RU95250U1 - ACTIVE REFORMABLE ELASTOPOSITIONER - Google Patents

Abstract

 An elastopositioner made of an elastic material, characterized in that it has tooth vestibular arches for the upper and lower dentition.

Description

The utility model relates to medicine, namely to orthodontics, and can be used to treat dentoalveolar anomalies and deformities, eliminate bad habits and conduct myogymnastic training in any period of formation of the maxillofacial system.

A similar apparatus is the retainer proposed by Dr. Osamu Yoshil in 1980 (Persia L.S. Orthodontics. Treatment of dentofacial anomalies - M .: Scientific-Publishing House. Center "Engineer", 1998. - S. 266-267.). The horseshoe-shaped design covers the dental arch and part of the mucous membrane in the cervical region. The teeth to the alveolar process are covered with soft plastic BIOPLAST, which, in turn, together with the occlusal surface is covered with IMPRELON S. The main and only function of this design is to maintain the achieved results after the end of the active period of orthodontic treatment using the bracket system. The disadvantages of this apparatus are the impossibility of manufacturing a double jaw structure, the absence of a therapeutic effect on the dentition, the predominant use only in the period of the formed permanent bite.

A device proposed by Professor Dr. Hinz in 1982, the vestibular plate MUPPY of various modifications (www.dr-hinz-dental.de/). Structurally, the apparatus is a standard manufactured plate of hypoallergenic medical silicone filling the vestibular cavity. The device is manufactured in two dimensional modifications for a temporary and intermittent bite, marked with the corresponding color (with a red retaining ring for a temporary bite, with blue for a interchangeable bite). The vestibular plate MUPPY is used as an auxiliary device for speech therapy, eliminates the oral type of breathing, strengthens the circular muscle of the mouth, and can complement orthodontic treatment. The main disadvantages of this design are the impossibility of individualizing the size of the plate (standard manufacturing method), the absence of mechanically acting elements, age restrictions for use (temporary and first period of a replacement bite).

The closest prototype in design to the proposed device is an apparatus from the TRAINER group proposed in 1989 by Dr. Chris Farrell from Australia and further patented by MYOFUNCTIONAL RESEARCH CO. (International and Russian patents: 5,259,762; 5,624,257; 60 / 618,691; 6,637,436; 656715; 676142; 2004905924). Orthodontic constructions of this group are double-jawed elastomers made of soft plastic and medical silicone as standard. TRAINER is used to eliminate bad habits and treat abnormalities and deformations of the dentition. Significant disadvantages of this design is:

1. A standard manufacturing method with a limited set of apparatus sizes not covering the whole range of parameters of the patient’s dentition.

2. The inability to repair in a dental laboratory in the event of a breakdown or relocation of the apparatus.

3. The lack of individually transforming active structural elements by the attending physician.

4. The complexity of caring for TRAINER at home.

5. The high price of the device.

The purpose of our development is to create a device that allows for the active correction of dentoalveolar anomalies and deformations, eliminates bad habits and fixed pathological reflexes, and trains masticatory and facial muscles at different age periods in orthodontic patients.

Active transforming elastopositioner includes: pelot for the upper lip (1); hole for oral breathing (2); vestibular steel arch on the upper dentition (3); vestibular steel arch on the lower dentition (4); pelot for the lower lip (5); cells for anterior teeth (6); buccal shield (7); lingual emphasis (8); cells for posterior teeth (9).

The structural elements are fixed on an individually made basis of soft plastic covering the vestibular and intraoral surfaces of the teeth and the adjacent mucosa of the alveolar processes.

In the basis of the orthodontic design in the anterior section there are two openings for oral breathing with the effect of deprogramming a bad habit (2) (see Figure 1, Figure 3.).

Functional elements of the device are:

1. Vestibular pelota with cuts for the frenulum of the upper and lower lips for myogymnastics of the circular muscles of the mouth, fight against bad habits and stimulate the growth of the apical basis in the anterior section (1, 5) (see Figure 1, Figure 3).

2. Intraoral lingual emphasis for training the muscles of the tongue and eliminating the infantile type of swallowing (8), (see Figure 2, Figure 3).

3. Cheek shields that divert the muscles of the cheeks from the lateral parts of the dentition and stimulate the growth of the apical base in the distal parts of the dentoalveolar complex (7).

Mechanically acting elements of an elastopositioner are presented:

The vestibular arches on the upper and lower dentition are integrated into the elastic base. Their main functions: elimination of anomalies in the position of individual teeth or segments of the dental arches and active expansion of the dentoalveolar complex (3, 4), (see Figure 1, Figure 3). Due to the inclusion of these arcs in the design of the elasto positioner, anomalies of any degree of complexity are eliminated in all periods of functioning of the dentofacial system.

