with conical holes and fittings made in the form of flexible tapes of various widths having different shapes and perforation intervals, I fix hypoallergenic non-toxic and hardening plastic, having a high degree of plasticity before hardening, after hardening the hypoallergenic plastic mass, it is removed, and the cortical plate is perforated by a conductor having axial holes whose diameter corresponds to the perforating tool, after making holes in the toothless portion of the alveolar ridge completely destroyed and removed from the oral cavity.

A device comprising a flat figured plate having a longitudinal hole, a flexible tape with a longitudinal slot, a sleeve fixed relative to the flat figured plate, while the width of the longitudinal hole of the flat figured plate has a lower limit, according to the invention, the flat figured plate is made in the form of a flexible tape with a longitudinal symmetry, has alternating perforations symmetrically located along the length of the elastic plate in the form of holes with chamfers and longitudinal holes made in the form of a rectangular Cove, wherein the perforation holes in the form of a mutually alternating groups orientation chamfer on one side and the other side of the flat shaped plate made of a flexible tape with symmetrical symmetry; a flexible tape with a longitudinal slot has the width of a rectangular perforation of a flat shaped plate made in the form of a flexible tape with longitudinal symmetry, and the longitudinal slot is replaced by a group of holes symmetrically located along the length of the flexible tape, while the holes are made with chamfers that have a group of alternating orientations from one side and on the other side of the flexible tape; a flat shaped plate made in the form of a flexible tape with longitudinal symmetry and a flexible tape are bent so that a flexible tape with perforation in the form of holes with chamfers is included in the rectangular perforations of a flat shaped plate made in the form of a flexible tape with longitudinal symmetry, so that the bevels perforations in the form of holes of both flexible tapes are directed outward with respect to the surfaces of axisymmetric composite cylindrical mandrels, including bushings and having parallel two flats, the width of one of which is equal to the width of a flat curly plate made in the form of a flexible tape with longitudinal symmetry, and the width of the other flat is equal to the width of a flexible ribbon, the surfaces of the flats are in contact with the surfaces of a flat curly plate made in the form of a flexible tape with longitudinal symmetry, and flexible tape, while one component of an axisymmetric composite cylindrical mandrel in the form of a cylindrical sleeve is made with a conical hole, the surface of which is mated with a conical outer surface another component of the axisymmetric composite cylindrical mandrel, which is a finger with a conical outer end and having an earring on its other cylindrical end face, or in contact with the outer conical surface of the conductor having two parallel flats and an axisymmetric through hole on its cylindrical end; a flat figured plate made in the form of a flexible tape with longitudinal symmetry, a flexible tape, axisymmetric composite cylindrical mandrels and cylindrical bushings with conical holes, the surfaces of which are associated with the outer conical surface of the conductor having a through cylindrical axisymmetric hole and the outer conical surface at one end thereof; the components of the axisymmetric composite cylindrical mandrel are placed in a plastic mass for fixation in space relative to the alveolar ridge of the cylindrical bushings with a conical hole so that the conductor opening is free of plastic mass.

The proposed method is as follows.

In the area of missing teeth, an incision is made along the top of the crest of the alveolar ridge and detachment of the mucoperiosteal flap. In the cut, sleeves with conical holes and fittings made in the form of flexible tapes of various widths having different shapes and periodicities of perforation are installed. They are fixed with a hypoallergenic non-toxic and hardening plastic, which has a high degree of plasticity before hardening, after hardening a hypoallergenic plastic mass, it is removed. Perforation of the cortical plate is carried out by a conductor having axial openings, the diameter of which corresponds to the perforating instrument, after making holes in the toothless portion of the alveolar ridge, the mass is completely destroyed and removed from the oral cavity.

Clinical example.

Patient S. went to the clinic complaining of a lack of teeth in the lateral parts of the lower jaw. In the area of missing teeth, we dissect the periosteum and expand the flaps of the dissected tissue. We place the installation nodes between the ends of the flaps of the dissected periosteum. (figure 1 and figure 2). We fix with Duralay plastic mass from Dental MFG CO (US). The mass hardened within 6 minutes We remove the mass above the installation fittings. We make holes in the toothless area of the alveolar ridge. We remove the remains of the destroyed hardened plastic mass from the oral cavity. We install implants in the holes.

