EA039488B1 - Echinacea tincture - Google Patents

Abstract

This invention proposes an efficient plant-based medicine having nonspecific antimicrobial, antiviral, anti-inflammatory and sedative effect due to its high immunomodulatory properties. It is a tincture based on Echinacea extractive substances, solid residue of which contains the following elements, mg/kg: sodium - 0.10-100,000; potassium - 0.10-20,000; selenium - 0.07-15,000; zinc - 0.001-12,000.

Description

The invention relates to the pharmaceutical industry and medicine and can be used in the creation and use of herbal products as an immunomodulatory, antimicrobial, anti-inflammatory and antiviral agent with non-specific, antimicrobial, antiviral, anti-inflammatory and sedative effects.

The genus Echinacea is native to North America. It belongs to the aster family (Asteracea) and includes nine plant species, in particular Echinacea purpurea L. Moench, narrow-leaved Echinacea angustifolia D.C., pale Echinacea Pullida Nutt and other Echinacea species.

All known preparations based on Echinacea have different concentrations of substances extracted from the plant, as well as different quantitative and qualitative composition of the extracted substances and compounds, which is due not only to the use of various Echinacea species, but also to different technologies for their industrial preparation, and therefore all known preparations Based on Echinacea, they have different qualitative and quantitative composition, different physicochemical, pharmacological properties and, accordingly, different therapeutic purposes, that is, different medicinal properties and qualities.

There are a number of pharmacological preparations derived from substances of various plant species of the genus Echinacea, as well as various methods for their preparation from various parts of plants: roots, inflorescences and ground parts. Liquid forms are represented mainly by water-alcohol extracts. The content of active ingredients in the preparations is characterized by the content of extractives, and separately the effectiveness of the tincture is characterized by the content of hydroxycinnamic acids in terms of chicory acid.

The disadvantage of the known funds based on Echinacea is their lack of immunomodulatory ability.

In addition, there is an analogue with mineral substances (patent RU 2156087, published 20.09.2000). The patent describes a biologically active food supplement (BAA) containing potassium (4380 mg/l), magnesium (1-510 mg/l), iron (1-2100 mg/l), zinc (1-1240 mg/l) and an additional 29 different minerals and medicines. The patent states that the dietary supplement has various medicinal properties. However, the dietary supplement does not contain the extract of Echinacea purpurea L. and the dietary supplement does not have an immunomodulatory effect.

A known method for the prevention and treatment of pathologies caused by high and/or low content in the human body of physiologically necessary macro- and microelements, including laboratory analysis of human substrates, detection of excess and/or deficiency of macro- and microelements and selection of medicines (RF patent 2238749, published October 27, 2004). So, with an excess of nickel in the human body, the following plants are selected: Aralia Manchurian (root) 20.0 g; wild rosemary (aerial parts) - 20.0 g; three-leaf watch (sheet) - 40.0 g; another 17 plants containing biological nickel antagonists, mainly iron, calcium, magnesium, cobalt, manganese, zinc, copper, with a biological accumulation coefficient above 1.0 and contributing to the neutralization and excretion of nickel from the body. With an excess of lithium in the human body, the following plants are selected: Schisandra chinensis (leaf) - 40.0 g; May birch (leaf) - 20.0 g; 11 more plants containing biological lithium antagonists, mainly iron, sodium, potassium, iodine, with a biological accumulation coefficient above 1.0 and contributing to the neutralization and elimination of lithium from the body.

There is also known a method for the prevention and treatment of pathologies caused by an increased or decreased content in the human body of physiologically necessary or potentially toxic macro- and microelements (RF patent 2263511, published 10.11.2005). In the method, with an excess of macro- and microelements in the body, herbal preparations from medicinal plants are used as medicines, which contribute to the neutralization and removal from the body of an excess of these macro- or microelements and containing the maximum concentration of antagonists of the identified excess macro- or microelements. So with an excess of aluminum - plants containing the maximum concentration of its antagonists such as iron, boron, silicon, phosphorus, magnesium, calcium; with an excess of cobalt - its antagonists: manganese, iron, nickel. The herbal collection includes marshmallow (root), warty birch (leaf) or drooping birch (leaf), three-leaf watch (leaf) and other medicinal plants. The two patents described above do not investigate or indicate what the mineral content of the plants is. It is known that the amount of mineral substances in a particular plant depends on their content in the soil and on the mineral nutrition of plants and can range from 0.00001 to 0.7% of the dry plant weight.

RF 2263511 and 2238749. In the invention, the technical result is achieved by introducing a strictly defined amount of additional mineral substances into the product.

The introduction of mineral substances into the solution (into water) was carried out according to the method described in the Guidelines for methods of quality control and safety of biologically active food supplements. M.: Federal Center of the State Sanitary and Epidemiological Supervision of the Ministry of Health of Russia, 2004, 240 p. It should be noted that there are other ways to introduce minerals into the solution. Solutions were prepared from pure metals using pharmaceutically acceptable solvents that ensure the stability of the solutions.

