RU2728933C1 - Method of removable dentures cleaning and disinfection - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medicine, namely to orthopedic dentistry and discloses a method for cleaning and disinfecting removable dentures. Method involves dipping prostheses into a solution containing sodium carbonate, sodium tripolyphosphate, chlorhexidine bigluconate, polyvinylpyrrolidone, sodium lauryl sulphate, sodium silicate and water at a certain weight ratio. Then, ultrasound treatment is carried out in said solution for 3 minutes at room temperature with frequency of 20–24 kHz and subsequent washing. pH value of used solutions within 11–12 eliminates microbial activity, increases solubility of organic deposits due to formation of negatively charged organic particles.EFFECT: proposed combination of chemical agents in combination with ultrasonic treatment in said mode has 100 % antimicrobial, antiviral and antifungal activity with short exposure (for 3 minutes), completely removes soft and hard foreign deposits, does not change color of plastic and does not lead to corrosion of metal parts that in aggregate prolongs terms of using prostheses; invention can be used for cleaning and disinfecting removable dentures.1 cl, 3 ex

Description

The invention relates to medicine, namely to orthopedic dentistry, and can be used for cleaning and disinfection of removable dentures.

There is a known method of disinfection of removable dentures by preliminary washing of dentures in running water and subsequent disinfection in a microwave installation with a power of at least 800 W with an exposure of at least 20 minutes (Patent RU No. 2157144 A61C 13 / 3428.09.1998).

The disadvantage of this method is the lack of chemicals in the disinfection process, which does not provide a full-fledged high-quality cleaning and disinfection of prostheses.

A known method of cleaning and disinfection of removable dentures using phytotherapeutic agents in the form of using 10% alcoholic tincture (1: 5) of collecting flowers of marigold, rowan berries, peppermint leaves, meadowsweet grass, roots of soapwort medicinal in equal proportions and zinc oxide in a certain amount to obtain a paste by immersion in the created mass for 15-20 minutes (Patent RU No. 2314092 A61K 8/97, A61K 8/34, A61O 11/02 19.06.2006).

The disadvantage of this method is the complex component composition, unsatisfactory contact of the used means with the porous structure of the plastic and the absence of mechanical treatment of the prostheses.

A known method of cleaning and disinfection of removable dentures by pre-washing the dentures in running water and subsequent disinfection with a disinfectant containing sodium hypochlorite, polyvinylpyrrolidone sodium silicate and water, applied with a toothbrush on dentures for 15-20 minutes, placing the dentures in a container with water with 3% hydrogen peroxide in a ratio of 8: 1 by volume (Patent RU No. 2481818 A61K 8/30, A61K 8/31, A61R 31 / 0016.11.2011).

The disadvantage of this method is the application of a disinfectant to the dentures using a toothbrush, which cannot provide full contacting of the agents used, especially in places difficult for the mechanical action of the brush, in particular clasp joints and the porous structure of the plastic.

The closest technical solution is a method for cleaning removable dentures, including ultrasonic treatment in a glass cuvette using an UZTM-A ultrasonic unit with a frequency of 20-24 kHz at room temperature for 3 minutes in succession in 1-15% hydrochloric acid solution, in 1- 15% sodium or potassium hydroxide solution, in 1-15% hydrochloric acid solution and then in 2-3% chloramine B solution at a temperature of 40-50 ° C, rinsing after each ultrasonic treatment with running water (Patent RU No. 2231333 A61C 17/02 03.02.2003).

The disadvantages of this method are: high intensity of ultrasonic treatment (within 12 minutes), which, taking into account the fragility of materials and the complexity of the shape of removable dentures, leads to the formation of additional and further development of already existing defects. Consecutive use in several stages of concentrated solutions of hydrochloric acid, alkali, chloramine B damages the metal parts of the prostheses and leads to premature wear due to the ability of these solutions to dissolve iron-containing metal alloys. Concentrated solutions of strong acids and alkalis are dangerous and must be handled with care. The sequential use of several solutions and their washing requires additional time.

The objective of the present invention is to improve the efficiency of cleaning and disinfection of removable dentures through the use of a new chemical complex of components in combination with ultrasonic treatment without disturbing the color gamut and structure of dentures.

The task is achieved by the fact that in the method of cleaning and disinfecting removable dentures, including ultrasonic treatment at room temperature with a frequency of 20-24 kHz in a solution of chemical components and rinsing with water, it is new that removable dentures are treated with ultrasound for 3 minutes, immersed in a solution containing sodium carbonate, sodium tripolyphosphate, chlorhexidine bigluconate, polyvinylpyrrolidone, sodium lauryl sulfate, sodium silicate and water, with the following ratio of these components, wt. %:

sodium carbonate 4.0-5.0 sodium tripolyphosphate 2.5-3.0 chlorhexidine bigluconate 0.3-0.5 polyvinylpyrrolidone 0.5-1.0 sodium lauryl sulfate 0.5-1.0 sodium silicate 0.5-1.0 water 92.7-88.5

Ultrasonic treatment of removable dentures for 3 minutes at room temperature with a frequency of 20-24 kHz provides high-quality cleaning without damaging the structure of plastic and metal parts of dentures.