The conductor that implements the method is illustrated by drawings:

Figure 1 shows a top view of the toothless portion of the alveolar ridge 17 with adjacent teeth, two flexible bands 1 and 2 and one composite axisymmetric cylindrical mandrel 3 and an enlarged view of a place A;

figure 2 is a top view of the toothless portion of the alveolar ridge 17 with adjacent teeth, two flexible bands 1 and 2 and three composite axisymmetric cylindrical mandrels 3 and an enlarged view of a place A;

figure 3 is a top view of a toothless portion of the alveolar ridge with adjacent teeth placed in a plastic mass 18, two flexible bands 1, 2 and one composite axisymmetric cylindrical mandrel 3;

figure 4 is a top view of the toothless portion of the alveolar ridge 17 placed in the plastic mass 18 with adjacent teeth, two flexible bands 1 and 2, one composite axisymmetric cylindrical mandrel 3 and two bushings 4 with conical holes with conductors placed in each of them 6 s holes corresponding to the diameter of the drill or cutter;

figure 5 is a front view and a side view with a breakout of a flexible tape with longitudinal symmetry 1 with bevels having a direction alternately opposite to the thickness of the plate;

Fig.6 is a front view and a side view with a tear of a narrow elastic plate 2, with holes 8 made in it, the chamfers of which are turned in different directions in groups of three;

in Fig.7 is a frontal side view, a pullout and a cross section of the front view of the assembly of an axisymmetric composite cylindrical mandrel 3;

Fig. 8 shows an assembly drawing of flexible tapes 1 and 2, an axisymmetric cylindrical mandrel 3, a reduced diameter, a sleeve 4 with a tapered bore with a conductor 6 placed therein, a sleeve 4 with a tapered bore and two adjacent teeth 16 placed in a plastic mass 18;

figure 9 - sleeve 4 with a conical hole, which is a component of an axisymmetric composite cylindrical mandrel 3;

figure 10 - finger 5 with a breakaway axisymmetric composite cylindrical mandrel 3 with an earring 10, fragments of flats 11, 12 and a section of the conical outer surface 9;

figure 11 is a front view, side view and a cross section of the front view of the conductor 6;

on Fig - frontal section of the assembly drawing of the conductor 6 and the sleeve 4 with a tapered hole.

The use of plastic mass for fixing and orienting in space elastic plastic plates as reinforcement, fixing the spatial position of axisymmetric composite cylindrical mandrels, allows you to quickly, accurately and painlessly provide the necessary spatial orientation over axisymmetric composite cylindrical mandrels dissected to the periosteum. The reinforcement in the form of elastic plates allows to give the hardened plastic mass additional rigidity, which provides greater accuracy in the spatial orientation of axisymmetric composite cylindrical mandrels. Axisymmetric composite cylindrical mandrels can be divided into two components, one of which - the finger has at its end a centering assembly in the form of an external conical surface and can be removed from the hardened plastic mass. Instead of the removed finger with a conical outer surface, a conductor is installed having an outer conical axisymmetric surface and an axial central hole with a diameter corresponding to the diameter of the drill or cutter, with which a hole is made in the alveolar ridge. After making holes in the alveolar ridge, the plastic mass is destroyed and removed from the toothless portion of the alveolar ridge. As a result of this, holes can be made in the alveolar ridge that have the necessary spatial orientation of the relative toothless portion of the alveolar ridge, in which implants are subsequently inserted.

Thus, making holes in the alveolar ridge allows you to select those sections of the alveolar ridge where the greatest width of bone tissue takes place. In this case, the implant has the greatest rigidity. The possibility of orientation in space of the axes of the holes made in the alveolar ridge allows optimal installation in the future, for example, on the abutment of a prosthetic crown (not shown in the drawing) to ensure maximum aesthetic effect.

The conductor that implements the method consists of a flexible tape with longitudinal symmetry 1 and a flexible tape 2, of an axisymmetric composite cylindrical mandrel 3, which in turn consists of a sleeve 4 with a conical hole and a finger 5 with a portion of the conical outer surface 9, and also of the conductor 6 .

A flexible tape with longitudinal symmetry 1 has perforation in the form of rectangles 7 and holes 8 with chamfers. Perforation in the form of rectangles 7 and holes 8 is made symmetrically along the length of the flexible tape with longitudinal symmetry 1. The narrow elastic plate 2 has perforations in the form of holes 8 located along the axis of symmetry along the length of the plate 2. The width of the rectangular perforation 7 corresponds to the width of the narrow elastic plate 2.

The finger 5 with a portion of the conical outer surface 9 has an earring 10 on its cylindrical end face.

