CS206761B1 - Skin desinficience - Google Patents

Description

The invention relates to the chemical composition of a composition for disinfecting the skin and antisepsis of open wounds, in particular burns, leg ulcers, mycoses, cold sores and the like.

A number of skin disinfectants are known which are characterized by different disinfectant efficacy and other characteristic properties. Among the more modern formulations, for example, peracetic acid, the disadvantage of which is that it irritates the skin and decomposes rapidly, so that it has very little overhead effect, more effective skin disinfectants include iodine preparations, especially so-called iodophores. Their disadvantage is that iodine leaks from them above 30 ° C and penetrates the skin into the body. Also known is a skin disinfectant based on an anionic resin containing triiodide ion having very good bactericidal properties but not sporicidal and viricidal. A common drawback of all iodine disinfectants of the prior art is their considerable absorption into proteins, which significantly reduces their efficacy. Therefore, they cannot be used for the disinfection of bleeding skin, for the treatment of burns, leg ulcers, as an antiseptic or aseptic in the treatment of burns, etc. Their low viricidal efficacy precludes their use in the treatment of cold sores,

The drawbacks of the prior art are overcome by the invention which is based on the fact that the anionic resin functional group is saturated with iodine halogens, preferably iodine chloride in an amount of 5 to 50% by weight, at least 80% by weight of the resin particles being 0.2 to 2 and the particle size is 2 to 5 µm. It may contain 0.1 to wt. % ionic and non-ionic surfactants and 0.1 to 10 wt. of a film-forming polymer, preferably polyvinyl alcohol.

An advantage of the invention over the prior art is that skin disinfectants have, in addition to bactericidal activity, also sporicidal, fungicidal and viricidal properties. It does not bind to proteins, so it does not lose its effectiveness in contact with blood. Therefore, it is also useful as an antiseptic in the treatment of open wounds, burns, leg ulcers, mycoses, cold sores etc.

It has an excellent residual effect since the iodine halide is bound to the anionic resin and has negligible tension and chemically modified substances in the sweat. Its penetration through the skin is three orders of magnitude lower than the iodine disinfectants used up to now. The fine skin disinfectant particles of the invention may make perfect contact with the microbial cells residing in the skin and cause their rapid inactivation. They penetrate the fine pores of the skin and form a thin film that resists abrasion and protects the skin against further bacterial contamination. Another advantage is that they can also be used in admixture with detergents in solid or paste form, optionally containing a polymeric film-forming component. The skin disinfectant suspension according to the invention can also be used in the form of an aerosol. Skin disinfectant has no side effects, since its active component, for example, iodine chloride, bound to an anionic resin, leaches into the aquatic environment only in trace amounts and its skin penetration is therefore very low, about three orders of magnitude lower than ”Living iodophores. It is therefore suitable for the antiseptic of bleeding wounds, leg ulcers, burns or treatment of mycoses and cold sores.

The composition of the skin disinfectant, its preparation and use will be explained in three possible embodiments of the invention.

Example 1

The anionic ion exchanger, an insoluble, strongly basic quaternary ammonium polystyrene resin containing benzyldimethylethanolammonium active groups, was impregnated in the chloride cycle with a solution of iodine chloride in hydrochloric acid such that after washing with water it contained 30 wt. iodine chloride. After subnicron milling, the preparation was freeze-dried. 0.1 g of the dried preparation was used for hand disinfection. After a one-minute exposure, it was found that the original number of microbial cells surviving in the skin decreased by three orders of magnitude.

Example 2

The anion exchanger as in Example 1 was impregnated in the chloride cycle with a solution of iodine chloride in hydrochloric acid such that after washing with water it contained approximately 10% by weight in the dry matter. After submicron grinding, the preparation was dried by lyophilization and mixed with finely divided polyvinyl alcohol having a content in the preparation of 6% by weight.

0.2 g of the dried preparation was used to disinfect the hands. After a one-minute exposure, it was found that the number of survivors of the skin was reduced by three orders of magnitude by disinfection and that this effect lasted for 4 hours after application.

Example 3

The preparation was prepared, as in the example '·! 1 and 2, such that after washing the water in the dry matter, about 20 wt. iodine chloride. After submicron grinding, a suspension containing 50 wt. polyvinyl alcohol and surfactant gel, sodium sulfosuccinic acid ester and ethoxilate are mixed in the dry matter. of a fatty alcohol, so that a paste containing 4 wt. % polyvinyl alcohol and 60 wt. % surfactant based on dry matter. 3 g of paste was ingested for washing and temporarily disinfecting the hand. After five-minute exposure, only isolated microbial cells surviving on the skin were detected. Their number did not increase significantly even after 4 hours.

Claims (3)

^! Subject of Inventions Skin disinfectants for disinfecting the skin and antisepsis of open wounds containing 50 to 95% by weight of disinfectant; an anionic resin, characterized in that the functional group of the anionic resin is saturated with iodine halide derivatives, preferably iodine chloride in an amount of 5 to 50 wt.%, at least 80 wt. The resin particles have a particle size of 0.2 to 2 µm and a maximum particle size of 2 to 5 µm. 2. Skin disinfectant according to claim 1, characterized in that it contains from 0.1 to 90% by weight of disinfectant. an ionic or non-ionic surfactant, for example, an ester of a sodium salt of sulfosuccinic acid and ethoxilate, a fatty alcohol. 3. Skin disinfectant according to claim 1 or 2, characterized in that the content is 0.1 to 10% by weight. a film-forming polymer, preferably polyvinyl alcohol.