RU2125458C1 - Method of preparing a complex exhibiting adaptogenic, hypoglycemic, antihypoxic and antiiflammatory effects - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves an extraction of ginseng leaves of different age with 20-50% an aqueous ethanol at ratio raw : extractant = 1:(10-14) for 8-11 h. Extract is settled and filtered. Complex shows the enhanced adaptogenic effect as compared with ginseng root tincture and also HYPOGLYCEMIC, antiinflammatory and antihypoxic effects. Complex is not toxic. EFFECT: improved method of preparing, enhanced effectiveness. 5 tbl

Description

 The invention relates to medicine and relates to medicines derived from plant materials.

 Known drugs that have adaptogenic and tonic effects obtained from plant materials: rhizomes of Eleutherococcus, rhizomes and roots of Rhodiola rosea, Aralia roots of Manchurian, ginseng, Leuzea [1]. Get them in the form of tinctures or liquid extracts using 40 - 70% aqueous ethanol by extraction of crushed plant material. These methods are time consuming and laborious [2].

Known methods for the extraction of saponins from the leaves and roots of ginseng with alcohols (CH ₃ OH, C ₂ H ₅ OH) [3] and azeotropic mixtures of chloroform, methylene chloride and alcohol [4]. Their disadvantage is that the methods are intended to produce only one biologically active group of substances.

 It is known from the literature that in addition to saponins, ginseng leaves contain many other active substances. The content of panaxosides (substances causing an adaptogenic effect) in them is 2–3 times higher than in the roots [5, 6]. The composition of biologically active substances (BAS) of ginseng leaves differs from the composition of the root BAS. A large number of panaxosides were detected in the leaves by spectrophotometric method [7]. In addition to panaxosides (saponins), flavone glycosides were found in the leaves [6, 8] (camferol, trifolin, panasenoside), carotene, aliphatic, aromatic and heterocyclic amino acids are present.

 It is known that flavonoids have an action different from panaxosides: in particular, anti-inflammatory, choleretic, antispasmodic, hypoacid, and other effects [8]. Therefore, it was advisable to develop a method for producing a complex preparation containing a native complex of both panaxosides and flavonoids, which allows to expand the spectrum of action of the drug.

 A known method of obtaining an extract from ginseng leaves, including grinding the leaves, extraction with boiling water, filtering and drying. The method is long-term, multi-stage, a large volume of extractant is used (50 parts by volume per 1 part by weight of raw materials), and sodium chloride and citric acid are additionally added during extraction [9].

 The best and most famous among adaptogen preparations from plant materials are ginseng root preparations. A method of obtaining tinctures from ginseng roots is the closest to the proposed.

 Ginseng root tincture is obtained by percolation [2, p. 175] in a ratio of 1:10 when using 70% ethyl alcohol as extractant [2, p. 182]. Ginseng roots are crushed, moistened with 70% alcohol and left for 4 hours, after which the swollen material is tightly packed in a percolator and the extractant is poured to form a “mirror” - a layer of liquid on the surface of the raw material. The raw material is infused for 24 hours, and then the plant material is slowly percolated, dropping for 1 hour a volume of liquid corresponding to about 1/48 of the used volume of the percolator, until the required amount of tincture is obtained. Fresh extractant is fed into the percolator from above. In total, about 48 hours (2 days) are spent on getting the hood. Then the hood is defended for two days, filtered and get tincture.

 The disadvantage of this method is the long period of insisting and crowding out the hood. The resulting product contains a small amount of panaxosides and has insufficient adaptogenic effect.

 The objective of the invention is to develop a technologically advanced and economical way to obtain a complex of biologically active substances from plant materials, which has a pronounced adaptogenic, antistress, hypoglycemic and anti-inflammatory effect with low toxicity, to expand the range of such agents.

 The problem is realized by the proposed method, including extraction with aqueous ethanol of biologically active substances, in which ginseng leaves of different ages are used as raw materials, extraction is carried out with 20-50% aqueous ethanol for 8-11 hours, and the ratio of raw material: extractant is 1: (10-14) . The resulting extract is defended and filtered. A dry extract can be obtained from the filtrate.

 The complex prepared in the form of tincture has adaptogenic, hypoglycemic, antihypoxic and anti-inflammatory effects.

 The choice of extractant is shown in table. 1.

 A high content of panaxosides was found in leaves of various ages (Table 2).

 The invention is illustrated by the following examples (see table. 3).

