RU2456033C2 - Method for preventing and treating dental diseases of teeth and oral mucosa - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, dentistry, and is applicable for preventing and treating dental diseases of teeth and oral cavity. For this purpose, a surface of gums and teeth is exposed to an optical range, and the exposure is combined with tooth brushing with using a tooth paste. The tooth brushing is combined with exposure of the oral mucosa opposite to the teeth. The tooth paste is presented by a tooth paste with a photosensitiser. Wave length of the emission directed to the teeth is specified to be close to the wave length of photosensitiser excitation. Wave length of the emission directed towards the oral mucosa opposite to the teeth is specified in a short-wave optical spectrum.

EFFECT: method provides improved antimicrobial, anti-inflammatory, anti-caries action ensured by stimulation of cell restoration processes, improvement of local tissue circulation and nutrition, relieved oral irritation and inflammation.

5 cl, 1 dwg

Description

The invention relates to medicine, in particular to dentistry, and can be used for the treatment and prevention of dental diseases of teeth and oral mucosa.

It is known that the main disadvantages of toothbrushes used for oral hygiene are the irritating effect of hard hairs on the gum skin, which often results in bleeding and microtrauma of the gums and oral cavity.

It is also known that one of the simplest and most effective ways of stopping inflammatory processes is to treat the inflammation zone with monochromatic light [1]. In this case, the most effective for this purpose is the use of blue and red sections of the optical spectrum [2].

There is a method of treating the prevention and treatment of gums and teeth using a toothbrush with monochromatic emitters of the visible spectrum, which allows you to evenly irradiate the gums and tooth enamel, thereby protecting against periodontal disease and darkening of the enamel, improves microcirculation of the gums, preventing the development of caries [3]. Irradiation with this brush is not effective enough due to the inability to prevent and treat the mucous membrane of the entire oral cavity.

A known method of prophylactic and therapeutic effects on tissues of the oral cavity using a toothbrush, in which the radiation comes from a radiation source built into the cavity of the handle [4]. Therefore, the radiation is scattered, especially when the bristles are made of a transparent material or when the head is covered with a mirror layer, most of the radiation enters the bristles and, concentrating in them, enters the places where the teeth or gum tissue touch the bristles. Irradiation of the oral mucosa is insufficient for its effective prevention and treatment.

The closest in technical essence and the achieved result is a method for the treatment and prevention of dental diseases, in which the surface of the gums and teeth are irradiated with optical radiation and at the same time as irradiation, the teeth are brushed using toothpaste [5].

The disadvantage of this method is its low efficiency due to the impossibility of preventing and treating the mucous membrane of the entire oral cavity and using the effect of photodynamic therapy to treat it.

The main objective of the invention is the creation of a method for the prevention and treatment of dental diseases of teeth and oral mucosa, which allows to increase the effectiveness of treatment, due to the possibility of prevention and treatment of the entire oral cavity, as well as the ability to use the effects of photodynamic therapy when using toothpaste with a photosensitizer.

The technical result is an increase in antimicrobial, anti-inflammatory, anti-carious effects, due to simultaneous irradiation with radiation directed to the side of the teeth and radiation directed to the side opposite to the teeth, and the use of toothpaste with a photosensitizer.

The problem is solved in that in a method for the prevention and treatment of dental diseases of teeth and oral cavity, in which the surface of the gums and teeth are irradiated with optical radiation and at the same time they irradiate their teeth using toothpaste, at the same time as the teeth are irradiated, the oral mucosa is opposite teeth, toothpaste using a toothpaste with a photosensitizer, and the wavelength of radiation directed towards the teeth, choose close to the wavelength of the excitation Ia photosensitizer and the wavelength of radiation directed towards the oral mucosa opposite teeth is selected in wavelength region of the optical spectrum.

Optimum wavelength of the emitting diodes to choose from the range of 390-1000 nm.

It is optimal to use LEDs of at least two colors for irradiation: red and blue (violet).

It is advisable to use light-emitting diodes in a package in the form of chips.

Preferably, chlorophyll is used as the photosensitizer.

The physiotherapeutic effect of radiation of the optical range is widely known, which in small doses has a biostimulating effect and has a beneficial effect on biological tissue. The bactericidal and anti-inflammatory effects of blue radiation of 440-450 nm were established, and the red radiation of 630-640 nm, among others, has a preventive and therapeutic anti-caries effect. Simultaneous irradiation of the gums, teeth and oral mucosa provides beneficial irradiation of the entire oral cavity.

Exposure to short-wavelength monochromatic radiation - blue and violet - helps to disinfect the oral cavity, reduce the concentration of bacteria and improve the overall health of the oral cavity.

The use of light-emitting diodes with a radiation wavelength close to the activation wavelength of the photosensitizer introduced into the toothpaste makes it possible to use the effects of photodynamic therapy to treat various diseases of the oral cavity. A photosensitizer, a drug that can accumulate in pathologically altered cells (more precisely, in their membranes) and intensively release oxygen under the influence of light, which destroys the walls of bacterial, fungal and viral cells, leading to their death, has a pronounced effect on the pathogenic bacterial oral cavity and does not affects the normal microflora.

The use of light-emitting diodes in a packageless design in the form of chips with the widest radiation pattern allows you to maximize the illumination of the oral cavity and process the maximum area of the mucosa.

