RU2803249C1 - Device for ozone therapy in the oral cavity - Google Patents

Abstract

FIELD: medical equipment.\

SUBSTANCE: invention relates to a device for ozone therapy in the oral cavity. The device contains an aeration chamber with a cavity for accommodating the area to be treated and connected in series by means of tubes to the supply source of the ozone-air mixture, a channel for introducing the ozone-air mixture into the aeration chamber and a channel for withdrawing the ozone-air mixture from the aeration chamber. The aeration chamber between the surface of the teeth and the walls of the housing is formed by a cast of C-silicone covering the outside of the acrylic plastic housing placed in the patient's oral cavity and the entire contour in contact with the teeth and gums. The body has an equal wall length of 3 cm, a body height of 2.5 cm and a wall thickness of 3 mm, and a parabolic cross-section, with an angle of divergence of the body walls: for the chewing group of teeth of the lower jaw 60° or for the chewing group of teeth of the upper jaw 75° or for anterior dental arch 50°. The body width is 2.5 cm or 3 cm and 1.5 cm, respectively. At the top of the parabola, parallel to the housing walls, there are two channels for introducing the ozone-air mixture into the aeration chamber and for withdrawing the ozone-air mixture from the aeration chamber. The channels are L-shaped to connect the housing cavity with the source of supply of the ozone-air mixture by means of two metal tubes made with the possibility of fixation in the housing using a thermoplastic material, and two silicone tubes connected to the metal ones. The source of supply of the ozone-air mixture is the Ozotron apparatus, and the channel for the withdrawal of the ozone-air mixture from the aeration chamber is connected to the destructor of the Ozotron apparatus.

EFFECT: provision of a reliable possibility of treating inflammatory processes, burns, etc. in the oral cavity by using a sealed gas chamber, which excludes the leakage of the ozone-air mixture into the upper respiratory tract.

1 cl, 5 dwg, 1 ex

Description

The invention relates to medical equipment, namely to a device for ozone therapy in the oral cavity and can be used to treat diseases of the oral mucosa, such as inflammatory processes, burns, etc. ozone-air mixture.

One of the most common complications after dental implantation in the oral cavity is inflammation of the surrounding tissues - mucositis, and when bone tissue is involved in this inflammatory process - peri-implantitis. Failure to treat this pathology can lead to disintegration of the dental implant and the appearance of a significant defect in the area of operation.

A device for ozone therapy is known, containing an apparatus for generating ozone, including a pump for air intake, a filter for cleaning the air and removing moisture from it, and a generator, as well as a device for use in treatment, connected via a medical silicone tube to the apparatus (see https:/ /klinika-32.ru/prozone).

An apparatus from W&H Prozone is used as an ozone generator, which uses a pump to draw in air. The air is supplied directly to the filter, which cleans the air and removes moisture from it. Clean, dry air is then sent to the generator. When a high-voltage lamp is discharged, the device produces ozone in the required concentration and with precise dosage.

As a device for using treatment, disposable attachments are used, for example, the Coro attachment for disinfection of carious areas, restorations, use before and after surgery, before filling; Endo attachment for root canal disinfection; Perio attachment for the treatment of periodontal diseases.

Disposable attachments of the well-known Prozone device do not provide the creation of a local aeration chamber and the ability to create a therapeutic effect over an extended area (2-3 teeth), and it is also impossible to use them on the moving part of the oral mucosa.

A device for ozone therapy is known, containing an apparatus for generating an ozone-air mixture, including an ozone destructor, a pump for air intake, a filter for cleaning the air and removing moisture from it and a generator, as well as a device for using the treatment, connected via a medical silicone tube to the apparatus ( see holter24.online>shop/product/ozotr).

The known device is intended for the prevention and treatment of wounds and wound infections in general surgery, traumatology and orthopedics, otorhinolaryngology, dentistry, gynecology, proctology and other areas where anti-inflammatory, bactericidal, fungicidal, antiviral and detoxifying effects are needed.

The Ozotron apparatus is used as a device for generating an ozone-air mixture, and a facial mask B1-125 is used as a device for use in treatment. The mask cannot be used as a carbonation chamber, since it does not create a local sealed cavity, is large, and cannot be used in the oral cavity.

A device is known, adopted as a prototype, containing a carbonation chamber with a cavity to accommodate the area to be treated and connected in series through a medical silicone tube to a source of supply of ozone-air mixture, a channel for introducing the ozone-air mixture into the carbonation chamber and a channel for outputting ozone - air mixture from the aeration chamber (see the description of the invention to the RF patent No. 2148983 “Ozone therapeutic device”, IPC A61N 33/14, published on May 20, 2000) connected.

The device has a bulky aeration chamber that limits the area of application, which cannot be used for treatment in the oral cavity, and is intended for the treatment of skin diseases of the upper and lower extremities.

