RU2749034C1 - Antibacterial toilet soap containing extracts of creeping thyme - Google Patents

Abstract

FIELD: cleaning compositions.

SUBSTANCE: invention relates to methods for obtaining cleaning compositions based on soap that show antibacterial activity against gram-positive and gram-negative microorganisms, based on plant extracts, namely creeping thyme (Thymus serpyllum L.). Antibacterial toilet soap containing a soap base, an antibacterial agent, an antioxidant, functional additives and water is described, featuring the content of an aqueous extract of creeping thyme as an antibacterial agent, where citric acid is used as an antioxidant, with the following ratio of components, weight percentage: soap base 60-62; water extract of creeping thyme 5-8; citric acid 0.7-1; functional additives 8-17; water 10-13.

EFFECT: technical result is obtaining an antibacterial effect of a cleaning composition based on soap and reducing the risks of negative dermatological manifestations.

1 cl, 2 tbl

Description

The invention relates to methods for preparing soap-based cleaning compositions with antibacterial activity against gram-positive and gram-negative microorganisms, based on plant extracts, namely, creeping thyme (Thymus serpyllum L.).

It is known that soap (hard bar or liquid form) has antibacterial properties to a large extent with the suppression of the growth and development of microorganisms from the surface of the skin as a result of a cleansing or washing action. At the same time, such actions can be significantly improved by adding herbal components to the soap.

Methods for obtaining extracts, essential oils, and various medicinal preparations from medicinal plants are well known. For example, creeping thyme is registered in the State Register of Medicines of the Russian Federation as a medicinal plant material and is used for medicinal purposes as an expectorant and anti-inflammatory agent. In addition, thyme herb is used as a pain reliever for radiculitis and neuritis, as well as in the form of aromatic baths, compresses. It is known to be a good flavoring agent for teas, soft drinks and alcoholic beverages. Thyme is a part of petrusin prescribed for bronchitis, tracheitis, whooping cough and respiratory tract catarrh; antibacterial activity has been shown in relation to the growth and development of gram-positive and gram-negative microorganisms.

Methods for improving the antibacterial activity of soap compositions are known in the art. For example, in the Eurasian patent No. 20160429 (class C11D 3/48, C11D 9/00, C11D9 / 10, C11D 9/26, publ. 04/29/2016), a bar of soap is proposed, while a component with silver with increased pH.

In the application for US patent No. 2012/0034314 (class A61K 8/40, A01N 59/20, publ. 09.09.2012) antiseptic compositions are proposed that are capable of providing antimicrobial properties for a long time. The composition of the proposed soap includes chelated metal ions, sodium laureth sulfate, sodium lauryl sulfate, propylene glycol, cocamidopropylbentaine, cocamide DEA, ethyl alcohol, macadamia glycerides, acrylate crosspolymer, silver dihydrogen citrate and EDTA tetrasodium.

In the source WO 2011/131422 (class IPC A61K 8/26, publ. 03/15/2011) proposed toilet soap with antimicrobial properties, which contains functional additives and bentonite powder intercalated with silver and / or copper ions.

In the application for US patent No. 2010/0098776 (class A61K 33/38, A61K 33/34, A61K 33/30, A61K 33/26, A61Q 19/10, A61P 31/04, A61K 8/27, A61K 8 / 19, publ. 04/22/2010) proposed liquid detergents based on soap, which have increased antibacterial activity, while containing from 0.01 to 10 wt. % antimicrobial agent of particles of silver, zinc, copper or mixtures thereof. Soap also contains glycerin, ethylene glycol, propylene glycol, diethylene glycol, dipropylene glycol and solvent mixtures.

In US patent No. 3050467 (class C11B 3/48, publ. 08.21.1962) antiseptic cleansers are proposed, which contain 90-99% by weight of water-soluble soap and silver salt, partially depolymerized alginic acid.

