RU2481818C1 - Method of cleaning and disinfection of removable dental prosthesis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to orthopedic dentistry. Method lies in the following: removable prostheses are preliminarily washed in flowing water, after which their disinfection is carried out by means of disinfecting preparation, which contains (wt %), sodium hypochloride, sodium lauryl sulfate, polyvinylpyrrolidone, sodium silicate and water, taken in definite ratio. Said disinfecting preparation is applied on dental prosthesis for its disinfection for 15-20 minutes with toothbrush. After that, prosthesis is placed into container and is completely filled with water. To carry out reaction of singlet oxygen release 3% hydrogen peroxide is added from dropper into container until foaming stops. Sodium hypochlorate and hydrogen peroxide solutions are taken in ratio 8:1 in volume.

EFFECT: invention ensures increased efficiency of disinfection of removable dental prosthesis, does not have destructive effect on prosthesis materials.

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Description

The invention relates to medicine, namely to orthopedic dentistry, and is intended for the cleaning and disinfection of removable dentures.

The problem of disinfection and complete cleaning of removable dentures is urgent, since they can be a source of infection not only for patients, but also for dentists, dental technicians [Shcherbakov A.S. et al. Clinical study of the effectiveness of cleaning and disinfection of removable dentures. - Dentistry, No. 4, 2001, S. 55-58].

A known method of cleaning and disinfection of removable dentures [RF patent 2314092]. The disadvantage of this method is the cleaning of the dentures with a paste using a hard toothbrush 2-3 times a day. This leads to a violation of the integrity of the surface of the dentures.

Roughness and porosity, as well as poor denture care, favor the penetration of microorganisms from the oral cavity into the base and the formation of plaque on its surface, which contains carbohydrates, proteins, epithelial cells, etc. Plaque microorganisms utilizing food carbohydrates create a critical pH in retention points. At present, a large number of disinfectants with good virucidal, fungicidal, bactericidal actions have been proposed, but all of them, as a rule, cause only the death of bacteria, leaving a significant amount of soft and dense dental deposits on the basis of the prosthesis.

On the domestic market, there are special products for disinfecting and cleaning removable dentures, mainly imported, in the form of effervescent tablets: Protefix tablets (Quesser), Dentipur tablets, PresiDent, etc. The problem with oxygen-containing products is that they bacteria kill, but do not remove plaque from the surface of the plastic base, leaving a significant amount of soft and dense dental deposits on the basis. Plaque along with fungal spores causes irritation of the oral mucosa and can lead to inflammation. Another group of products is gels designed for mechanical cleaning of dentures: “Dentipur gel”, “Boni plus” with special brushes. The disadvantage of these funds is weak disinfectant properties and the high price, which makes them inaccessible.

Therefore, patients have to use cheaper means for cleaning dentures that violate the integrity of the surface of dentures.

The closest (prototype) for the technical solution is a method of disinfection of removable laminar dentures with an aqueous solution containing active chlorine (sodium hypochlorite) in the range 0.03-0.06 wt.%. [Mashkova N.G. the dissertation “Disinfection at the stages of manufacturing removable laminar dentures with a solution obtained by electrochemical activation of water”, Voronezh, 2003, p.25]. The disadvantages of this method of disinfection are: the use of a special device (laboratory electrolyzer) STEL, the lack of a mechanism for cleaning the prosthesis from plaque, which is formed as a result of systematic use by patients, and the short shelf life of the resulting disinfectant solution is 5 days, subject to storage rules. [Mashkova N.G. the dissertation “Disinfection at the stages of manufacturing removable laminar dentures with a solution obtained by electrochemical activation of water”, Voronezh, 2003, p. 83]. The aim of the invention is to develop a method of cleaning and disinfecting removable dentures, which would provide the drug with a comprehensive cleaning, disinfecting effect, was convenient to use, affordable and had a long shelf life. To solve this problem, a group of inventions is proposed, united by a common inventive concept.

The essence of the invention lies in the fact that in the disinfection method, “StomaDez” gel is used as a disinfectant, which in its composition contains stabilized sodium hypochlorite in an amount of 0.3-0.6 wt.%, Surfactant - sodium lauryl sulfate, polyvinylpyrrolidone and as a gelling agent - alkali metal silicate salts (sodium silicate), it is also a stabilizer of sodium hypochlorite.

Method of application of StomaDes gel. Removable dentures are pre-washed in running water. The gel is applied with a toothbrush to the denture for disinfection for 15-20 minutes. Next, the prosthesis is placed in a container and completely filled with water. To carry out the reaction, 3% hydrogen peroxide is poured into the container from the dropper until the foaming stops, and a chemical reaction occurs:

NaOCl + H ₂ O ₂ = NaCl + H ₂ O + O ₂

Sodium hypochlorite and hydrogen peroxide (taken in a ratio of 8: 1 by volume) actively neutralize each other with the rapid release of singlet oxygen, which forms a foam with a surfactant, thereby cleaning the prosthesis from soft and dense dental deposits.