- 1 039488 during storage. For in-depth studies when developing an application for an invention, the concentrations of metals in each of the four variants of the invention were provided in certain ranges, mg/kg. The concentrations of metals in solutions were controlled by the atomic absorption method for determining the content of sodium, potassium, calcium, selenium, and zinc. Clause 1.3.2.1 of the source / Guidelines on methods of quality control and safety of biologically active food supplements. M.: Federal Center of the State Sanitary and Epidemiological Supervision of the Ministry of Health of Russia, 2004, 240 p. 020021 - 20. After the introduction of mineral substances into the solvent, medicines were made on its basis by known methods.

The objective of the present invention is to create an effective herbal remedy with non-specific, antimicrobial, antiviral, anti-inflammatory, sedative action and increased immunomodulatory ability.

The problem underlying the present invention is solved using a tincture based on extractives of Echinacea, the dry residue of which contains, mg/kg:

sodium - 0.10-100000;

potassium - 0.10-20000;

selenium - 0.07-15000;

zinc - 0.001-12000.

As a comparison drug, an extract of Echinacea was obtained according to example 1.

Example 1

Echinacea extract was obtained by supercritical fluid extraction, with carbon dioxide as a solvent. The resulting extract was diluted in 40% ethanol to a content of hydroxycinnamic acids of 0.5% in terms of chicory acid.

The agents of the present invention were obtained by adding minerals to the extract of echinacea according to the method described in the Manual of Quality and Safety Control Methods for Dietary Supplements. M.: Federal Center of the State Sanitary and Epidemiological Supervision of the Ministry of Health of Russia, 2004, 240 p.

The following minerals were added: sodium, potassium, selenium, zinc. Data on funds received are given in examples 2-13.

Example 2

To obtain the funds according to example 2, minerals were added to the following content in the dry residue (mg/kg): sodium - 0.10, potassium - 0.10, selenium - 0.07, zinc - 0.001.

Example 3

To obtain the funds according to example 5, minerals were added to the following content in the dry residue (mg/kg): sodium - 200, potassium - 5, selenium - 1, zinc - 0.05.

Example 4

To obtain the agent according to example 7, minerals were added to the following content in the dry residue (mg/kg): sodium - 1000, potassium - 50, selenium -15, zinc - 3.

Example 5

To obtain the agent according to example 11, minerals were added to the following content in the dry residue (mg/kg): sodium - 75000, potassium - 5000, selenium - 5000, zinc - 5000.

Example 6

To obtain the agent according to example 12, minerals were added to the following content in the dry residue (mg/kg): sodium - 100,000, potassium - 10,000, selenium - 10,000, zinc - 10,000.

Example 7

To obtain the agent according to example 2, mineral substances were added to the following content in the dry residue (mg/kg): sodium - 100,000, potassium - 20,000, selenium - 15,000, zinc - 12,000.

To test the effect of the drug, a standard test was used to determine the immunomodulatory ability, namely, the study of the effect on the mortality of mice from Candida albicans.

Candida albicans was cultured on Sabouraud agar medium and inoculated intravenously at a concentration of 3.3x.

105 immunosuppressed mice (Group A) and at a concentration of 2.8x.

105 immunosuppressed mice with cyclosporine A (CsA) at 1 mg/kg i.p. (group B).

The first control group received no treatment. The mortality of mice in the first control group was 100%, both for immunosuppressed and non-immune-suppressed mice.

Also, mineral solutions with a content equal to the preparation of the corresponding number were used as an additional control. The additional second control group showed no difference from the main control group. For this reason, comparisons with the second control group are not presented here.

Mice were treated daily, namely 50 and 100 mg/kg intragastrically until the death of all mice in the control group (untreated).

The table shows the survival data of mice treated with the drugs of examples 1-13.

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A drug Group Dose, mg/kg Survival % one BUT fifty 6 one B fifty one one BUT 100 eight one B 100 2 2 BUT fifty 12 2 B fifty 7 2 BUT 100 23 2 B 100 fifteen 3 BUT fifty 17 3 B fifty nine 3 BUT 100 31 3 B 100 nineteen 4 BUT fifty eighteen 4 B fifty nine 4 BUT 100 34 4 B 100 nineteen 5 BUT fifty nineteen 5 B fifty nine 5 BUT 100 35 5 B 100 17 6 BUT fifty nineteen 6 B fifty eight 6 BUT 100 36 6 B 100 sixteen 7 BUT fifty nineteen 7 B fifty eight 7 BUT 100 36 7 B 100 fifteen

The results prove the greater survival of the groups of treated animals.

In addition, stable samples of preparations were obtained with the content of extractives in the range from 1.5 to 5.0 wt.%, the content of hydroxycinnamic acids, in terms of chicory acid, from 0.04 to 0.7 wt.% and the content of minerals within the range of the present invention. These samples showed a similar test result with Candida albicans.

In general, the experimental data showed better survival when using echinacea preparations with the addition of mineral substances according to the present invention than without the use of these preparations, and greater survival than when using echinacea extract without the addition of mineral substances.

CLAIM

Claims (1)

CLAIM A tincture based on extractives of Echinacea, with an extractives content in the range from 1.5 to 5.0 wt.% and a content of hydroxycinnamic acids, in terms of chicory acid, from 0.04 to 0.7 wt.%, characterized in that what does the dry residue contain, mg/kg: sodium - 0.10-100000; potassium - 0.10-20000; selenium - 0.07-15000; zinc - 0.001-12000.