RU191108U1 - ORTHODONTIC TREATMENT DEVICE - Google Patents

Abstract

The utility model relates to the field of orthodontics, in particular, to devices for mesial displacement of the lateral segments of the dental arch in case of unilateral or bilateral adentia of lateral incisors. The problem solved by the claimed utility model is to create an effective apparatus for orthodontic treatment. Achievable technical result - elimination of integrity risks teeth exposed to unwanted side effects of the treatment, their displacement in the vestibulooral direction and rotation around the ver tical axis. The effect is achieved by ensuring stable, highly reliable fixation of these teeth during the treatment. The result is achieved by the fact that in the apparatus for orthodontic treatment, which includes at least two, designed for installation in the hard palate of the implants with fixing screws and rigidly interconnected abutments, and also a tooth fixer rigidly connected with the abutments that are exposed to the undesirable effects of the treatment, containing the supports of these teeth from the palatal surface, and, in addition to of the tooth, including the fastening elements of the orthodontic traction, in contrast to the known, the teeth retainer supports are made in the form of tool holders of these teeth, exactly repeating the shape of their palatal surface. include fastening elements for orthodontic traction. 2 s.p. crystals, 4 FIG.

Description

The invention relates to the field of orthodontics, in particular, to devices for orthodontic treatment, for example, for mesial displacement of the lateral segment in case of unilateral or bilateral adentia of lateral incisors.

With orthodontic treatment, one of the essential conditions is the stabilization of the position of teeth exposed to undesirable side effects during treatment. For example, with orthodontic replacement, both with symmetric and asymmetric closure of spaces, part of the force applied to the mesially moved teeth is transmitted and acts on the teeth, the position of which should not change during treatment. The effectiveness of such treatment is largely determined by the reliability of the stabilization of the position of these teeth.

Known apparatus for orthodontic treatment [Sebastian Baumgaertel, D.M.D., M.S.D. TAD Clinical Reference Guide. (TAD Clinical Reference Guide). - 1st Annual TAD User Forum November 6-7, 2009 Henderson, Nevada, c. 10], including the indirect support of the frontal incisors from the palatine surface. The supporting base of the apparatus is an implant installed in the area of the hard palate. The T-shaped clamp is made of stainless steel bar. At the base, a T-shaped retainer is welded to the abutment fixed on the implant with a fixing screw, the support - the upper crossbar of the T-shaped retainer - is glued to the palatal surfaces of the front incisors with composite adhesive during treatment. The mesialization of the lateral segments is ensured by the stepwise movement of the teeth of the lateral segment with an orthodontic traction fixed on braces that are installed on the vestibular surfaces of the moved teeth.

The disadvantage of the described apparatus, first of all, is that the contact of the palatine surface of the tooth with a support in the form of an arc from a round bar can be provided only on a small part of the width of the tooth at the level of the location of the bar, since it is almost impossible to accurately reproduce the tooth relief by deforming the wire. The consequence of this is a high and uneven pressure of support on the palatal surface of the tooth, which occurs as a reaction to the application of undesirable efforts to the tooth, an adverse treatment phenomenon, which creates a risk of tooth integrity failure. Also, the concentration of the counter-support force in a horizontal line on the palatine surface of the tooth entails the risk of vestibulooral movement of the tooth when the vectors of application of efforts in height do not coincide. Mismatch of the force application vectors in the horizontal plane entails the risk of the tooth turning around the vertical axis. In addition, the use of a single implant as a support base can lead to distal displacement of the central incisors and a displacement of the center line due to rotation of the abutment around the axis of the implant with insufficient force to tighten the mounting screw, especially in the case of treatment of unilateral adentia.

Thus, the use of the described apparatus for treatment does not provide reliable stabilization of the position of teeth exposed to undesirable side effects during treatment.

Closest to the proposed model is an apparatus for orthodontic treatment ("T-Mesialslider") [BJORN LUDWIG, DMD, MSD etc. Non-Compliance Space Closure in Patients with Missing Maxillary Lateral Incisors. - JCO, Inc., v. XLVII, No. 3, pp. 180, 182. www.jco-online.com] shown in FIG. one.

The T-Mesialslider device includes two implants 1 installed in the area of the hard palate, fixing screws 2 and abutments 3, rigidly connected to each other. The fixative of the central incisors in the form of arcs 4 from a stainless steel bar is welded to the abutments. The arches 4 are designed to fix the central incisors and include supports 5, which are glued to the palatal surface of the incisors using composite glue during treatment. Guides made of stainless steel bar are also welded to the abutments 3 to accommodate the fastening elements of the orthodontic rods 6.