The technical task and result of the proposed device is to provide a reliable possibility of treating inflammatory processes, burns, etc. in the oral cavity by using a sealed aeration chamber that prevents leakage of the ozone-air mixture into the upper respiratory tract.

This technical result is achieved by the fact that the proposed device for ozone therapy in the oral cavity contains a carbonation chamber with a cavity to accommodate the area to be treated and connected in series through tubes to a source of supply of the ozone-air mixture, a channel for introducing the ozone-air mixture into the carbonation chamber and a channel for removing the ozone-air mixture from the aeration chamber, while the aeration chamber between the surface of the teeth and the walls of the housing is formed by a cast of C-silicone covering the outside of the acrylic plastic body placed in the patient’s oral cavity and the entire contour in contact with the teeth and gums, while the body has an equal wall length of 3 cm, a body height of 2.5 cm and a wall thickness of 3 mm, and a parabolic cross-section, with a divergence angle of the body walls: for the chewing group of teeth of the lower jaw 60° or for the chewing group of teeth of the upper jaw 75° or for frontal part of the dental arch is 50°, and the width of the body is 2.5 cm or 3 cm and 1.5 cm, respectively, while at the top of the parabola, parallel to the walls of the body, two channels are made for introducing the ozone-air mixture into the carbonation chamber and for removal of the ozone-air mixture from the aeration chamber, while the channels are made in an L-shape to connect the housing cavity with the source of supply of the ozone-air mixture, through two metal tubes, made with the possibility of being fixed at one end in the housing using thermoplastic material, and two silicone tubes, connecting metal tubes with the source of supply of the ozone-air mixture by the Ozotron apparatus, and the channel for removing the ozone-air mixture from the aeration chamber is connected to the destructor of the Ozotron apparatus.

A device for ozone therapy in the oral cavity is illustrated in drawings, where in FIG. 1 shows a general view of the device; in fig. 2 - shows a cross-section of the body for the chewing group of teeth of the lower jaw; in fig. 3 - shows a cross-section of the body for the chewing group of teeth of the upper jaw; in fig. 3 - shows a cross-section of the body for the frontal group of teeth; in fig. 5 - body dimensions.

The device contains a housing 1, pre-made of acrylic plastic, having a parabolic cross-section, with a cavity for placing teeth (the cavity is not shown in the drawing) (Fig. 1).

Housings 1 are made in advance, they are universal and have dimensions L×A×H. A significant difference between the types of housings 1 is the width of the housing 1 and the divergence angle of its walls (Fig. 5).

Body 1 can be made of 3 main types: for the chewing group of teeth of the upper jaw, body 1 has dimensions of 3×3×2.5 cm and the angle of divergence of the walls is 75°; for the chewing group of teeth of the lower jaw, body 1 has dimensions of 3×2, 5×2.5 cm and a wall divergence angle of 60° and for the frontal part of the dental arch, body 1 has dimensions of 3×1.5×2.5 cm and a wall divergence angle of 50°. The wall thickness of all housings 1 is equal to b=3 mm (Fig. 3, Fig. 2, Fig. 4).

At the top of the parabola of housing 1, two L-shaped channels 2 and 3 are made parallel to the walls of housing 1. Channels 2 and 3 are designed to connect the cavity of housing 1 through two metal tubes 4 and 5, respectively, with the source of supply of the ozone-air mixture - the Ozotron apparatus. Channel 2 is intended for introducing the ozone-air mixture into the aeration chamber to provide a therapeutic effect, from the outside directly under the body 1, into the resulting aeration chamber between the inner surface of the body 1 and the surface of the teeth located during treatment inside the cavity along the walls of the body 1. Channel 3 is intended for removing the ozone-air mixture from the aeration chamber into the atmosphere to destructure it in order to avoid an overdose - the concentration of ozone in the ozone-air mixture, since ozone is a poisonous gas, and if an overdose occurs, it will cause poisoning in the patient.

Tube 4 is connected to the Ozotron apparatus by means of a silicone tube 6, forming a channel for introducing the ozone-air mixture into the aeration chamber, and tube 5 is connected by a silicone tube 7 to the destructor 8 of the Ozotron apparatus, forming a channel for removing the ozone-air mixture from the chamber carbonation.

Metal tubes 4 and 5 are fixed in housing 1 using thermoplastic material.

A device for ozone therapy in the oral cavity is used as follows.

First, metal tubes 4 and 5 are fixed in housing 1 using thermoplastic material for subsequent connection with silicone tubes to the Ozotron apparatus 9 and the destructor 8 of the Ozotron apparatus.

Then the base component C-silicone is mixed and the housing 1 placed in the patient’s oral cavity is evenly coated from the outside and the entire contour in contact with the teeth and gums so that the housing 1 is covered with silicone and a gas chamber is formed between the walls of the housing 1 and the surface of the teeth.

