RU211995U1 - Device for correcting the position of teeth - Google Patents

Abstract

The utility model relates to orthodontics and can be used to obtain the desired position of the teeth. Removable orthodontic device for correcting the position of teeth is made in the form of an aligner made of a polymeric material having the shape of a dentition and at least one working cavity for applying constant pressure to the teeth. The device has through holes through the entire thickness of the dentition and blind holes for 2/3 of the thickness of the dentition. Through holes are made for air access to tooth enamel and have diameters from 1 mm to 5 mm. Blind holes have diameters from 1 μm to 5 mm and are partially grouped near the working cavity to change the elasticity of the walls of the working cavity. The technical result of the utility model is to improve the results of treatment by accurately moving the teeth with constant pressure on the tooth in combination with controlled tension of the material in different parts of the dentition and with controlled resistance of the material in different parts of the dentition.

Description

The utility model relates to orthodontics and can be used to obtain the desired position of the teeth.

One of the most difficult tasks in dentistry is the orthodontic treatment of patients. Approximately 90% of the population needs specialized orthodontic care, therefore, it is necessary to provide an individual approach to orthodontic treatment with a predictable result through the use of modern methods. An important condition should be considered the prevention of complications and the optimization of existing treatment methods. Today's dental orthodontics can offer many ways to create a snow-white, even, and at the same time completely natural smile. Correction of the bite can be carried out according to three key methods. The first method uses various removable devices, the second involves the installation of braces, the third direction includes bite correction using various mouthguards, the so-called aligners. Aligners are an orthodontic removable system made of a medical polymer and designed to align teeth and correct bite (Gevorgyan T.V., Makeeva I.M., Gevorkyan O.V. Basic methods for manufacturing aligners. Indications and contraindications for their use, Orthodontics , - 2012). Aligner treatment is based on planning, on which all further actions and interactions with the patient are based, as well as obtaining an accurate result.

Known removable device (aligner) for the correction of the patient's dentition (US 6705863 A, 16.03.2004). In this device, to create a corrective pressure force on the teeth, fastening and adjusting elements are used, which are attached to the teeth with glue or biomaterials with adhesive. This device is complex in design, expensive in cost and time-consuming to use.

A closer analogue (prototype) of the utility model is a device for correcting the position of teeth in the form of a monolithic aligner made of polymeric material in the form of a dentition with cavities for applying constant pressure to at least one tooth (US 2020/0170757 A1, 06/04/2020 ).

The known device does not have the possibility of adjustments and effectively affects the teeth mainly in their frontal segment, since the manufacture of a cap from silicone requires its implementation with supporting areas of great rigidity.

The utility model is aimed at solving a technical problem, which consists in creating a design that does not have the disadvantages of known devices.

The technical result of the utility model is to improve the results of treatment by accurately moving the teeth with constant pressure on the tooth in combination with controlled tension of the material in different parts of the dentition and with controlled resistance of the material in different parts of the dentition.

The essence of the utility model is expressed in a set of essential features, in which a removable orthodontic device for correcting the position of teeth in the form of an aligner made of a polymeric material having the shape of a dentition and at least one working cavity for applying constant pressure on the teeth, which differs from the closest analogue in that which is made with through holes through the entire thickness of the dentition and with blind holes with a depth of not more than 2/3 of the thickness of the dentition, moreover, the through holes are made for air access to the tooth enamel and have diameters from 1 mm to 5 mm, and the blind holes have diameters from 10 microns to 1 mm and partially grouped near the working cavity to change the elasticity of the walls of the working cavity.

The essence of the utility model is illustrated by drawings, where

in fig. 1 - view of the kappa from above, showing through and blind holes of different diameters;

in fig. 2 is a sectional view of the kappa, showing through and blind holes of various shapes, diameters and depths.

The removable orthodontic device for correcting the position of the teeth is made in the form of an aligner 1 made of a polymeric material having the shape of a dentition and at least one working cavity 2 for applying constant pressure on the teeth. The device has through holes 3 through the entire thickness of the dentition 2 and blind holes 4 for 2/3 of the thickness of the dentition. Through holes 3 are made for air access to tooth enamel and have diameters from 1 mm to 5 mm. Blind holes 4 have diameters from 1 μm to 5 mm and are partially grouped near the working cavity 2 to change the elasticity of the walls of the working cavity 2.