Example: 500 g of crushed raw materials (particles with a size of 3-5 mm) are loaded layer-by-layer into a percolator, wetted with aqueous ethanol of the appropriate concentration, poured with extractant to form a “mirror” free layer and insisted for 2-4 hours. Raw materials are extracted when water is supplied with the corresponding ethanol from above concentration at a rate of 1000 ml / h (6 - 7 hours) to obtain 5000 ml of extract. The hood is defended during the day at a temperature of 8 ^o C and filtered. The yield of panaxosides is 88 - 96% of their content in the dried leaves of ginseng.

 Pharmacological tests allowed us to determine the high level of protective effect of the claimed complex on the animal organism when exposed to a number of extreme factors. So, according to the results presented in table. 4, it was shown for the first time that, in comparison with the official tincture of ginseng root (NKG), the complex has a higher antihypoxic activity. In conditions of acute hypobaric hypoxia, the life time of animals that received the prophylactically studied complex (once) increases by 800% compared to control values and is 12.72 ± 3.40 min, while the corresponding indicator for animals treated with NLC is 3, 47 ± 1.00 min. In the same table. The results of a comparative study of the protective effect of NLC and the claimed complex on other experimental models are presented. In almost all cases, it was superior to the NCW in efficiency.

 Of particular importance is the advantage of a new tool that was first discovered in our model under the difficult conditions of exposure to a complex of extreme factors: hypoxia + overheating + physical static load.

 These results allow us to make a forecast about the effectiveness of its use in people who are in difficult conditions of professional activity.

 A big advantage of the claimed complex is a more pronounced hypoglycemic effect compared to NLC, which allows us to recommend it for the complex treatment of diabetes mellitus.

 The relevant data are given in table. 5.

 The anti-inflammatory and wound healing properties of the proposed complex have also been studied in detail. For the first time it was established that with the preventive administration to animals of the complex, the number of destruction of the gastric mucosa of rats subjected to immobilization stress, reserpination, as well as the amount of erosion caused by ligation of the pylorus, butadiene or atofan are sharply reduced. The wound healing effect of the complex was found on a model of full-layer wounds. The prophylactic and therapeutic use of the complex contributed to a reduction in the healing time of wounds. A distinct effect was observed in the epithelization phase of the damaged surface.

From the presented materials of pharmacological studies, it is seen that the complex obtained by the proposed method from ginseng leaves of different ages has a pronounced adaptogenic, antihypoxic, hypoglycemic and anti-inflammatory effect, more effective than the activity of NLC. The advantages of the complex should also include its lack of toxicity: LD ₅₀ = 84 g / kg.

 Thus, the proposed method allows to obtain from plant materials that have not been previously used (production waste when harvesting ginseng root), i.e. from ginseng leaves of different ages, a non-toxic complex of biologically active substances with adaptogenic, antihypoxic, hypoglycemic and anti-inflammatory activity. The method is technological (the hood can be obtained on available equipment) and economical.

Literature:
1. Mashkovsky M.D. Medicines Part 1. Vilnius, 1993.

 2. Muravyov N.A. Technology of drugs. M. Medicine, 1980, v. 1, 391 p.

 3. The patent of Germany N 2456889 from 04/14/77

 4. Minina S.A., Gromova L.N. and others. A method of obtaining saponins from ginseng. Bull. Invent., 1984, No. 42, A.S. N 1123701 (USSR).

 5. Legosteva A. B., Grushvitsky I.V., Minina S.A. Age and seasonal dynamics of the content of panaxosides in the leaves of cultivated Panax ginseng C. A. May // Plant resources - 1986. N 4 - p. 523 - 526.

 6. Brzhikhnach B., Shapovalov V.K., Sevryuk N.I. On the pharmacognostic characterization of leaves of Panax ginseng C.A. May // Plant Resources - 1982, vol. 18, no. 3 - p. 357 - 363.

 7. Minina S. A., Legostaeva A. B. A method for the quantitative determination of active substances in raw materials and dosage forms of ginseng // Bull. Invent., 1989, No. 18, A.S. 1480568 (USSR).

 8. Komatsu M., Makigushi V., Tomimori T. Studies on the contituents of the herb of Panax ginseng C.A. Mayer II. On the flavonoid contituents. Vakugaku Zasshi. - 1969. - V. 89, - N 1 - p. 122 - 126.

 9. Patent R.F. N 1833171 (Z. N 5024903) A 23 L 2/38. BI N 29 (93).

Claims (1)

A method of obtaining a complex based on ginseng by extraction with aqueous ethanol, characterized in that the extracts are subjected to ginseng leaves of different ages with 20-50% aqueous ethanol at a ratio of raw materials: extractant 1: (10 ^° C. 14) for 8-11 hours, extract defend and filter.

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