UA123462U - Bactericidal agent based on lactic acid and metal nanoparticles - Google Patents

Abstract

Bactericidal agent based on lactic acid and metal nanoparticles contains argentium nanoparticles, water. Additionally contains lactic acid and benzalkonium chloride.

Description

The useful model belongs to veterinary medicine, namely to veterinary sanitation, and can be used for disinfection of premises where animals are kept, equipment of animal slaughterhouses, processing of meat, dairy and other products of animal origin, means for transporting animals, laboratory premises.

The creation of disinfectant preparations is aimed at the development of modern, safe, complex disinfectants and effective methods of assessing the degree of their harmlessness to the organism of laboratory and farm animals. At the current stage, the development and introduction of a disinfectant with the active substance of lactic acid and metal nanoparticles is being improved, which, according to sanitary and hygienic indicators, is an effective fungicide and antiseptic against gram-positive and gram-negative microflora.

There is a bactericidal agent "Sriblobenz" based on a nanosolution of silver and benzalkonium chloride. The tool is intended for the production of disinfectants, disinfestants, disinfectants, deodorants, cosmetics, detergents for veterinary medicine (Patent of Ukraine Mo 54751 Bactericidal agent "Sriblobenz" IPC AETI. 2/00 dated 25.11.2010).

But the disadvantage of the bactericidal agent "Sriblobenz" is that it is ineffective against a number of pathogens of such important diseases as: tuberculosis (Misobasivght romiv, Misobasiegiit amisht, Misobrasiegiisht topiyit); anthrax (Vasiyi5 apigasib); brucellosis (Vgyseya aropiv); coccidiosis (Eiteipa iepeia, E. tahita, E. tiyiv5, E. tadpa, E. romiv) and others.

The closest analogue is the bactericidal drug "Argicide", which contains polyhexamethyleneguanidine hydrochloride; n-propyl alcohol; silver nanoparticles; copper nanoparticles; distilled water (Patent of Ukraine Mo 76059 IPK AbTI 2/16, СО2Е 1/50, Byul. Mo 24, 25.12.2012). The disadvantage of the well-known drug is a narrow spectrum of bactericidal action and a long time of onset of action.

The basis of a useful model is the task of developing a bactericidal agent based on lactic acid and metal nanoparticles, containing argentum nanoparticles and water, by adding lactic acid, benzalkonium chloride, with the following ratio of components by mass. 9o: lactic acid 15.0 benzalkonium chloride 5.0 argentum nanoparticles 0.2 water the rest to ensure the effectiveness of the bactericidal agent. Lactic acid has antimicrobial, anti-fermenting and antiviral effects. To increase prolonged action

Argentum nanoparticles from the bactericidal agent interact with lactic acid and quickly penetrate pigment and organic impurities.

Benzalkonium chloride (alkyldimethylbenzylammonium chloride) belongs to the class of cationic surfactants (surfactants) and is one of the most widely used antiseptics for local application in various fields of medicine and veterinary medicine.

Argentum nanoparticles have a pronounced antimicrobial effect, improve contact with microorganisms and increase the bactericidal properties of the nanomaterial.

Bactericidal agent based on lactic acid belongs to the category of agents with antimicrobial action against gram-positive and gram-negative bacterial forms and viruses.

It is characterized by a long shelf life. The tool is a transparent liquid of light gray color. The presence of opalescence and sediment is allowed, which does not affect the disinfectant properties of the product.

Treatment with a bactericidal agent based on lactic acid and metal nanoparticles can be carried out in various ways: washing, wetting, dipping, wiping, irrigation and spraying. Processing is carried out in a closed room equipped with supply and exhaust ventilation. A bactericidal agent is prepared by adding different doses of the agent to tap water at room temperature.

The technical result of the bactericidal agent based on lactic acid and metal nanoparticles is that it has a pronounced prolonging effect, dissolves well in water, does not lose its activity in the presence of organic particles.

To determine the acute toxicity of the drug, 7 experimental and one control group of white mice weighing 18-20 g were selected, 7 heads in each group. The disinfectant solution was injected directly into the stomach in a volume of 0.5 ml. Based on the concentration of the studied drug and the injected volume, the amount of injected active substance per 1 kg of body weight was calculated. m. Calculations were carried out according to the Kerber method. The experiment lasted 15 days. During the experiment, the behavior of the animals was observed, the number of deaths in each group was recorded. Pathological and anatomical dissection of the dead mice was conducted.

To study the cumulative effect of the drug, experimental and control groups of 7 mice were formed in each group weighing 18-20 g. The control group of animals was fed daily with milk at the rate of 1/5 of LdDbvo, the experimental group - the studied drug in the same dose. The research lasted for 60 days.

The irritating effect of the product was studied on the skin of ants. Three experimental and one control groups of ants were formed with 5 heads in each group. Twice a day, solutions in 195 and C 95 concentrations were evenly applied to the cut surface. Animals of the control group were treated with water on the cut surface. Research continued for 30 days.

Based on the results of the research, it can be concluded that the bactericidal agent shows low toxicity according to the hazard class when 050-5639.29 mg/kg of live weight is injected into the stomach, which, according to the sanitary and hygienic standards of GOST 12.1.007-76, belongs to class 4 toxicity (malotoxic). The product does not have a cumulative, sensitizing, irritating or skin resorptive effect at concentrations of 1-395, which are 100 or more times higher than the bactericidal dilution. No visible changes were found in the animals at slaughter and postmortem examination, morphological indicators did not reliably change during the blood test.

Thus, the proposed bactericidal agent based on lactic acid and metal nanoparticles is effective, non-toxic and easy to prepare and use.

Claims (1)

USEFUL MODEL FORMULA A bactericidal agent based on lactic acid and metal nanoparticles, containing argentum nanoparticles, water, which is distinguished by the fact that it additionally contains lactic acid, benzalkonium chloride, with the following ratio of components, mass. 90: lactic acid 15.0 benzalkonium chloride 5.0 nanoparticles of argentum 0.2 water the rest. 00000000 Computer interface. Matselo 00000000 Ministry of Economic Development and Trade of Ukraine, str. M. Hrushevsky, 12/2, m. Kyiv, 01008, Ukraine SE "Ukrainian Institute of Intellectual Property", str. Glazunova, 1, m. Kyiv - 42, 01601