RU2228745C1 - Adaptogenic medicinal preparation for oral application - Google Patents

Abstract

FIELD: medicine, pharmacy. SUBSTANCE: invention relates to medicinal preparations for oral application that elicit adaptogenic effect. The medicinal preparation comprising succinic acid as a biologically active substance, substances eliciting vitamin effect and riboxin as an additional biologically active substance and riboflavin sodium mononucleotide and nicotinamide as additional substances with vitamin effect; the preparation comprises also accessory substances, special supplements and enterosoluble cover made of copolymer of methacrylic acid and ethyl acrylate taken in the definite ratio of components. Invention provides the development of adaptogenic medicinal preparation for oral application that elicits high curative effectiveness and absence of adverse effects. EFFECT: improved and valuable properties of preparation. 4 tbl, 5 ex

Description

The invention relates to medicine, namely to oral medications with adaptogenic effect, and can be used to restore the body after a disease, with intense physical exertion, as well as to increase efficiency and facilitate the adaptation of the body to extreme environmental conditions.

The adaptogenic effect of drugs is based on the mobilization of the functional reserves of the body by correcting metabolic processes disturbed as a result of stress.

Among oral preparations with adaptogenic effects, complex preparations are known that contain active substances that participate in metabolic processes in the body, increase the energy potential of cells and their resistance to hypoxia.

Known drug containing riboxin, glutamic acid, ascorbic acid, nicotinamide, riboflavin, pyridoxine, potassium chloride ("Membrane-stabilizing and antioxidant drug" RIKAVIT ", patent of the Russian Federation No. 20066224, A 61 B 31/00, prior. From 06.05.85 g., publ. 30.01.94 g.).

However, this drug has limitations for use and is contraindicated in case of impaired purine metabolism, a metabolic disorder that manifests itself in kidney damage and leads to the development of nephrosclerosis and renal failure.

Known drug "METIOVIT" containing succinic acid, pectin, methionine, glucose, citric acid, ascorbic acid, baker's yeast autolysate (RF patent No. 2105502, prior. 29.03.96, A 23 L 1/30, publ. 27.02. 98 g.).

However, the therapeutic efficacy of such a drug is reduced due to the low bioavailability of the active substances. This is due to the fact that the dosage form does not have an enteric coating, and the release of active components occurs in the stomach, and not in the intestine, where their absorption would be greatest.

In addition, the drug of this composition has a limitation in use, since it causes an increase in the acidity of gastric juice.

As the closest analogue, a known composition may be indicated containing succinic acid up to 99.998 wt.%, Vitamin B ₂ (riboflavin) and a pharmaceutically acceptable carrier (RF patent No. 2143265, prior dated 05.12.97, A 61 K 31 / 19, publ. 12/27/99).

Experimental studies have shown that this drug activates metabolic processes and reduces fatigue during exercise.

However, the known composition has disadvantages associated with a non-optimal quantitative ratio of its components - the active substance (succinic acid) and a substance with a vitamin action (riboflavin).

For therapeutic use, the recommended single dose of riboflavin is from 5 to 10 mg (Russian Medicines Register, 8th edition, 2001, p. 760), then in the composition adopted as a prototype, the proportion of succinic acid should be no more than 90 wt.%, Which corresponds to a single dose of 90 mg, and the recommended daily dose of succinic acid for therapeutic use is an order of magnitude higher (Kovalenko A.L., Belyakova N.V. "Succinic acid - pharmacological activity and dosage forms", Pharmacy, 2000, No. 5-6 , pp. 40-44).

The introduction of increased doses of the drug will lead to a corresponding increase in the daily dose of riboflavin, which will exceed 100 mg, which is undesirable, since the intake of large amounts of B vitamins causes side effects, namely allergic reactions and intoxications in the form of general arousal, insomnia, headache.

It should also be noted that riboflavin has poor solubility in the aquatic environment, which impairs its absorption in the gastrointestinal tract and reduces its bioavailability.

Thus, the non-optimal ratio of components and the low bioavailability of a substance with a vitamin effect in a known preparation reduces its therapeutic effectiveness.

The objective of the invention is the creation of an adaptogenic drug for oral administration, which has high therapeutic efficacy in the absence of side effects.