On the outer surface of the axisymmetric composite cylindrical mandrel 3, two parallel flats 11 and 12 are made. The width of the flat 11 corresponds to the width of the flexible tape with longitudinal symmetry 1, and the width of the flat 12 corresponds to the width of the flexible tape 2. The conductor 6 has an outer conical surface 13, which corresponds to its geometrical parameters of the conical surface 9. At the end of the cylindrical surface of the conductor 6 there are two pairs of flats 14. Parallel to each other, the planes of each pair Llelica flats 14 are perpendicular to each other. Along the axis of symmetry of the conductor 6, a hole 15 is made, the diameter of which can correspond to the diameter of the bur or cutter (not shown in the figures).

In this case, the flexible tape 1 and 2 after crossing their ends touch the pair of teeth 16 bordering the toothless area of the alveolar ridge 17.

Flexible tapes 1 and 2, axisymmetric composite cylindrical mandrels 3, bushings 4 with a conical hole, conductors 6 are placed in a frozen plastic mass 18.

The device that implements the inventive method is equipped with two flexible tapes 1 and 2, the first of which is larger in width, alternating perforation in the form of holes 8 with chamfers and rectangles 7 symmetrically located along the length of the flexible tape with longitudinal symmetry 1, the second flexible tape 2 has a width not more than the width of a rectangular 7 perforation of a flexible tape with longitudinal symmetry 1 and has perforations symmetrically located along the length of a flexible tape with longitudinal symmetry 1 in the form of holes 8 with chamfers. The chamfers of holes 8 on a flexible tape with longitudinal symmetry 1 are alternately oriented relative to the width of the flexible tape with longitudinal symmetry 1. Flexible tape 2 has chamfers of holes 8, the direction of which can be alternated in groups of 1 or 2 or 3 holes 8 with respect to the thickness of the flexible tape 2. In this case, the flexible tapes 1 and 2 are bent so that the flexible tape 2 with perforations in the form of holes 8 with bevels is included in the rectangular 7 perforations of the flexible tape with longitudinal symmetry 1 so that between the crossed flexible tapes Composite cylindrical mandrels 3 are installed in sections 1 and 2. Mandrels 3 have flats 11 and 12 parallel to each other on a cylindrical surface, the width of one of which is equal to the width of the first elastic plate 11, and the width of the other flat 12 is equal to the width of the flexible tape 2, the surface of the flats 11 and 12 are in contact with the surfaces of the flexible tapes 1, 2, respectively. The mandrel 3 consists of a cylindrical sleeve 4 with a conical hole, the surface of which mates with the conical outer surface 9 of the finger 5 of the axisymmetric composite cylindrical mandrel 3, having an earring 10 at the end of its cylindrical surface. Cylindrical sleeves 4 can be placed between the planes of the flexible tapes 1 and 2 conical holes, the surface of which is conjugated with the outer conical surface 13 of the conductor 6, having at the end of its cylindrical surface two pairs of pairwise parallel lines ca. 14 and axially symmetrical hole 15 at the end. The planes of each pair of parallel flats 14 are perpendicular to each other. Two flexible tapes 1 and 2, axisymmetric composite cylindrical mandrels 3 and cylindrical bushings 4 with conical holes, the surfaces of which are mated to the outer conical surface 13 of the conductor 6, having an axisymmetric through hole 15 at its end and with the conical surface 9 of the finger 5 of the axisymmetric composite cylindrical mandrel 3, are placed in the plastic mass 18. The plastic mass 18 should not cover the hole 15 of the conductor 6.