Due to the use of two abutments rigidly interconnected in the support base in the prototype apparatus, the disadvantage of the analogue is eliminated - the possibility of turning the latch in the distal direction.

However, the main disadvantage of the analogue apparatus is not eliminated - during the treatment process, the risks of violating the integrity of the tooth, vestibulooral movement and rotation of the tooth around the vertical axis remain, so the use of the prototype apparatus also does not provide reliable stabilization of the position of the teeth exposed to undesirable side effects during treatment .

The problem solved by the claimed utility model is the creation of an apparatus for orthodontic treatment, devoid of the disadvantages of the prototype apparatus, and, in particular, an apparatus that can be effectively used in the treatment of unilateral or bilateral adentia for mesial displacement of the lateral segments of the dental arch.

Achievable technical result - the elimination of risks of violation of the integrity of the teeth exposed to the undesirable effects of side effects of the treatment, and their displacement in the vestibulooral direction or rotation around the vertical axis. The effect is achieved by ensuring stable, highly reliable fixation of these teeth during treatment.

This result is achieved due to the fact that in the known apparatus for orthodontic treatment, including at least two, designed to be installed in the hard palate of the implants with fixing screws and rigidly connected abutments, as well as rigidly connected with the abutments tooth retainer subjected to unwanted exposure to treatment containing supports of these teeth from the side of their palatine surface, and, in addition, including fastening elements for orthodontic traction, in contrast to the known support tooth sator made in the form of lodgments of these teeth, completely repeating the shape of their palatine surface.

 An optimal embodiment of the apparatus is in which the tooth position fixer and abutments are made as a single part. Also, a single part may include fastening elements for orthodontic traction.

The novelty of the proposed solution lies in the fact that in the apparatus for orthodontic treatment the supports of the fixative of the teeth exposed to the undesirable effects of the treatment are made in the form of lodgments of these teeth. Such a solution is not currently known in the art.

The essence of the proposed utility model is that its differences from known similar solutions ensure the achievement of the specified technical result. As you know, the shape of the surface of the lodgement of a body exactly repeats the shape of the surface of the part of the body in contact with the lodgement. In this case, the surface of each support in the form of a lodgement completely repeats the shape of the palatine surface of the fixed tooth. As a result, the support will adjoin the palatine surface of the tooth over the entire area of this surface, which provides an even force distributed over the entire palatal surface of the tooth to counteract unwanted side effects, minimize pressure on this surface and, therefore, eliminate the risk of damage to the integrity of the tooth, as well as the risk of vestibulooral move or rotate a tooth around a vertical axis. The use of lodgements makes it possible to take into account individual characteristics of the patient.

The implementation of the retainer position of the teeth and abutments in the form of a single part, obviously, strengthens the design as a whole and greatly simplifies the manufacturing process of the retainer.

In addition, the inclusion in the single part of the fastening elements of the orthodontic rods of the device optimizes the design of the device, reducing the number of its individual components and expanding the possibilities of placing rods.

Thus, as shown above, the totality of the distinguishing features of the proposed orthodontic apparatus ensures the achievement of the indicated technical effect - the maximum elimination of the risk of violation of the integrity of the teeth exposed to undesirable side effects of the treatment, and their shift in the vestibulooral direction and rotation around the vertical axis.

In addition, the proposed utility model has another qualitative advantage over devices with clamps made of steel bar (analog, prototype), which usually use a variety of cataloged elements that provide ample opportunity to choose a design that is appropriate for a particular patient. However, in the manufacture of the apparatus, the manual work step is inevitable: deformation of the bar to the desired individual shape, welding, etc. In the manufacturing process of the apparatus according to the utility model, operations of manual transformation (“customization”) of standard parts are excluded. Instead of such operations, the required geometry of the support of the apparatus lock is reproduced according to an individual model, with high accuracy, which practically does not depend on the level of professionalism of the master.

The proposed utility model is an individual device initially, and the device is called “IMAS”, by analogy with the well-known abbreviation “MAS” - Miniscrew Anchorage System, to which the keyword - Individual is added. Without changing the abbreviation, you can more accurately interpret it as the Individual Maxilla skeletal System - System of the Individual Maxillary Skeletal Anchorage

The essence of the utility model is illustrated in FIG. 1-4, on which are presented:

FIG. 1 Apparatus for orthodontic treatment T-Mesialslider (prototype).