The problem is solved in that the oral drug containing a biologically active substance - succinic acid, substances with a vitamin action, and an auxiliary substance according to the invention additionally contains riboxin as a biologically active substance, and riboflavin as a substance with a vitamin action sodium mononucleotide and nicotinamide, and as adjuvants, target additives and enteric coating of methyl acrylic copolymer acid and ethyl acrylate in the following ratio of components, wt.%:

Succinic acid 65.0-68.5

Riboxin 9.0-11.5

Riboflavin Mononucleotide Sodium 0.2-2.5

Nicotinamide 3.0-6.0

Target additives 2.0-4.6

Enteric Co-polymer Coating

methyl acrylic acid and ethyl acrylate 6.0-9.1

The composition of the claimed medicinal product for oral administration includes a known composition containing succinic acid, riboxin, riboflavin sodium mononucleotide and nicotinamide. This composition is part of the injection drug "CYTOFLAVIN" (EA patent No. 001099, prior. 10.06.99, A 61 K 7/08), which was developed by the applicant and is intended for use in clinical conditions in acute conditions (stroke, cranial -brain injury, acute heart failure, etc.) requiring emergency treatment.

The use of a composition comprising succinic acid, riboxin, riboflavin sodium mononucleotide and nicotinamide in an oral drug having an adaptogenic effect is not known.

The active components of the claimed drug - succinic acid and riboxin are natural metabolites of the body, are utilized by the cells of the body, contributing to the normalization of metabolic processes.

The composition of the claimed medicinal product includes substances with a vitamin action - riboflavin sodium mononucleotide and nicotinamide. They are directly involved in the oxidation-reduction processes of protein and fat metabolism and maintain a stable level of energy supply of cells of organs and body tissues.

The authors of the present invention for the first time showed that with experimentally selected quantitative ratio of the components of nicotinamide enhances the pharmacological activity of succinic acid and riboxin.

At the same time, sodium mononucleotide riboflavin, being a ready-made coenzyme form, is well absorbed and provides fast and complete utilization of active components at the cellular level, helping to restore the energy potential of cells under stress.

Thus, in the claimed composition there is a mutual increase in the activity of its components (synergism), which determines the increase in the therapeutic effect of the drug.

The inventive drug as excipients contains target additives and enteric coating.

Lactose, methyl cellulose, pectin, starch, talc, polyvinyl alcohol, polyvinylpyrrolidone, sorbitol and other generally accepted ingredients can be used as target additives in the preparation.

As an enteric coating, a coating of a copolymer of methyl acrylic acid and ethyl acrylate is used.

Targeted supplements and enteric coating ensure the stability of the dosage form and its complete disintegration in the intestine, delivery of active components to the intestine, where they are most rapidly absorbed.

The inventive pharmaceutical product for oral administration with an experimentally established ratio of components has high therapeutic efficacy in the absence of side effects, which allows it to be used to restore the body after a disease, with intense physical exertion, as well as to increase efficiency and facilitate the adaptation of the body to extreme environmental conditions .

Tables 1-4 present the results of experimental and clinical studies of the inventive oral drug.

Table 1 presents data on the selection of the optimal ratio of the components of the claimed drug.

Tables 2 and 3 present the results of experimental studies of the adaptogenic action of the claimed drug.

Table 4 presents the results of the therapeutic efficacy of the claimed drug.

Experience 1. To determine the optimal ratio of the components included in the claimed drug, investigated the composition of succinic acid and riboflavin sodium mononucleotide with their minimum and maximum contents corresponding to the recommended daily doses, with different contents of riboxin and nicotinamide.

The ratio of the components was considered optimal with a significant increase in the biological activity of the composition. Since the adaptogenic effect is aimed at enhancing metabolic processes in the body, resulting in stimulation of protein synthesis and increased content of ribonucleic acid (RNA) in the cell, the biological activity of the composition was determined by the amount of synthesized total (total) RNA.

As a test system used a standard culture of monocyte cells I-397. Cells were grown in plastic tubes on growth medium RPMI 1640 with 20% fetal calf serum, in a final concentration of monocytes of 2 × ^{10 7} cells / ml. Then the cells were incubated at 37 ° C in an atmosphere of 5% carbon dioxide in a 96-well plate, followed by a change of nutrient medium for seven days.

8 hours after incubation, equal numbers of cells were taken and total RNA was isolated from them by a known method (Chomczynski P., Sachi N. One-step method for RNA isolation from cells and tissues, Analytical Biochemystry, 1987, V.162, N2, p. 156-159).

The optical density of the total RNA solution was measured on a spectrophotometer at a wavelength of 260 nm and the RNA concentration was calculated based on the ratio: 1 optical unit is 40 μg / ml RNA.

The studies showed (table 1) that with an increase in the nicotinamide content from 0 to 3.0 wt.% And riboxin from 0 to 9.0 wt.%, A gradual increase in the concentration of total RNA was observed.