A device that implements the inventive method works as follows. In the region of missing teeth (not shown in the figures), two flexible tapes 1 and 2 are placed on the alveolar ridge 17, variously perforated plates having different widths. In this case, the flexible tape 2 having a smaller width is included in the rectangular 7 groove of the perforation of the flexible tape with a longitudinal symmetry 1 of greater width so that axisymmetric composite cylindrical mandrels 3 can be installed between the planes of the flexible tapes 1 and 3. Between the surfaces of the flexible tapes 1, 2 and the surfaces of the flats made on the cylindrical surface of the axisymmetric composite cylindrical mandrels 3, there should be no gap. The end of two flexible tapes 1 and 2 touch the surface of the teeth 16 bordering the region of missing teeth (not shown in the figures) of the alveolar ridge 17, and are crossed. The number of axisymmetric composite cylindrical mandrels 3 should be no more than 3. In the case of one axisymmetric composite cylindrical mandrel 3 in the area of missing teeth (not shown in the figures) one hole will be made. In the case of two or three axisymmetric composite cylindrical mandrels 3 in the region of missing teeth (not shown in the figures), 2 holes will be made, but with different distances between the axes of the holes made, all other things being equal. The elasticity of the used perforated flexible tapes 1 and 2 is ensured by an interference fit, which leads to a uniform distribution of axisymmetric composite cylindrical mandrels 3 between the teeth 16 bordering the toothless portion of the alveolar ridge 17. The high transverse stiffness of the flexible tapes 1 and 2 allows the plate to bend only along the length of the flexible tapes 1 and 2. For the indicated reason, a flexible tape with longitudinal symmetry 1 touches its flank surface 11 with its lateral surface and a lateral surface of flexible tape 2 touches the flange surface 12. One ako uniformity of distribution of compound used axisymmetric cylindrical mandrels 3, placed between the skew perforated flexible bands 1 and 2, it is not on the alveolar ridge 17 and the chordal teeth 16 between the boundary portion of the alveolar crest with missing teeth 17 (not shown in the figures). This means that the symmetry axis of the composite cylindrical mandrels 3 will not be located above the top of the alveolar ridge 17. To ensure the symmetry axes of the composite cylindrical mandrels 3 above the top of the alveolar ridge 17, corresponding to the toothless fragment, perforated crossing flexible tapes 1 and 2 with axisymmetric located between them composite cylindrical mandrels 3 are placed in a dental quick-hardening plastic mass 18, for example, Dental D (source of information http://www.dental-revue.ru/index.php? page = 16 & artId = 36). In this case, the soft plastic mass 18 is applied so that it touches the adjacent teeth 16, so that the ends of the axisymmetric composite cylindrical mandrels 3 are not covered by the plastic mass 18. When applying the plastic mass 18, the dentist aligns the spatial position of the crossing flexible bands 1 and 2 so that the axes symmetries of the composite cylindrical mandrels 3 are located above the vertices of the alveolar ridge 17 of the toothless jaw section. If there is not enough bone tissue on the jawbone to make an opening for the implant (not shown in the figures), the dentist can slightly move the design of flexible tapes 1, 2 and axisymmetric composite cylindrical mandrels 3 to the area of the alveolar ridge 17, where the bone tissue is enough to make the hole . After the plastic mass 18 has hardened, the finger 5 of the axisymmetric composite cylindrical mandrel 3 is removed from the plastic mass 18 (finger 5 having the outer conical surface 9 is removed by the earring 10).

That component of the axisymmetric composite cylindrical mandrel 3, which is made in the form of a sleeve 4 with a conical hole, remains in the plastic mass 18 and subsequently serves as an installation unit for accommodating various conductors 6. The internal conical hole in the component of the axisymmetric composite cylindrical mandrel 3, which is made in the form of a sleeve 4 with a conical hole, it is necessary to center the conductors 6, which are bushings with holes 15 of a certain diameter. The outer surface of the conductor 6 has a conical surface 13, therefore, when installing the conductor 6 in the component of the axisymmetric composite cylindrical mandrel 3, made in the form of a sleeve 4 with a conical hole, the outer 13 and the inner 9 and the outer conical surfaces are mated and thus the necessary orientation occurs (centering) holes 15 gauge in relation to the top of the alveolar ridge 17. The diameter of the inner hole 15 of the conductor 6 corresponds to the diameter of the dental bur (not shown in the figures) Akim of the way that there was a snug fit.

To make holes in the alveolar ridge 17, a conductor 6 is installed in the component of the axisymmetric composite cylindrical mandrel 3, made in the form of a sleeve 4 with a conical hole fixed in the frozen plastic mass 18, and a dental, for example, boron is placed in the hole 15 of the conductor 6 (on figures not shown). The cylindrical surface of the hole 15 of the conductor 6 and boron (cutters) (not shown in the figures) lead to the necessary orientation of the hole in the alveolar ridge 17.

When placing a dental instrument (not shown in the figures) in the hole 15 of the conductor 6, difficulties can arise due to the plastic mass 18, which can interfere with the shape and size of the dental instrument (not shown in the figures) in the hole 15 of the conductor 6. In this case that part of the plastic mass 18 that interferes with the installation of a dental instrument (not shown in the figures) in the hole 15 of the conductor 6 can be removed, for example, by milling. However, the mass (volume) of the milled plastic should not reduce the strength characteristics of the structure of flexible tapes 1, 2 and axisymmetric composite cylindrical mandrels 3 placed in the plastic mass 18.