Housing 1 performs the function of sealing a local area for carrying out therapeutic manipulations on periodontal tissues, lips, and the movable part of the transitional fold of the oral cavity.

After this, body 1 is positioned in the patient’s oral cavity, fixed with base C-silicone; the patient is asked to bite lightly so that teeth marks remain on the silicone in the end part of body 1 at the location of the patient’s teeth and along the gum.

After polymerization of the C-silicone, the body 1 with the resulting impression is removed from the patient’s mouth, the tightness of the impression is checked by the absence of holes and cracks in the C-silicone cast along the contour of the body 1 and, especially at the location of the patient’s teeth.

If necessary, C-silicone is additionally mixed and holes and cracks are removed (liquidated), creating a tight seal during installation and treatment.

Then body 1 with the resulting impression C - made of silicone, is placed in the patient’s oral cavity and metal tubes 4 and 5 are connected using silicone tubes 6 and 7 to the Ozotron apparatus 9 and the destructor 8 of the Ozotron apparatus.

Treatment with ozone therapy is carried out for 10 days with exposure in the oral cavity for 10 minutes, using an ozone dosage in the ozone-air mixture of 1.5 g/m ³ .

Housings 1 are sterilized after each use

Example 1

Patient M., 43 years old. Diagnosis: K10.2 - peri-implant mucositis in the area of implants 45, 46, diagnosis was made on the basis of complaints, anamnesis, objective data, x-ray diagnostics. On CBCT reformats, the implant was installed in accordance with the manufacturer’s recommendations; there was no destruction of the bone tissue surrounding the implant. Objectively, the soft tissues surrounding the implant are swollen, hyperemic, and bleed upon probing.

A mandibular posterior teeth housing with a 60° divergence angle was used.

In body 1, using thermoplastic material, metal tubes 4 and 5 were fixed for subsequent connection with the Ozotron apparatus and destructor 8 of the Ozotron apparatus.

Then the base component C-silicone was mixed and the outside of body 1 and the entire contour in contact with the teeth and gums were evenly coated so that a gas chamber was formed between the walls of body 1 and the surface of the teeth. Housing 1 was installed in the patient’s oral cavity, fixed using basic C-silicone, and the patient was asked to bite lightly so that there were traces of teeth on the silicone in the end part of housing 1 at the location of the teeth and along the gum

Then, after polymerization of C-silicone, body 1 with the resulting impression was removed from the oral cavity, and the impression was checked for tightness in the absence of holes and cracks. No holes or cracks were found. Then body 1 with the resulting cast C - made of silicone was placed in the oral cavity and metal tubes 4 and 5 were connected using silicone tubes 6 and 7 to the Ozotron apparatus 9 and the destructor 8 of the Ozotron apparatus.

Treatment was carried out with an ozone-air mixture with an ozone concentration of 1.5 g/m ³ with a gas chamber exposure of 10 minutes, for 10 days. The patient’s pain decreased already at the 3rd session, objectively inflammatory phenomena in the tissues surrounding the implant disappeared at the 7th session. After 10 sessions, the patient did not show any complaints, objectively the soft tissues were pale pink, painless on palpation.

Claims (1)

A device for ozone therapy in the oral cavity, containing a carbonation chamber with a cavity to accommodate the area to be treated and connected in series through tubes to a source of supply of the ozone-air mixture, a channel for introducing the ozone-air mixture into the carbonation chamber and a channel for outputting the ozone-air mixture from a carbonation chamber, characterized in that the carbonation chamber between the surface of the teeth and the walls of the housing is formed by a cast of C-silicone, covering the outside of an acrylic plastic housing placed in the patient’s oral cavity and the entire contour in contact with the teeth and gums, while the housing has an equal length walls 3 cm, body height 2.5 cm and wall thickness 3 mm, and a parabolic cross-section, with a divergence angle of the body walls: for the chewing group of teeth of the lower jaw 60° or for the chewing group of teeth of the upper jaw 75° or for the frontal part of the dental arch 50°, and the width of the housing is 2.5 cm or 3 cm and 1.5 cm, respectively, while at the top of the parabola, parallel to the walls of the housing, two channels are made for introducing the ozone-air mixture into the aeration chamber and for removing the ozone-air mixture from aeration chambers, while the channels are made in an L-shape for connecting the housing cavity with the source of supply of the ozone-air mixture, through two metal tubes, made with the possibility of fixing in the housing using thermoplastic material, and two silicone tubes connected to metal ones, while The source of supply of the ozone-air mixture is the Ozotron apparatus, and the channel for removing the ozone-air mixture from the aeration chamber is connected to the destructor of the Ozotron apparatus.

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