To apply the utility model, a full range of diagnostic measures are carried out to draw up a treatment plan. Complaints are identified, anamnesis is taken, objective extra- and intra-oral parameters of the patient are recorded. Impressions are taken, which are scanned on a laboratory scanner, or a three-dimensional model of the jaw is obtained using an intraoral 3D scanner. To assess the condition of the roots, computed tomography of the teeth and jaw is performed. The patient's smile is photographed in full face and in profile. With the help of photography, the manufacturing process of the utility model is controlled at the stage when the models are plastered or scanned, and the compliance of the received solid model in STL format with the objective parameters of the patient is checked. They model the treatment plan in CAD using the Maestro Ortho Studio program, create a series of digital models for treatment planning and make a device for correcting the position of the teeth.

The operation of the utility model is illustrated by the following examples.

Example 1. Patient G., male, aged 21, applied to an orthodontic clinic with complaints of a diastema between the central incisors. During the examination, it was found that the diastema reaches 3 mm. To speed up the treatment, mouth guards were made from DURAN BIOPLAST vinyl acetate polymer, which were perforated with holes with diameters from 1 mm to 5 mm, in increments of 1 mm to 2 mm. Holes formed at the place of contact of the mouthguard with the anterior incisors of the upper jaw were applied automatically using CNC needles heated to a temperature of (150-200)°. The needles were built according to a predetermined scheme, and holes of different depths, diameters and shapes were made. At least 70% of the holes were through, 30% were blind. By applying holes, it was possible to reduce the number of mouthguards used from 15 to 10. The effect was achieved due to the fact that the mouthguard acquired greater elasticity and the movement to tighten continued throughout the entire period of wearing the aligner. As a result of wearing 7 mouthguards, it was possible to close the diastema.

Example 2. Patient G., a woman, aged 24, came to the clinic with complaints of crowding of the dentition. In the aligners, molded from DURAN BIOPLAST vinyl acetate polymer, the orthodontist, using hand heated needles, made through holes with a diameter of 0.5 mm to 2 mm and blind holes with a diameter of 0.3 mm to 1 mm and a depth of 1/3 up to 2/3 of the aligner in increments of at least 3 mm. Blind holes were applied to increase the elasticity of the mouthguard for the duration of the aligner. As a result, the trays completed the entire treatment program in 6 months instead of the originally planned 10 months.

Example 3. Patient Z., male, 18 years old, came to the orthodontic clinic with complaints about the lack of space for the lower canine. To speed up the treatment, mouth guards were made from DURAN BIOPLAST vinyl acetate polymer, in which through holes with diameters from 0.5 mm to 2 mm and blind holes with diameters from 10 mm were formed in increments of 0.2 mm to 0.4 mm. microns up to 1 mm. Holes formed at the site of contact of the kappa with the molars of the lower jaw were applied automatically using directed laser beams. Laser burning was carried out according to a predetermined scheme, and holes of various depths, diameters, and shapes were made. At least 80% of the holes were through, 20% were blind. By applying holes, it was possible to reduce the number of mouth guards used from 10 to 6. The effect was achieved due to the fact that the mouth guard acquired greater elasticity and the movement to tighten continued throughout the entire period of wearing the aligner.

Example 4 Patient O., a 25-year-old woman, came to an orthodontic clinic complaining of a lack of space for her lower canine. To speed up the treatment, DURAN BIOPLAST vinyl acetate polymer was used to make trays with through holes from 0.3 mm to 3 mm in diameter and blind holes from 10 µm to 1 mm in increments of 0.2 mm to 0.4 mm. Holes formed at the site of contact of the kappa with the molars of the lower jaw were performed automatically by bombarding the kappa with solid heated particles. The formation of holes was carried out according to a previously developed scheme and with different depths, diameters and shapes. At least 80% of the holes were through, 20% were blind. By applying holes, it was possible to reduce the number of mouthguards used from 10 to 6. The effect was achieved due to the fact that the mouthguard acquired greater elasticity and the movement to tighten continued throughout the entire period of wearing it.

Claims (1)

Removable orthodontic device for correcting the position of teeth in the form of an aligner made of a polymer material having the shape of a dentition and at least one working cavity for applying constant pressure on the teeth, characterized in that it is made with through holes through the entire thickness of the dentition and with deaf holes with a depth of not more than 2/3 of the thickness of the dentition, and through holes are made for air access to tooth enamel and have diameters from 1 mm to 5 mm, and blind holes have diameters from 10 microns to 1 mm and are partially grouped next to the working cavity for changing elasticity of the walls of the working cavity.

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