The cylindrical surface of axisymmetric composite mandrels 3 has a low level of roughness (after grinding R _z ≤1.25 μm according to GOST 2789-73), therefore, they can be removed manually, without various devices.

Flexible tapes 1 and 2 are perforated. A flexible tape with longitudinal symmetry 1 has axisymmetric in width, periodic rectangular 7 grooves having a width exceeding the width of the flexible tape 2 of small width by no more than 0.1-0.15 mm. Flexible tape 2 and flexible tape with longitudinal symmetry 1 elastic plates have holes 8 with chamfers made by extrusion. In this case, on a flexible tape with longitudinal symmetry 1, round holes 8 have chamfers, which alternately change the facet orientation in groups, i.e. two chamfers of two holes 8, between which there is a rectangular 7 perforation hole, are oriented on different sides of a flexible tape with longitudinal symmetry 1 (if one hole is made on the toothless section of the alveolar ridge 17 between two teeth 18). If it is necessary to make two holes on the toothless portion of the alveolar ridge of a flexible tape with longitudinal symmetry 1, it is performed in such a way that the holes 8 have an orientation of their chamfers three in different directions relative to the width of the flexible tape with longitudinal symmetry 1 (see Fig. 5) . This is necessary so that the chamfers are directed outward with respect to the cylindrical surfaces of the axisymmetric composite mandrels 3 and the sleeve 4 with a conical hole. On a narrow flexible tape 2, the orientation of the chamfers of the perforation holes 8 changes the orientation of the chamfers in groups, i.e., for example, two or three adjacent holes 8 have chamfers oriented one way relative to the width of the flexible tape 2, the next two or three holes 8 are oriented chamfers to the other side relative to the width of the flexible tape 2. This extrusion of the chamfers of the holes 8 is due to the fact that when installing flexible tapes 1 and 2 in the oral cavity, the latter should have sections on which the chamfers of the holes 8 face their protruding surface water (opposite to the cylindrical surface of the axisymmetric composite mandrels 3) from the cylindrical surface of the axisymmetric composite mandrels 3. This is a fact, as well as the flexible tapes 1 and 2 have chamfers on both sides, the necessary conditions for better adhesion between the surface of the flexible tapes 1 and 2 with a plastic mass of 18, after hardening.

Each axisymmetric composite cylindrical mandrel 3, installed between the intersecting flexible tapes 1 and 2, consists of two axisymmetric cylindrical components mating along the conical surfaces 9 and 13. One component in the form of a finger 5 has a conical outer surface 9, and the second component of the axisymmetric composite cylindrical mandrel 3 is a cylindrical sleeve 4 with a tapered bore. The taper of the inner conical hole corresponds to the metric taper of 1:20, which is more easily technologically feasible in comparison with the Morse taper (see table 2.9 on page 61 of the Handbook of the designer-toolmaker. Under the general editorship of Ph.D. V.I. Baranchikova. M.: Engineering, 1994 - 560 p., Ill. - (Designer Library)).

From the hardened (solidified) plastic mass 18, finger 5 of an axisymmetric composite cylindrical mandrel 3, which has an outer conical surface 9, is removed. On the opposite (cylindrical) end of finger 5 of an axisymmetric composite cylindrical mandrel 3, having an outer conical surface 9, an earring 10 is made for convenient extraction her from a frozen plastic mass 18.

The axisymmetric composite cylindrical mandrel 3 in the assembled state has on its cylindrical surface two parallel flats 11 and 12 having different widths. The symmetry axis of the flats 11 and 12 lie in the same plane with the axis of symmetry of the axisymmetric composite cylindrical mandrel 3, which is perpendicular to one of the ends of the finger 5 of the axisymmetric composite cylindrical mandrel 3, made in the form of a sleeve 4 with a conical hole. The width of the smaller flat 12 corresponds to the width of the narrow flexible tape 2, and the width of the larger flat 11 corresponds to the width of the flexible tape with longitudinal symmetry 1. These flats 11 and 12 are necessary so that there is no slipping between the flexible tapes 1, 2 and the axisymmetric composite cylindrical mandrels 3 in assembled condition. In this case, the resulting design of flexible tapes 1, 2 and axisymmetric composite cylindrical mandrels 3 in the assembled state has sufficient rigidity so that the dentist can place it (structure) over the alveolar ridge 17 so that the symmetry axis of the composite cylindrical mandrels 3 in the assembled condition could be above the top of the alveolar ridge 17, after which the whole structure is placed in a softened plastic mass 18, for example, Dental D, which subsequently hardens.