The invention is illustrated by the following drawing.

Figure 1 schematically shows a toothbrush with a therapeutic effect on the front side (above) and on the side (bottom).

Toothbrush with a therapeutic effect (figure 1) contains a hollow plastic handle 1 with a power unit 2 located inside the handle. At the distal end of the handle there is a hair or plastic cleaning head 3 with LEDs 4-6 mounted in it with a radiation wavelength close to the excitation wavelength of the photosensitizer included in the paste. On the back of the cleaning head 3 there are LEDs 7-8 with a radiation wavelength selected from the short-wavelength region of the spectrum. LEDs 4-8 are located inside the cleaning head 3, which is made of a transparent material. The radiation of the LEDs 4-6 propagates parallel to the hairs 9 of the cleaning head 3 and is directed mainly towards the treated area of the surface of the gums and teeth.

This arrangement of LEDs 4-6 allows for uniform illumination of the treated area with a cleaning head 3 zones and significantly reduce the inflammatory processes that often occur when brushing your teeth. The radiation of the LEDs 7-8 of the short-wave part of the spectrum - blue and / or violet, located on the back of the cleaning head 3, is directed towards the mucous membrane of the oral cavity, opposite to the teeth being cleaned.

The timer included in the power supply provides a time setting for the procedure of exposure to the oral cavity with light and automatically turns off the LEDs at the end of the procedure. Mechanical brushing can be continued at the request of the user.

When the toothbrush is turned on, LEDs 4-6 and 7-8 begin to produce light, illuminating the surface of the gums and teeth treated by the cleaning head 3, as well as the mucous membrane of the oral cavity, opposite the teeth.

The monochromatic radiation of LEDs 4-6 affects the surface of the gums and teeth and helps to stop surface irritation caused by the hard hairs 8 of the cleaning head 3 of the brush. It is known [2] that the best results for stopping surface irritation (inflammation) are obtained using blue, and in the treatment of chronic inflammation and inflammatory processes in remission, the best results are achieved with red and infrared radiation. Therefore, to obtain a high-quality healing effect, it is advisable to use LEDs, especially of these glow colors.

Along with irradiation, the teeth are cleaned with toothpaste, which includes photosensitizers. The radiation wavelength of the group of LEDs located on the front side of the cleaning head is chosen close to the excitation wavelength of the photosensitizer, which preliminarily saturates tissues with pathological cells, and the photosensitizer is concentrated precisely in the tissues affected by the disease. When exposed to tissues saturated with a photosensitizer, the photosensitizer begins to develop intensively and destroys the pathological cell, healing the body. One of the widespread and available sensitizers is chlorophyll, which can simply be introduced into toothpaste. When chlorophyll is illuminated with a wavelength close to 662 nm, chlorophyll is activated and successfully destroys pathogenic structures.

On the back of the brush is a group of LEDs whose emission wavelength is in the short-wavelength region of the optical spectrum. When brushing your teeth with a toothbrush, the radiation from this group of LEDs is directed in the direction opposite to the teeth, i.e. on the mucous membrane of the oral cavity. Exposure to short-wavelength monochromatic radiation - blue and violet - helps to disinfect the oral cavity, reduce the concentration of bacteria and improve the overall health of the oral cavity.

Thus, simultaneous irradiation with optical radiation directed towards the teeth and the oral mucosa with radiation directed towards the opposite of the teeth, and brushing with toothpaste, which includes a photosensitizer, significantly increases the antimicrobial, anti-inflammatory, anti-carious effect due to its radiation: red LEDs stimulate cell repair processes, contribute to the improvement of local blood circulation and tissue nutrition; blue LEDs help relieve irritation and inflammation of the oral cavity, providing an additional antibacterial effect.

Information sources

1. Illarionov V.E. “Technique and methods of laser therapy procedures. / Reference book / ", M., 1994.

2. RF patent No. 2144396, IPC A61N 5/06, publ. 01/20/2000.

3. RF patent №53857, IPC А46В 15/00, publ. 06/10/2006.

4. RF patent No. 2089083, IPC А46В 9/04, А46В 15/00, publ. 09/10/1997.

5. RF patent No. 2142270, IPC A61K 7/16, A61N 5/06, publ. 1999.12.10.

Claims (5)

1. A method for the prevention and treatment of dental diseases of teeth and the oral cavity, in which the surface of the gums and teeth are irradiated with optical radiation and at the same time they irradiate their teeth using toothpaste, while the teeth are irradiated with the oral mucosa opposite to the teeth, characterized in that toothpaste with a photosensitizer is used as toothpaste, and the wavelength of radiation directed towards the teeth is chosen close to the wavelength of the photosensitivity excitation congestion, and the wavelength of radiation directed towards the mucous membrane of the oral cavity, opposite the teeth, is selected in the short-wavelength region of the optical spectrum. 2. The method according to claim 1, characterized in that the radiation wavelength is selected from the range of 390-1000 nm. 3. The method according to claim 1, characterized in that for irradiation using LEDs of at least two colors: red and violet-blue. 4. The method according to claim 1, characterized in that they use light-emitting diodes in a package in the form of chips. 5. The method according to claim 1, characterized in that chlorophyll is used as the photosensitizer.

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