FIG. 2 Apparatus for orthodontic treatment of unilateral adentia in accordance with the proposed utility model.

FIG. 3 Virtual model of the apparatus for orthodontic treatment.

FIG. 4 The apparatus for orthodontic treatment, made according to the model of Fig. 3.

In figures 1, 2, 3, 4 indicated:

1 - implants;

2 - fixing screws;

3 - abutments;

4 - a clamp;

5 - a support of a clamp;

6 - fastening element for orthodontic traction.

In FIG. 2 presents a specific embodiment of the apparatus for mesial displacement of the lateral segment in the case of a unilateral adentia of the lateral incisors, made in accordance with the proposed utility model. The apparatus consists of a retainer 4 and abutments 3 made in the form of a single molded part, fixed by fixing screws 2 on implants 1, installed in the area of the hard palate (implants 1 are closed by fixing screws 2 and abutments 3 and are not visible in Fig. 2). The supports 5 of the retainer 4 are made in the form of lodges of the central incisors exposed to the undesirable effects of the treatment. The latch 4 also contains fastening elements for the orthodontic traction 6. FIG. 2 shows an embodiment of the latch 4 and the abutment 3 in the form of a single part made by casting.

In FIG. Figure 3 presents a virtual model of the device, developed according to the results of 3D scanning of the patient's oral cavity or impressions, or models of his jaws.

In FIG. 4 shows an orthodontic treatment apparatus made according to the model of FIG. 3. The picture shows the lodgments that accurately reproduce the shape of the palatine surfaces of the patient’s teeth.

Modern technologies make it possible to produce lodgements with high accuracy of reproducing all the nuances of the palatal surface of the protected teeth. Currently, various technologies are available for the production of single parts from dental materials that provide the required high surface quality, for example, centrifugal casting or 3D printing.

The industrial applicability of the claimed utility model is clearly illustrated by the example of the manufacture and installation of an individual apparatus for a patient using the principle of maxillary skeletal anchorage for the treatment of adentia. These devices have been successfully used in medical practice, while all the advantages described above have been fully confirmed. The device uses a clamp in the form of a single part with abutments and fastening elements for orthodontic rods. The manufacturing process of such an apparatus is the following sequence of main steps:

obtaining a 3D model of an individual picture of the relief of the palatal surface of the teeth and the relief of the hard palate of a particular patient;

analysis of the resulting model;

the manufacture of a surgical template for installing implants in the sky based on the individual picture obtained;

creation of a virtual model of a retainer with abutments and fastening elements for orthodontic traction;

manufacture of a latch based on the resulting virtual model.

The retainer with abutments and tie rod attachment elements in this case was made by 3D printing.

After that, the assembly and installation of the device in the oral cavity of the patient is performed. First, using a surgical template, implants are placed at selected points in the hard palate. The manufactured single piece is installed and fixed in the oral cavity on the implants with fixing screws, the clamp lodgements are glued to the palatine surfaces of the central incisors using composite glue or double-cured cement.

Computer simulation allows you to achieve almost perfect precision manufacturing of individual dental devices without additional patient visits to the doctor. In addition, the flexibility and creative nature of the 3D modeling process allows the attending physician to most fully and effectively take into account all the individual characteristics of the patient, to develop and implement an individual treatment plan.

Thus, as shown above, the proposed utility model is new and industrially feasible. Its use can significantly improve the quality of orthodontic treatment.

Claims (3)

1. Apparatus for orthodontic treatment, including at least two intended for installation in the area of the hard palate of implants with fixing screws and rigidly connected abutments, as well as a fixative of teeth rigidly connected with abutments that are subjected to undesirable effects of the treatment, containing the supports of these teeth sides of their palatal surface, and, in addition, including fastening elements for orthodontic traction, characterized in that the retainer supports of teeth exposed to undesirable effects are carried out treatment, performed in the form of lodgments of these teeth, completely repeating the shape of the palatal surface of the fixed teeth. 2. The apparatus according to p. 1, characterized in that the retainer of the teeth exposed to the undesirable effects of the treatment, and the abutments are made in the form of a single part. 3. The apparatus according to p. 1, characterized in that the fastening elements of the orthodontic rods are located, including, on the teeth retainer.

Images