Sodium carbonate in combination with sodium tripolyphosphate provides the optimum solution pH (11.0-12.0). At pH below 11.0, the efficiency of treatment decreases, pH above 12 leads to the destruction of metal and plastic parts of the prosthesis. Sodium tripolyphosphate in combination with sodium lauryl sulfate helps to remove soft and hard deposits, chlorhexidine bigluconate in combination with sodium tripolyphosphate normalizes the color disturbed by food dyes, polyvinyl pyrrolidone and chlorhexidine bigluconate in the indicated concentration have bactericidal, antiviral and fungicidal properties, and anti-fungal properties. including food coloring substances from the porous structure of the prosthesis.

The method is carried out as follows. Pre-marked removable dentures are immersed in a solution containing sodium carbonate, sodium tripolyphosphate, chlorhexidine bigluconate, polyvinylpyrrolidone, sodium lauryl sulfate, sodium silicate and water, with the following ratio of these components, wt. %:

sodium carbonate 4.0-5.0 sodium tripolyphosphate 2.5-3.0 chlorhexidine bigluconate 0.3-0.5 polyvinylpyrrolidone 0.5-1.0 sodium lauryl sulfate 0.5-1.0 sodium silicate 0.5-1.0 water 92.7-88.5

Ultrasonic treatment is carried out in the specified solution for 3 minutes at room temperature with a frequency of 20-24 kHz, then the prostheses are removed and washed in running water for 15 minutes.

Example 1. 20 removable dentures were immersed in 2.5 liters of solution containing the following components of the mass. %: sodium carbonate (4.0), sodium tripolyphosphate (2.5), chlorhexidine bigluconate (0.3), polyvinylpyrrolidone (0.5), sodium lauryl sulfate (0.5), sodium silicate (0.5) and water ( 92.7). Ultrasonic treatment was carried out for 3 minutes at room temperature with a frequency of 20-24 kHz. The dentures were rinsed in running water for 15 minutes. Using a litmus indicator, the pH of the washing solution was determined, which was 7.0. Then the dentures were removed.

Example 2. 30 removable dentures were immersed in 3 liters of solution containing the following components of the mass. %: sodium carbonate (4.5), sodium tripolyphosphate (2.7), chlorhexidine bigluconate (0.4), polyvinylpyrrolidone (0.7), sodium lauryl sulfate (0.7), sodium silicate (0.7) and water ( 90.3). Ultrasonic treatment was carried out for 3 minutes at room temperature with a frequency of 20-24 kHz. The dentures were rinsed in running water for 15 minutes. Using a litmus indicator, the pH of the washing solution was determined, which was 7.0. Then the dentures were removed.

Example 3. 30 removable dentures were immersed in 3 liters of solution containing the following components of the mass. %: sodium carbonate (5.0), sodium tripolyphosphate (3.0), chlorhexidine bigluconate (0.5), polyvinylpyrrolidone (1.0), sodium lauryl sulfate (1.0), sodium silicate (1.0) and water ( 88.5). Ultrasonic treatment was carried out for 3 minutes at room temperature with a frequency of 20-24 kHz. The dentures were rinsed in running water for 15 minutes. Using a litmus indicator, the pH of the washing solution was determined, which was 7.0. Then the dentures were removed.

Using this method, 3000 removable dentures were cleaned and disinfected during 2018-2019. In all cases, a satisfactory result was achieved. The prostheses had an optimal color gamut, there were no signs of soft and hard deposits, as well as mechanical and chemical damage on the surface.

Experimental microbiological studies performed on the surfaces of 30 prostheses showed the absence of bacterial, fungal and viral contamination.

The technical result of the invention is an effective possibility of cleaning and disinfection of removable dentures using relatively safe and cheap solutions. The pH value of the solutions used in the range of 11-12 eliminates the vital activity of microorganisms, increases the solubility of organic deposits due to the formation of negatively charged organic particles. The proposed combination of chemicals in combination with ultrasonic treatment in the specified mode has one hundred percent antimicrobial, antiviral and antifungal activity with a short exposure (within 3 minutes), fully removes soft and hard foreign deposits, does not change the color of the plastic and does not lead to corrosion of metal parts, which together prolongs the term of use of prostheses

Claims (2)

A method of cleaning and disinfecting removable dentures, including ultrasonic treatment with a frequency of 20-24 kHz at room temperature in a solution of chemical components and rinsing with water, characterized in that removable dentures are sonicated for 3 minutes immersed in a solution containing sodium carbonate, sodium tripolyphosphate , chlorhexidine bigluconate, polyvinylpyrrolidone, sodium lauryl sulfate, sodium silicate and water, in the following ratio of these components, wt%: sodium carbonate 4.0-5.0 sodium tripolyphosphate 2.5-3.0 chlorhexidine bigluconate 0.3-0.5 polyvinylpyrrolidone 0.5-1.0 sodium lauryl sulfate 0.5-1.0 sodium silicate 0.5-1.0 water 92.7-88.5