In the application for US patent No. 2006/0115440 (class A61K 8/365, publ. 01.06.2006) proposed personal hygiene products, which in their composition contain silver dihydrogen citrate and a physiologically acceptable medium, also contains silver ions.

However, the use of an antibacterial agent based on these organic compounds in known solutions containing phenolic and aromatic halogenated groups is impractical in view of their irritating and allergenic effect on the skin. The presence of bentonite containing cations of alkali metals (Na ⁺ , K ⁺ ) in the soap, leads to an increase in pH (alkalinity of the soap), which adversely affects the skin. In addition, high levels of silver, zinc and copper particles can irritate the skin. It is known that EDTA is a toxic element, a carcinogen when interacting with other components or in violation of the technology of use. At the same time, when paired with other chemicals, it helps to deeply penetrate dangerous elements into the skin and circulatory system, can cause breathing difficulties, poisoning of the gastrointestinal tract.

Thus, there remains a need for soap, in particular bars of soap that have antibacterial activity against gram-positive and gram-negative bacteria based on aqueous extracts of creeping thyme, which do not cause allergic reactions and irritation of mucous membranes, do not contain metals.

The problem to be solved by the claimed invention is to create a soap that has antibacterial activity against gram-positive and gram-negative bacteria.

The technical effect obtained when solving the problem is expressed in obtaining an antibacterial effect of a cleansing composition based on soap containing an aqueous extract of creeping thyme, while reducing the risk of negative dermatological manifestations.

To achieve this objective, antibacterial toilet soap containing a soap base, an antibacterial agent, an antioxidant, functional additives and water is distinguished by the fact that it contains an aqueous extract of creeping thyme obtained by extracting an aqueous solution of creeping thyme, where lemon juice is used as an antioxidant as an antibacterial agent. acid, with the following ratio of components, wt. %: soap base - 60-62; aqueous extract of creeping thyme - 5-8; citric acid - 0.7-1; functional additives - 8-17; water - 10-13.

Comparative analysis of the features of the claimed solution with known features indicates the compliance of the declared solution with the "novelty" criterion.

The set of features of the invention provides a solution to the claimed technical problem due to the absence of metals and the use of natural ingredients in the composition of the soap composition, namely, an aqueous extract of creeping thyme, and the achievement of positive results when using soap without the risk of negative phenomena such as skin allergic reactions, irritation of the mucous membranes and etc.

Essential oils and herbal medicines are widely used in biomedicine. The anti-inflammatory effect of creeping thyme extract has been studied by many Russian and foreign researchers (Li et.all., 1991; Haq et.all., 2012; Ahameethunisa, Hopper, 2010; Benli et.all., 2007; Egorov, 2010; Kalinkina et al. et al., 2010; Gagieva and Tsugkiev, 2010).

It was found that aqueous extracts of creeping thyme growing in the territory of Yakutia have antibacterial activity as well as hydroalcoholic and alcoholic extracts of creeping thyme, but they are not toxic and do not cause dermatological manifestations. The method of obtaining an aqueous extract of creeping thyme is described in the article "Antibacterial activity and cytotoxic analysis of extracts from the phytomass of wild plants in Yakutia" co-authors S.V. Sivtseva and Zh.M. Okhlopkova (see "Bulletin of the North-Eastern Federal University named after M.K. Ammosov", No. 3 (65), 2018).

The claimed technical solution consists in the fact that water extracts of creeping thyme growing on the territory of Yakutia in ecologically clean phytocenoses and having significant biological activity are taken as the basis for the antibacterial soap.

All works related to the determination of the antibacterial activity and the level of cytotoxicity of the extracts were carried out in the research laboratories of the Microbiology Department of the Graduate School of Natural Sciences, Pusan National University, Republic of Korea.

For experimental work, antibacterial soap was obtained by isolating extracts on a shaker.

