RU2694536C2 - Method for treating skin diseases, burns, superficial and deep wounds - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to surgery, traumatology and dermatology, and can be used for treating skin diseases such as dermatitis and panaritium. For this purpose, the aqueous micellar solution of silver nanoparticles is applied locally onto the skin or wound in the affected region in ligations 1–2 times a day. In addition, tableted succinic acid is administered orally in dose of 200 mg day for 2 meals after meals.

EFFECT: invention provides higher clinical effectiveness in the above skin diseases.

1 cl, 2 ex

Description

The invention relates to surgery, traumatology, combustiology, dermatology, to the treatment of skin diseases, burns and superficial, as well as deep wounds.

Various preparations of silver are finding increasing medical application for the treatment of various diseases, including skin diseases and those associated with the infectious process caused by opportunistic microflora. Nanoscale particles of silver, due to the pronounced biocidal properties in relation to more than 250 species of pathogens, are promising materials and are widely used in medicine, veterinary medicine and the production of cosmetics.

Preparations of succinic acid have long been widely used in the treatment of a wide range of internal, skin and systemic diseases, being a means of adjuvant therapy and significantly reducing the cost of treatment (source: Mazina N.K., “A systematic approach to justifying the use of energy metabolism regulators in pharmacotherapy and health regimens” Abstract of thesis for the degree of Doctor of Medical Sciences Tomsk, 2007). The most well-studied, cheap and patient-friendly is the administration of succinic acid tablets through the mouth. However, the properties of the combined use of preparations of succinic acid with nanoparticles of noble metals have not been studied.

There are several ways to obtain nanosized silver particles in liquid media, among which the most traditional is the chemical reduction of soluble silver compounds by various reducing agents. For example, there is a known method for producing silver nanoparticles in an aqueous medium, as described by Rodrigues-Sanchez L et al., 2000. (bibliography: Rodrigues-Sanchez L., Blanko ML, Lopez-Quintela MA Electro-chemical Synthesis of Silver Nano-particles J. Phys. Chem. B. 2000. Vol. 104., p. 9683-9688). It consists of the following stages: dissolution of the stabilizer (tetrabutylammonium bromide) in an organic solvent (acetonitrile); Electrochemical dissolution of the anode (silver plate) in the organic medium obtained in the first stage. At the same time as the cathode by passing a constant electric current through the solution using platinum or aluminum. In the described method, the majority (55-80%) of electrochemically dissolved silver is deposited on the cathodes in the form of films (i.e., the yield coefficient of silver nanoparticles in the solution is not higher than 45%). Also a significant drawback of the method is the use of toxic acetonitrile as a solvent, which excludes the possibility of using a finishing medium containing silver nanoparticles for medicine, veterinary medicine and the production of cosmetic preparations.

It consists of the following stages: dissolution of the stabilizer (tetrabutylammonium bromide) in an organic solvent (acetonitrile); Electrochemical dissolution of the anode (silver plate) in the organic medium obtained in the first stage. At the same time as the cathode by passing a constant electric current through the solution using platinum or aluminum. In the described method, the majority (55-80%) of electrochemically dissolved silver is deposited on the cathodes in the form of films (i.e., the yield coefficient of silver nanoparticles in the solution is not higher than 45%). Also a significant drawback of the method is the use of toxic acetonitrile as a solvent, which excludes the possibility of using a finishing medium containing silver nanoparticles for medicine, veterinary medicine and the production of cosmetic preparations.

The closest in technical essence to the present invention is a method for producing silver nanoparticles, including dissolving stabilizers in a solvent, placing an anode made in the form of a silver plate and a cathode in the resulting solution, electrochemical dissolving the anode when passing a stabilized direct current through a solution, using distilled solvent as a solvent. water, a stainless steel plate is used as a cathode, and the process of dissolving stabilizers takes place in two stages: first, distilled water when heated to 45-55 ° C and stirring dissolve a stabilizer selected from polyglycols, polyvinylpyrrolidone, gelatin or sodium or potassium polyacrylate, and then after cooling, a stabilizer selected from ammonium, potassium or sodium citrate is added to the resulting solution ( Kreuzberg-Golikov RU 2390344 С2, IPC А61К 33/38, published on 05.2010).

The disadvantage of this method of obtaining silver nanoparticles in the aquatic environment is its complexity of implementation, the likelihood of contact of working personnel with occupational hazards of a toxic plan. The organizational and resource-hardware costs of this method did not allow the authors to work out and study the combined schemes of using their silver-containing product together with other known drugs and energy metabolism regulators for the treatment of skin and other diseases.

The technical result of the invention is to increase the effectiveness of treatment of skin diseases, burns, superficial and deep wounds.