The fixation of the apparatus in the oral cavity is due to the formation of multiple interocclusal contacts between the upper and lower dentition when the jaws are closed in the corresponding cells of the elastopositioner (6, 9) Fig.2.

The advantages of the proposed active transforming elastopositioner are:

1. The manufacture according to individual models of the dentition of the patient, that is, a detailed conversion of the biometric parameters of the dental arches in the process of orthodontic treatment.

2. Active force on moving teeth or dentitions with the help of vestibularly located steel arches without periodontal overload.

3. The materials used to make the apparatus are non-toxic.

4. The ability to conduct active modeling of the relief of the apparatus base during relocation and repair in a clinical setting.

5. The elastomer is easily applied and removed from the oral cavity, this is important in the treatment of patients in early childhood.

6. Good aesthetics, as the elastopositioner is completely transparent.

7. The absence of the stage of modeling the design by the dental technician using wax compositions, which significantly reduces the cost of the elastopositioner.

8. The simplicity of hygienic care for the orthodontic design at home, does not require special sterilization methods.

The technical result of manufacturing an active reformed elastopositioner is achieved by using stainless steel orthodontic wire with a cross section of 0.7-0.8 mm and soft plastic "Bioplast" followed by polymerization in a Biostar apparatus manufactured by Shoy-Dental KG. The main clinical and technical stages of the manufacture of the apparatus:

1. Removal of working impressions from the upper and lower jaw in the patient using a silicone impression mass.

2. Casting working models of the upper and lower jaws of super gypsum with the formation of the cap.

3. Bending and fitting tooth arches for the upper and lower jaw made of orthodontic wire with a cross section of 0.7-0.8 mm (the wire cross section is selected individually depending on the size by which the teeth need to be moved).

4. Smoothing the surfaces of the bases of gypsum models of the jaws and their rapid wetting with water.

5. Strengthening of the dental arches on the vestibular surface of the models in the center of the clinical crowns of teeth with sticky dental wax.

6. Placing the modeling platform on the same level as the top edge of the modeling cup.

7. Installation of models on the platform in the position of constructive bite and the imposition of a round billet of material "Bioplast" 3.0 mm thick on both models of the jaws.

8. A set of a code for polymerization on the Biostar device. Heated plates according to instructions up to 60 degrees. Celsius.

9. Closing the pressing chamber and automatic pressure supply of 5 atm for 15 minutes to clearly display anatomical formations.

10. Opening the pressing chamber after cooling and extracting jaw models with an active reformed elastopositioner.

11. Removing an active reforming elastopositioner from models.

12. Fitting and fixation of the device in the patient's oral cavity. To activate a reforming elastopositioner, it is necessary to apply shaping bends to the steel arc integrated into the elastomeric surface of the elastomer using universal orthodontic forceps. At this stage, the moment of force generated by the tooth arch is transmitted through the elastic layer of the apparatus to the moved teeth.

Thus, the orthodontic device that we have proposed — an active reformed elastopositioner — contains new mechanically acting elements — tooth arches, which allow transmitting force without periodontal overload of the moved teeth due to the elastic layer of soft plastic. Therefore, this orthodontic apparatus allows you to treat most dentoalveolar anomalies and deformities of various severity and origin, actively eliminate bad habits in children and conduct myogymnastic training of the muscles of the maxillofacial region. The introduction into clinical practice of an active reforming elastopositioner will improve the quality of orthodontic care for patients in various age groups, while reducing the total time of the active treatment period and retention of the results achieved.

Description to the figures.

Figure 1. Front view of an active reforming elastopositioner.

1. Pelot for the upper lip.

2. Hole for oral breathing.

3. The vestibular steel arch on the upper dentition.

4. The vestibular steel arch on the lower dentition.

5. Pelot for the lower lip.

Figure 2 Top view of an active reforming elastopositioner.

1. Pelot for the upper lip.

6. Cells for the front teeth.

7. Cheek shield.

8. Language emphasis.

9. Cells for posterior teeth.

Figure 3 Rear view of an active reforming elastopositioner.

1. Pelot for the upper lip.

2. Hole for oral breathing.

3. The vestibular steel arch on the upper dentition.

4. The vestibular steel arch on the lower dentition.

5. Pelot for the lower lip.

8. Language emphasis.

Claims (1)

An elastopositioner made of an elastic material, characterized in that it has tooth vestibular arches for the upper and lower dentition.