In this case, 200 ml of distilled water was added as an extractant to a weighed portion of dried ground overground phytomass of 2 ± 0.5 g. The extraction was carried out for 24-48 hours with occasional stirring at room temperature. At the end of the time, the extracts were filtered through a filter (Qualitative Filter Paper, Advantec 2, 185 mm). Concentration of the extracts was carried out using a rotary evaporator "Eyela CA-111 2 cl" (State Pharmacopoeia of the USSR, 1990) for 3-4 hours at 40 ± 0.5 ° C. Drying of the obtained concentrated extracts was carried out on a "ModulSpin" lyophilizer for 3-4 hours. Thus, dry extracts from the phytomass of creeping thyme were taken for screening.

The resulting extracts were tested for antibacterial activity against microorganisms such as Escherichia coli BL21, Staphylococcus aureus ATCC 25923, Pseudomonas aeruginosa and Klebsiella pneumoniae, which are known to be most active against growth and development. For this, we used the environment of Czapek and Saburo, corresponding to Russian and international standards (GOST P ISO 14644-1-2002; GOST ISO 9001-2011; GOST ISO 13485: 2003; NCCLS M22-A3), poured into Petri dishes.

Screening was carried out according to the Kirby-Bauer method with modifications (Bauer AW, Kirby WM, 1966): under sterile conditions, a specified volume of dissolved dimethyl sulfoxide (DMSO) and extract (0 , 5 μL), after which, short-term drying was carried out, and the disks with the applied extracts were placed on the surface of the agar medium, maintaining a distance of 15 mm from the edge of the plate, and at least 30 mm between the disks themselves. In the control variants, disks impregnated with an appropriate concentration of DMSO were applied to agar media. Petri dishes of the experimental and control variants were incubated in a thermostat at a temperature of + 37 ± 0.5 ° C for 3-4 days, depending on the strain. The degree of sensitivity of test objects to plant extracts was assessed by measuring the diameter of the zones of inhibition of the growth of microorganisms around the discs in mm. In the control variants, test objects were used without exposure to extracts (see National Committee for clinical Laboratory Standards Methods for determining bactericidal activity of antimicrobial agents. Proposed Guidline, 1997; Bauer, Kirby, 1966; Ulusoylu et. All, 2001).

All variants (experimental and control) were performed in 3 replicates. Statistical processing of the results and their reliability were determined using the MS Exsel Microsoft Office program and performed using the Student's test for a probability level of at least 95% (Lakin, 1990; Glantz, 1998).

From the results of the analysis of antibacterial activity, it follows that aqueous extracts of creeping thyme are active against the growth and development of test microorganisms (see table 1).

Further, the obtained extracts are used to obtain antibacterial soap, the experimental composition of which is presented in table 2.

The method for producing natural antibacterial soap includes the following processes:

- introduction of an alkali hydroxide solution into water with constant stirring at a temperature of 20-25 ° C and atmospheric pressure, heating the solution to a temperature of 90 ° C and stirring until the hydroxide is completely dissolved in the solution, followed by heating to 125 ° C;

- adding oil or a mixture of oils to the solution, while the temperature of the oil is 15-25 ° C;

- saponification of oils at a temperature of 90-125 ° C;

- maturation and plasticization with constant cooling to a temperature of 15-25 ° С, homogenization;

- introduction of an aqueous solution of a foam stabilizer (food foam stabilizers) and an aqueous solution of an antioxidant (weak organic acids);

- introduction of useful additives (including aqueous extract of creeping thyme) and heating the mixture to a temperature of 100 ° C.

Vegetable oils are used as oils, for example, palm, coconut, olive, almond, cedar. The temperature in the range of 90-125 ° C under atmospheric pressure is sufficient for a quick saponification of oils without overheating the oils, as a result of which the consumer properties of the finished soap are improved.

For saponification of vegetable oil or a mixture of oils, hydroxides of alkali or alkaline earth metals are used, while in order to retain glycerol in the soap base, carbonates or bicarbonates of alkali or alkaline earth metals are used, which in an aqueous solution are directly added to the digester before the oils are added.