In the range of nicotinamide content from 3.0 to 6.0 wt.% And riboxin from 9.0 to 11.5 wt.%, An unexpectedly sharp increase in the yield of total RNA occurs - its concentration reaches a value that exceeds the original one by 19.5 times. This fact indicates a significant activation of metabolic processes at the cellular level, which may be explained by an improvement in the transport of active substances and vitamins through biological membranes into the cell.

A further increase in the content of nicotinamide more than 6.0 wt.% And riboxin more than 11.5 wt.% Leads to a noticeable decrease in the concentration of total RNA.

Thus, with a certain quantitative ratio of the components in the claimed composition, a synergy of their action is manifested.

The following ratio of components in the preparation is optimal: succinic acid 65.0-68.5 wt.%, Riboxin 9.0-11.5 wt.%, Riboflavin sodium mononucleotide 0.2-2.5 wt.%, Nicotinamide 3 0-6.0 wt.%.

An example embodiment of the invention.

To prepare the inventive drug, a tablet core is obtained which is coated with an enteric coating.

To obtain tablet cores, 300 g of succinic acid, 50 g of riboxin, 25 g of nicotinamide and 5 g of riboflavin sodium mononucleotide are granulated in a granulator dryer by adding a solution of methylcellulose (target additive). The granulate is sieved, dusted with calcium stearate (target additive) and the resulting tablet mass is tabletted. 950 uncoated tablets are obtained with an average weight of 0.40 g (95% yield). One tablet contains 0.30 g of succinic acid, 0.05 g of riboxin, 0.025 g of nicotinamide, 0.005 g of riboflavin sodium mononucleotide, 0.02 g of methyl cellulose and calcium stearate (total).

The cores of tablets in the amount of 1000 pieces are placed in a GLAT-type apparatus, into which 100 ml of an aqueous emulsion containing 13.0 g of a copolymer of methacrylic acid and ethyl acrylate and 7.0 g of 1,2-propylene glycol are sprayed. As a result, a coating mass of 0.04 g is applied to the surface of the tablet core. The yield of the finished product is 92%.

Thus, each tablet contains 68.18 wt.% Succinic acid, 11.36 wt.% Riboxin, 5.68 wt.% Nicotinamide, 1.14 wt.% Riboflavin sodium mononucleotide, combinations of active substances, 4.54 wt. % methyl cellulose and calcium stearate (target additives) and 9.1 wt.% enteric coating based on a copolymer of methacrylic acid and ethyl acrylate.

Experience 2. The study of the acute toxicity of the obtained drug in comparison with the prototype was carried out according to the standard method on 100 male rats of the breed "Wistar", obtained from the nursery Rappolovo RAMS. In the experiment, a lethal dose of LD _{50 was} determined by oral administration of a granulate having the composition described in the production example and a prototype - a combination of succinic acid with riboflavin. The drugs were administered intragastrically through an atraumatic tube.

Studies have shown that the acute toxicity of the claimed composition (LD ₅₀ = 2460 mg / kg) practically does not differ from the acute toxicity of the prototype (LD ₅₀ = 2670 mg / kg).

The resulting preparation does not have mutagenic, teratogenic, embryotoxic, allergenic and immunotoxic effects.

The adaptogenic effect of the claimed drug was evaluated in comparison with the prototype on the model of multiple organ alcoholic lesions (experiment 3) and in the forced swimming test (experiment 4).

Experience 3. The study of the adaptogenic effect of the drug on the model of multiple organ alcoholic lesions.

The experiments were performed on 60 Wistar rats, divided into four groups of 15 animals each: group 1 - control, group 2 - animals with alcoholic infection without treatment, group 3 - animals with alcoholic disease, receiving the claimed drug having the composition described in production example, group 4 - animals with alcohol damage, receiving a drug made according to the prototype.

To model toxic multiple organ damage, ethanol diluted in distilled water was used, which was administered intragastrically to male rats of standard weight (160-170 g) through a non-traumatic metal probe 3 times a day at a dose of 4 g / kg (5 LD) for 5 days ₅₀ ).

Then, starting from the 6th day, for seven days, the inventive preparation at a dose of 150 mg / kg and a prototype at a dose of 125 mg / kg were administered to animals intragastrically through an atraumatic probe in the form of a suspension in starch paste once a day. The administered doses of the drugs are calculated so that the succinic acid content in them is the same and amounts to 68.18 wt.%.

The adaptogenic effect of the drugs was evaluated by the degree of restoration of metabolic and energy metabolism indices impaired as a result of alcohol damage.