The axisymmetric composite cylindrical mandrels 3 in the assembled state can have different outer diameters. In this case, there is an additional opportunity to control the distance between the axis of symmetry of the axisymmetric composite cylindrical mandrels 3 in the assembled state and thus to adjust the distance between the holes made in the alveolar ridge 17. In addition, if some finger 5 of the axisymmetric composite cylindrical mandrel 3 is not supposed to be removed from hardened plastic mass 18, i.e. this axisymmetric composite cylindrical mandrel 3 is used to form some spatial orientation of the flexible tapes 1 and 2; then, the axisymmetric cylindrical mandrel 3 can be made integral. In this case, a higher structural strength is achieved from crossing flexible tapes 1 and 2, from bushings 4 with a tapered bore and conductors 6 installed in them, and also from axisymmetric cylindrical mandrels 3, when the whole structure is placed in a frozen plastic mass 18.

The design of the conductor 6 is such that on a cylindrical surface bordering the end of the conductor 6, two pairs of parallel parallel flats 14 are made, for which the dentist installs or removes the conductor 6 from the sleeve 4 with a conical hole. Removing the conductor 6 from the mounting unit in the form of a sleeve 4 with a conical hole is necessary after, for example, a hole of the required length for implantation, but of a smaller diameter, is drilled at the top of the alveolar ridge 17. After that, the conductor 6 is removed with a Central hole 15, the diameter of which corresponds to the diameter of the drill or boron (not shown in the figures). Next, in the mounting unit, made in the form of a sleeve 4 with a conical hole, a conductor 6 is installed with an opening 15 corresponding to the diameter of the cutter (not shown in the figures), and an implant hole is made (not shown in the figures).

The height of each jig 6 determines the depth of the hole made at the apex of the alveolar ridge 17. When making a hole, the collet (not shown in the figures) with the tool clamped in it will abut against the end of the jig 6, and thus the depth of the hole made in the bone tissue will be limited.

The material of the conductor 6 is preferably selected from malleable steels and alloys. In this case, when the cutting surface of the boron, drill or cutter (not shown in the figures) comes into contact with the surface of the conductor 6, the formation of micro-chips is more difficult than on soft or brittle alloys and steels.

The elasticity of the flexible tapes 1 and 2, the presence of chamfers on the cylindrical surfaces of the axisymmetric composite cylindrical mandrels 3 in the assembled state lead to the fact that the axis of symmetry of the axisymmetric composite cylindrical mandrels 3 in the assembled state will be coplanar. For the same reason, the axis of symmetry of the holes in the alveolar ridge 17, made using conductors 6 and comprising axisymmetric composite cylindrical mandrels 3 in the form of bushings 4 with a conical hole and fingers 5, placed in the hardened plastic mass 18, will be parallel, i.e. coplanar.

After making holes for the implant (not shown in the figures) in the alveolar ridge 17, the hardened dental plastic mass 18, for example, Dental D, is removed manually, if possible. If it is not possible to manually remove the hardened plastic mass 18, then it (plastic mass 18) is first weakened with boron (not shown in the figures), and then broken in order to remove the plastic from the oral cavity. In this case, together with the hardened plastic mass 18, the sleeve (s) 4 with a conical hole and the conductor (s) 6 installed in it (them), as well as the perforated flexible tapes 1, 2 and the axisymmetric composite cylindrical mandrel 3 are removed. 4 with a conical hole, conductors 6, perforated flexible tapes 1 and 2 and composite axisymmetric composite cylindrical mandrels 3 can be used again in the future.

With a collinear (parallel) arrangement of the axes of the implants (not shown in the figures), with equidistant axes of the implants (not shown in the figures) from the surface of the nearest teeth, 16 a crown (not shown in the figures), subsequently installed on the abutment (not shown in the figures), has further uniform loading and uniform wear of work surfaces. In addition, the enamel applied to the crown substrate (not shown in the figures) in this case will have the same thickness on the entire surface of the crown (not shown in the figures), which will eliminate further enamel chips caused by uneven loading of the crown (not shown in the figures). In addition, the dental prosthetist (technician) will be able to vary to a small extent the thickness of the ceramic coating of the crown substrate (not shown in the figures), which will eliminate large gaps between the surface of a healthy tooth 16 and the surface of the ceramic coating of the crown (not shown in the figures). For this reason, the aesthetic results of prosthetics will also be improved by installing implants.