Subsequent gradual cooling of the soap mass to a temperature of 25-15 ° C makes it possible to obtain a batch of the finished soap base on average per day, without production waste, which is achieved by calculating the proportions of the initial ingredients.

The stability of the soap and the prevention of oxidation of the finished product is ensured by the addition of antioxidants such as weak organic acids such as citric acid. The selected acid is added in the form of an aqueous solution in an amount of 10 ± 1 g to the mass of the soap base.

As useful additives, in addition to fatty oils, extracts of mint, lavender and tea tree, creeping thyme extract is introduced in an amount of 114 ± 1 g to the mass of the soap base at an initial temperature of 20 ° C, followed by heating to 100 ° C, which ensures a uniform distribution of the additive in soap and interaction with the residual water contained in the soap base, retained by glycerin.

The soap is made as follows (in terms of 2.378 g of the finished product).

Distilled water in an amount of 10 liters is placed at room temperature in a stainless steel boiler equipped with a stirrer in the form of a stirrer, a water bath, thermometers and fittings, in which a solution of caustic soda is added in an amount of 10-13%, stirred, the oil mixture is added coconut and olive oil in a ratio of 2: 1 in an amount of 35 liters and bring the boiler temperature to 90 ° C. The saponification process is carried out for 2.5 ± 1 hours at a temperature of 90-125 ° C and constant stirring. As the soap thickens, stirring is stopped, heating is stopped, allowing the kettle with soap to gradually cool down at room temperature for 18 hours. Next, the soap mass is transferred into a homogenizer equipped with a thermometer and a heating device, food gelatin is added in an amount of 800 ± 1 g in an aqueous solution, 1.6 l of water, 0.70 ± 1% g of citric acid is added to an aqueous solution, stirred at room temperature. temperature, add 114 ± 1 g of an aqueous extract of creeping thyme, mix, smoothly heating the resulting mixture to 100 ° C until a homogeneous molten mass is obtained, then stopping the heating to form the finished soap.

The toxicity of aqueous extracts was studied on sexually mature 16 white balb / c mice of both sexes (m = 38-40 grams) grown in the vivarium of the laboratory of pathogenic microbiology of Pusan National University and quarantined for 14 days.

The experimental animals were kept under standard vivarium conditions on a normal diet with free access to water and food, under normal temperature and light conditions. The animals were divided into 2 groups of 8 mice each. Euthanasia of animals was carried out using the method of instant decapitation, with the use of light ether anesthesia. The extracts were concentrated 1:10.

For the first group of experimental animals, extracts were administered orally in an amount of 100 μl; distilled water in an amount of 100 μl served as a control. During the entire time, the animals were under observation (Irwin, 1964, 1968; Griffin, 1981).

The total duration of observation of experimental animals after the introduction of the extracts was 10 days. The observation was carried out in the morning and in the evening according to the methodological instructions (see.Khabriev R.U. Guidelines for the experimental (preclinical) study of new pharmacological substances / 2-ed., Revised and additional - M .: JSC Publishing House Medicine, 2005, - 832 p. .) and the requirements for testing the safety of new medical products operating within the European Economic Community in terms of conditions of detention, duration of observation, the number of animals in the group for each dose of the system for assessing the general toxicological effect of pharmacological agents (Griffin JP Referring to the paper by Zbinden and Flury -Roversi // Archives of Toxicology., 1981. No. 49. p. 99-103).

To the second group, extracts were injected in the dose range of 2.0-5.0 g / kg (in terms of dry raw materials), once, intramuscularly, in volumes from 0.2 to 1.0 ml, 1% PBS solution (1 ml ).

The general condition of the animals and their behavior were monitored for 24 hours. The criteria for assessing "acute" toxicity was the picture of intoxication and survival of experimental animals.