With alcoholic damage to the body, there is an increase in the content of an under-oxidized metabolic product - lactic acid against the background of tissue respiration suppression, a decrease in the adenosine triphosphate (ATP) stores in the cell and a decrease in succinate dehydrogenase activity. As can be seen from table 2, in the 2nd group of animals, the concentration of lactic acid in the heart, blood and muscles increased 1.5 times, 1.75 and 1.2 times, respectively, compared with the control group, and energy metabolism decreased sharply .

In animals of the 4th group (prototype), the level of lactic acid in the heart, blood and muscles remained above normal, the increase in ATP and tissue respiration intensity was insignificant and slightly higher than the corresponding values in the 2nd group (without treatment).

When using the inventive preparation (3rd group), the concentration of lactic acid in the heart, blood and muscles decreased to values lower than in the 1st control group, which indicates an increase in the activity of oxidative enzymes. An increase in ATP level to normal values and restoration of the intensity of tissue respiration in the liver, heart and muscles indicates the restoration of the functions of the main organs and tissues of the body.

Experience 4. Comparison of the adaptogenic effect of drugs in the test of forced swimming under stress (cold water).

In the experiment, we studied the effect of the claimed drug and prototype on the development of the process of fatigue of experimental animals during forced swimming in a special bath at a water temperature of 10 ± 0.5 ° C, while using a stopwatch recorded the maximum swimming time until complete depletion and cessation of swimming.

The experiments were carried out on 48 non-linear male mice, divided into three groups: control and two experimental. In the 1st experimental group, the animals were injected with the inventive preparation having the composition described in the production example, and in the 2nd experimental group the animals were injected with a preparation made according to the prototype.

The drugs were administered 30 minutes before the start of swimming in the form of an aqueous suspension intragastrically through an atraumatic probe in appropriate doses, with the same succinic acid content.

The data presented in table 3 show that in the 1st and 2nd groups, the duration of swimming of animals in cold water increased. Moreover, in the 1st group (the claimed drug), the average swimming time is 24% longer compared with this indicator in the 2nd group (prototype) and 50% longer compared with the control group.

The results of the studies showed that the claimed drug to a greater extent than the prototype, slows down the development of the process of fatigue and increases the endurance of animals in stressful conditions.

Thus, the claimed drug has a more pronounced adaptogenic effect compared with the prototype

The therapeutic efficacy of the claimed drug was evaluated during a stress test in healthy people.

A stress test on a bicycle ergometer involved 90 male volunteers aged 22-23 years who had previously undergone a clinical examination. All physiological parameters of the participants corresponded to age norms.

Volunteers were divided into three groups of 30 people each. Within 10 days before the study, volunteers of the 1st group took the claimed drug 4 tablets per day, in the 2nd group they took a drug having the composition according to the prototype. Moreover, the total daily dose of succinic acid in both groups was the same and amounted to 1200 mg. In the 3rd group, volunteers received a simulator containing an aqueous suspension of lactose.

The test was performed on a SECA Cardiotest 100 medical bicycle ergometer 30 minutes after the last dose. Physical performance was assessed by the following indicators: average time of work at maximum load of a bicycle ergometer (400 watts) and pedal speed of 90 rpm, as well as heart rate, systolic and mean hemodynamic blood pressure at the time of "failure" of the load.

The test results presented in table 4 show that in the 1st group, the average operating time at maximum load increased by 20% compared with the 2nd group and by 50% - compared with the 3rd group, which indicates an increase physical performance in healthy people when using the inventive drug.

After the load was removed, the indicators of both systolic and mean hemodynamic blood pressure in the 1st group were 14-16% lower than in the 2nd group. This indicates a positive effect of the claimed drug on vascular autoregulation, which reduces the likelihood of pathogenic phenomena as a result of the stress response of the body at maximum physical exertion.

Thus, the inventive adaptogenic medicinal product for oral administration increases the body's resistance to the harmful effects of factors of a physical, chemical, biological nature and has high therapeutic efficacy in the absence of side effects.

Claims (1)

A medicinal product for oral use containing a biologically active substance - succinic acid, substances with a vitamin action, and an auxiliary substance, characterized in that the drug additionally contains riboxin as a biologically active substance, and riboflavin sodium mononucleatide as a substance with a vitamin action and nicotinamide, and as excipients, target additives and enteric coating of a copolymer of methyl acrylic acid and ethyl acrylate with the following ratio of components, wt.%: Succinic acid 65.0-68.5 Riboxin 9.0-11.5 Riboflavin Mononucleotide Sodium 0.2-2.5 Nicotinamide 3.0-6.0 Target additives 2.0-4.6 Enteric coating of methyl acrylic copolymer acids and ethyl acrylate 6.0-9.1