In the case when the area without two teeth is being operated on and when the adjacent teeth 16 began to change their position (close), it is especially important to make holes for the implant (not shown in the figures) in the middle of the toothless area and on the top of the alveolar ridge 17. With this design of the hole, the crown is installed (not shown in the figures) on the abutment (not shown in the figures) will have a ceramic coating of the same thickness, which will increase the performance of the crown (not shown in the figures) and increase the aesthetic effect of the prosthetics I implantation by ensuring a minimum gap between the surfaces of adjacent teeth 16 and the surface of the crown (not shown in the figures).

Claims (2)

1. The method of making holes in the bone tissue of the alveolar ridge, which consists in the fact that in the region of missing teeth an incision is made along the top of the ridge of the alveolar process and the mucosal-periosteal flap is detached, the mother bed is prepared by perforating the cortical plate, characterized in that bushings are inserted into the incision with conical holes and fittings made in the form of flexible tapes of various widths, having different shapes and periodicities of perforation, fix hypoallergenic non-toxic and tv plastic with a high degree of plasticity before hardening, after hardening the hypoallergenic plastic mass, it is removed above the mounting fixture, and the cortical plate is perforated by a conductor having axial holes whose diameter corresponds to the perforating tool, after making holes in the toothless portion of the alveolar ridge, the mass is completely destroy and remove from the oral cavity. 2. A conductor containing a flat figured plate having a longitudinal hole, a flexible tape with a longitudinal slot, a sleeve fixed relative to the flat figured plate, the width of the longitudinal hole of the flat figured plate having a bottom restriction, characterized in that, in order to make holes in the toothless a fragment of the jaw of a hole of a given length with collinear axes of symmetry at the apex of the alveolar ridge and equally spaced from the teeth bordering the toothless area, the flat shaped plate is made in the form of with a tape of longitudinal symmetry, it has alternating perforations symmetrically located along the length of the elastic plate in the form of holes with chamfers and longitudinal holes made in the form of rectangles, while the perforation in the form of holes has pairwise alternating groups of facets on one side and on the other side of a flat, curly plates made in the form of a flexible tape with symmetric symmetry; a flexible tape with a longitudinal slot has a width of rectangular perforation of a flat figured plate made in the form of a flexible tape with longitudinal symmetry, and a group of holes replaced symmetrically along the length of the flexible tape is replaced with a longitudinal slot, while the holes are made with chamfers that have a group of alternating orientations with one side and the other side of the flexible tape; a flat shaped plate made in the form of a flexible tape with longitudinal symmetry and a flexible tape are bent so that a flexible tape with perforation in the form of holes with chamfers is included in the rectangular perforations of a flat shaped plate made in the form of a flexible tape with longitudinal symmetry, so that the bevels perforations in the form of holes of both flexible tapes are directed outward with respect to the surfaces of axisymmetric composite cylindrical mandrels, including bushings and having parallel two flats, the width of one of which is equal to the width of a flat curly plate made in the form of a flexible tape with longitudinal symmetry, and the width of the other flat is equal to the width of a flexible ribbon, the surfaces of the flats are in contact with the surfaces of a flat curly plate made in the form of a flexible tape with longitudinal symmetry, and flexible tape, while one component of an axisymmetric composite cylindrical mandrel in the form of a cylindrical sleeve is made with a conical hole, the surface of which is mated with a conical outer surface another component of the axisymmetric composite cylindrical mandrel, which is a finger with a conical outer end and having an earring on its other cylindrical end face, or in contact with the outer conical surface of the conductor having two parallel flats and an axisymmetric through hole on its cylindrical end; a flat figured plate made in the form of a flexible tape with longitudinal symmetry, a flexible tape, axisymmetric composite cylindrical mandrels and cylindrical bushings with conical holes, the surfaces of which are mated to the outer conical surface of the conductor having a through cylindrical axisymmetric hole and the outer conical surface at one of its ends; the components of the axisymmetric composite cylindrical mandrel are placed in a plastic mass for fixation in space relative to the alveolar ridge of the cylindrical bushings with a conical hole so that the conductor hole is free of plastic mass.

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