The technical result is achieved by the fact that for the treatment of skin diseases, burns, superficial and deep wounds, consisting in applying to the skin or wound in the affected area of an aqueous micellar solution of nano-sized silver particles (or monovalent silver oxide) with or without ammonium stabilizers with regularity up to three times a day for up to ten days, at the same time with such application oral dosage of tableted succinic acid is made in dosages of 100-400 mg per day for 2 doses after meals.

Nano-sized silver particles are atomic silver agglomerates, or silver compounds such as monovalent silver oxide 1-100 nm in size, the surface of which is surrounded by a layer of stabilizer molecules, which allows the water / stabilizers / nano-sized silver particles to live for at least 12 months. Preparations of succinic acid are well-studied drugs used in hypoxic conditions, mitochondrial dysfunctions, and as additive therapy in many areas of medicine.

For the treatment of a large range of diseases, the properties of nano-sized silver particles, which are unique and difficult to replicate in other nanotechnological analogs, are of interest as high bactericidal activity against a large number of strains of "gram +" and "gram -" of bacteria, fungi in combination with a low number and high safety for organism. The surface properties make silver nanoscale particles indispensable for controlling the release of drugs and passing them through the skin (thus, the pharmacokinetics of skin preparations can be adjusted).

The proposed method of local medical use of nano-sized silver particles in combination with oral administration of an energy metabolism regulator includes the use of nano-sized silver particles in liquid media to combine medical appointments of such particles for local use with succinic acid preparations, consists of 2 main operations:

1. Application of an aqueous solution of nanoscale particles of silver on the lesions located superficially (skin, wounds) in the form of a course of daily procedures (1-3 times per day) of different duration.

2. Or the simultaneous appointment of succinic acid in the form of oral administration 2 times a day, 50-200 mg. after meal.

This method of treatment was successfully used in the clinic, as can be seen from the following examples:

Example 1. In the outpatient department of the Kirov Regional Clinical Budgetary Healthcare Institution (KOKBUZ) Northern Clinical Emergency Hospital, 30 patients were treated with widespread felon, requiring surgical treatment of the inflammatory focus. By randomization, patients were divided into 2 groups. In the first group (N = 15 people), patients received standard treatment with the addition of a liquid micellar solution of nano-sized silver particles locally when dressing 1-2 times per day for 3-4 days (control group). In the second group (N = 15 people), in addition to the specified combination (standard treatment + drugs with nano-sized silver particles), oral tablets of succinic acid were administered orally at a dosage of 200 mg per day for 2 doses after meals (Yantar group). Both groups were compared in terms of the duration of temporary disability and the frequency of complications of the wound process (development of phlegmon). It turned out that in the “Yantar” group the closure of the “sick-list” took place faster than the control group on average by 2-3 days. Also in the Yantar group, no development of phlegmon of the forearm was observed, while in the control group 2 such cases took place at once.

Example 2. Based on the Kirov Regional Clinical Budgetary Healthcare Institution (KOKBUZ) “Kirov Regional Clinical Dermatovenerologic Dispensary”, 30 patients with atopic dermatitis / neurodermatitis were treated. By randomization, patients were divided into 2 groups. In the first group (N = 15 people), patients received standard treatment with the addition of a liquid micellar solution of nano-sized silver particles locally when dressing 1-2 times per day for 10 days (control group). In the second group (N = 15 people), in addition to the specified combination (standard treatment + drugs with nano-sized silver particles), oral tablets of succinic acid were administered orally at a dosage of 200 mg per day for 2 doses after meals (Yantar group). Both groups were compared in terms of the frequency and duration of the use of hormonal ointments in cases of insufficient efficacy of other agents (the steroid hormones that are part of such ointments can have a resorptive effect and cause severe side effects). It turned out that in the Yantar group, the frequency of use of hormonal ointments decreased by 15% compared with the control group. Also in the Yantar group, the duration of the use of hormonal ointments in cases of their appointment decreased.

Improving the effectiveness of treatment of skin diseases, burns and superficial deep wounds, as well as reducing the cost of treatment are the advantage and advantage of the proposed method compared to the prototype. At the same time, local effects of nano-sized silver particles in inflammation foci are enhanced by orally prescribed preparations of succinic acid, which reduce the hypoxic component of inflammation and, through metabolic mitochondrial support, enhance the function of cellular immunity systems in foci of infection, entering into a synergistic silver interaction in the aspect of its antibacterial component.

Claims (1)

A method of treating skin diseases selected from dermatitis and felon, which consists in applying to the skin or wound in the area of lesion of an aqueous micellar solution of nano-sized silver particles locally when dressings 1-2 times a day and administering orally tableted succinic acid in doses of 200 mg per day at 2 reception after a meal.