As a result of a chemical reaction, sodium chloride and water are formed. Thus, the utilization of chemical components with the formation of neutral substances is achieved. With this reaction, another significant positive effect is achieved - highly active singlet oxygen is released, which has an increased bactericidal effect [Schweitzer, C .; Schmidt, R. Physical Mechanisms of Generation and Deactivation of Singlet Oxygen. Chemical Reviews, 2003, Vol. 103 (5), P.1685-1757].

The specified disinfectant (called "Stomadez" gel) is obtained according to the developed technology. The composition obtained by this technology of the drug in wt.% Ranges from:

sodium hypochlorite 0.3-0.6 sodium lauryl sulfate 0.3-0.5 polyvinylpyrrolidone 2.0-3.0 sodium silicate 0.2-2.0 water the rest is up to 100

Hypochlorite has a bactericidal effect against many gram-positive and gram-negative bacteria, most pathogenic fungi, viruses. Antiseptic solutions of sodium hypochlorite in medicine are used mainly for external and local use as an antiviral, antifungal and bactericidal agent in the treatment of skin, mucous membranes and wounds; sodium lauryl sulfate reduces surface tension, which contributes to better cleaning of the prosthesis; polyvinylpyrrolidone - partially binds toxic products of microbial decay, providing an anti-inflammatory effect on the prosthetic bed of the oral mucosa; sodium silicate - a gelling agent resistant to oxidizing agents, it is also a stabilizer of sodium hypochlorite.

The effectiveness of the antimicrobial action of the proposed method was tested in the experiment. Plates made from the base acrylate material of the prosthesis 50 × 6 × 1 mm in size were seeded with various microorganisms. When determining the bactericidal activity of the Stomadez gel during the disinfection of removable dentures, Staphylococcus aureus, Staphylococcus epidermidis Staphylococcus aureus, and Candida albicans were used to determine the fungicidal activity.

The experimental procedure, the Daily culture of Staphylococcus aureus and candida was washed with sterile water from oblique MPA, filtered and diluted to a concentration of 10 ⁹ cells / ml using turbidity standards. This corresponds to possible bacterial contamination of the prosthesis. A suspension of microorganisms in the amount of 0.3 ml was applied to the plate and distributed by surface with a pipette. The plate was dried at room temperature 18-22 ° C and relative humidity 50-60%. Then they were washed with tap water for 10 s and placed in a glass containing Stomadez gel for 18 minutes. Next, 3% hydrogen peroxide was poured, while the singlet oxygen was actively released and the solution foamed. After the samples were removed and placed in wide-necked test tubes with beads, they were shaken for 10 minutes. Before sowing, the resulting liquid was diluted 100 times and plated on Petri dishes. The results were evaluated by counting colonies on plates. The claimed processing method at the same time provided 100% death of the working strain when the exposure was not less than 18-20 minutes (see table 1).

Table 1 The definition of time 100% disinfection of the claimed method Type of pollution Exposure time, min 10 fifteen eighteen twenty 1. Staphylococcus aureus 67.1 98.6 one hundred one hundred 2. Staphylococcus epidermidis 66,2 96.8 one hundred one hundred 3. Candida albicans 56.3 94.5 one hundred one hundred

Bacteriological studies have also shown that the "Stomadez" gel has a pronounced, prolonged antimicrobial effect. To conduct this bacteriological test, samples were prepared above the specified gel with different concentrations of sodium hypochlorite in it. Extracts from various samples were obtained every two weeks, they were thermostated according to the method of accelerated aging [I-42-2-82. “Temporary instructions for work to determine the shelf life of drugs based on the method of accelerated aging at elevated temperatures”], followed by sowing on cups seeded with staphylococcus test culture using the in vitro cup-suspension method in accordance with the procedure set forth in MR No. 2003 / 17 dated March 19, 2004 “Cup method for evaluating the effectiveness of disinfectants and antiseptics” (see table 2).

table 2 The content of sodium hypochlorite, wt.% Antimicrobial effect 0,03 No effect 0.3 The effect of 120 days 0.5 The effect of 120 days 0.6 The effect of 120 days

As shown in Table 2, extracts from the samples exhibit an antibacterial effect that lasts for 120 days.

Thus, the gel "Stomadez" by the proposed method provided for the cleaning and disinfection of removable laminar dentures, without using a special device at home, at an affordable price. The stabilizing additive in the gel made it possible to increase its shelf life by an order of magnitude.

Claims (1)

The method of disinfection of removable dentures using a disinfectant containing in its composition, wt.%:
sodium hypochlorite 0.3-0.6 sodium lauryl sulfate 0.3-0.5 polyvinylpyrrolidone 2.0-3.0 sodium silicate 0.2-2.0 water the rest is up to 100,
characterized in that the specified disinfectant is applied with a toothbrush to the denture for 15-20 minutes, followed by placing the prosthesis in a container of water, in which 3% hydrogen peroxide is poured from the dropper to conduct a chemical reaction with the release of highly bactericidal active singlet oxygen, solutions sodium hypochlorite and hydrogen peroxide are taken in a ratio of 8: 1 by volume.