The animals under study were kept in accordance with GOST R 50258-92 in stationary plastic cages with soft wood chips (7-10 individuals in each), on a standard food ration (ProKorm granulated food, art. R-22), natural light mode. The air temperature was maintained within the range of 20-22 ° C, the relative humidity of the air - 50-70%, the volume of air exchange (extract: inflow) - 8:10, daylight: night - 1: 1. The animals were kept with free access to food and water. The animals were quarantined for 14 days. During this time, each animal was examined daily.

The studies were carried out in compliance with the rules of laboratory practice during preclinical studies in the Russian Federation, regulated by GOST R 51000.3-96 and the rules and international recommendations of the "European Convention for the Protection of Vertebrate Animals Used for Experiments or Other Scientific Purposes" All experiments were carried out in the autumn-winter period. During the entire experiment, no lethal outcome was observed in the control and experimental groups, which indicates the non-toxicity of aqueous extracts of creeping thyme.

Throughout the experiment, the animals were under observation for 10 days from the moment of the introduction of the extracts and the reference solution. During the observation, no changes were recorded in the behavior of the animals, the volumes of food and water consumed in comparison with the control specimens. Weighing of the experimental and control groups of animals was carried out at the beginning and at the end of the experiment. At the end of the experiment, a hematological study was performed.

Thus, on the basis of the data obtained, the investigated extracts in doses up to 100 µl were classified according to Khabriev's classification “Practically non-toxic” (IV class of toxicity).

According to the results of the screening of antibacterial activity, it was found that water extracts of creeping thyme have activity against the growth and development of the microorganisms used, which can be represented in the following ranked series (in descending order): Klebsiella pneumoniae ATCC 10031 ˃ Pseudomonas aeruginosa ATCC 27853 ˃ Staphylococcus 25 BL2.

In addition, water extracts of creeping thyme do not cause severe allergic reactions, which allows their use in the production of hygiene products.

Antibacterial activity of aqueous extracts of creeping thyme

Water extract Microorganism Suppression area (mm) creeping thyme qi Escherichia coli BL21 10.6 ± 1 thyme creeping ST Escherichia coli BL21 11.0 ± 1 thyme creeping yuya Escherichia coli BL21 10.5 ± 2 creeping thyme qi Staphylococcus aureus ATCC 25923 14.02 ± 1 thyme creeping ST Staphylococcus aureus ATCC 25923 12.6 ± 1 thyme creeping yuya Staphylococcus aureus ATCC 25923 13.09 ± 2 creeping thyme qi Pseudomonas aeruginosa ATCC 27853 14.98 ± 1 thyme creeping yuya Pseudomonas aeruginosa ATCC 27853 12.45 ± 1 thyme creeping ST Pseudomonas aeruginosa ATCC 27853 12.56 ± 1 creeping thyme qi Bacillus cereus 13.02 ± 2 thyme creeping yuya Bacillus cereus 14.33 ± 1 thyme creeping ST Bacillus cereus 12.98 ± 1 Control DMSO 7.1 ± 2

Note.

TSYa - Central Yakutia;

YuYa - South Yakutia.

table 2

Experimental composition of antibacterial soap containing an aqueous extract of creeping thyme

Material Consumption Palm oil 20-39% Coconut oil 15-28% olive oil 15-30% alkali NaOH 10-13% water 10-13% aqueous extract of creeping thyme 5-8% insurance overfat 1-2% coconut oil (overfat) 5-8% jojoba oil (overfat) 1-5% lemon acid 0.70% bergamot 0.99%

Claims (2)

Antibacterial toilet soap containing a soap base, an antibacterial agent, an antioxidant, functional additives and water, characterized in that it contains an aqueous extract of creeping thyme as an antibacterial agent, where citric acid is used as an antioxidant in the following ratio of components, wt. %: soap base 60-62 aqueous extract of creeping thyme 5-8 antioxidant 0.7-1 functional additives 8-17 water 10-13