UA23412U - Deep-sea bottom holocene sediments of the black sea as a remedy of external application in pelotherapy - Google Patents

Abstract

Deep-sea bottom holocene sediments of the Black Sea is used as a remedy of external application in pelotherapy.

Description

Description of the invention

A useful model refers to balneology, and specifically to the use of natural materials as 2 therapeutic agents.

Among the medicinal products of natural origin, a special group is made up of medicinal mud - the so-called peloids, and the branch of medicine that practices their use for the treatment of various diseases is called peloid therapy.

Healing muds (peloids) are modern or geologically young natural formations consisting of water, 70 mineral and, as a rule, organic substances, have a finely dispersed structure, homogeneous, and in most cases, ointment-like in consistency, thanks to which they can be used ( in a heated state) for therapeutic purposes in the form of baths and local applications. (M.V. Loboda, K.D. Babov et al., Healing muds (peloids) Ukrain, "Kupriyanova" Publishing House, Kyiv, 2006, p. 11).

Mud treatment is one of the oldest medical methods, which is successfully used for the treatment of 12 diseases of the most different etiology.

Usually, therapeutic mud is applied in the form of applications: the heated mud is applied in a layer on the patient's body (mostly applied to the sore spot) and left for a certain time. At the same time, the tissues are deeply warmed up, blood circulation improves, inflammations are absorbed, wounds, chronic ulcers and erosions are healed.

Known curative muds used today can be divided into four types according to their genesis and composition: peat, sapropel, silt mineral (sulfide) and sop. |Methodical guidelines for the application of the criteria for the calculation of mineral reserves and the estimation of predictive resources of healing muds.

USSR Ministry of Health, Moscow, 1988.1

The most effective are sulphide silt muds - these are mainly deposits of salt water bodies (salt lakes and sea estuaries), containing less than 1095 organic substances and enriched with various water-soluble salts and sulphides. In addition, sulphide muds contain useful living microorganisms and, compared to other types of therapeutic muds, have more healing power: they exhibit bactericidal properties, stimulate and increase the body's resistance.

Medicinal muds as natural means of treatment in relation to their composition, physico-chemical (sanitary-bacteriological indicators) must meet the established criteria, show biological activity and at the same time must be safe for the human body. "--

The study of the composition, structure, physico-chemical parameters and microbocenosis of the natural material in comparison with the established criteria is a very important stage in substantiating its suitability for M use in modern peloidotherapy, however, establishing its safety, biological activity and co-effectiveness of use as a medicinal product is possible only based on experiments conducted on living organisms. with

Peloids, which are used in modern sanitary practice, are in most cases natural surface formations lying at a shallow depth, and their extraction and use are not associated with large costs and technical difficulties. However, the natural resources of shallow-lying therapeutic muds are "gradually depleted, and in some deposits they have already been practically exhausted. In addition, such peloids are sensitive to 70 different changes in the environment and may be subject to environmental pollution with heavy metals, toxic chemicals, petroleum products, etc.

With" The task of the useful model is to expand the assortment of peloidotherapy remedies while ensuring their environmental cleanliness and safety.

In order to solve this problem, we proposed for the first time to use deep-sea bottom Holocene sediments of the Black Sea in peloidotherapy as a therapeutic agent for external use. o Such deposits are mined at a depth of 600-2000 m in sediment accumulation zones, the formation of which dates back to the age of 7-12 thousand years.

The bottom sediments of the deep-sea basin of the Black Sea are mainly represented by fine-grained pelitomorphic silts (particle size "0.01 mm, the content of the fraction "0.005 mm equals 60-7090), in which age layers can be - 20 0 sufficiently clearly recognized.

The composition of such bottom sediments is given in special literature (Babynets A.E., Emelyanov V.A., Mitropolsky A.Yu. et al. Physico-mechanical properties of bottom sediments of the Black Sea, Kyiv, - Scientific Thought", 1981, p. .114-128). In general, the mineral composition of pelitic silts is as follows: quartz 7.3-14.995, carbonate minerals 15.2-26.595, clay minerals (hydromica, kaolinite, montmorillonite, etc.) 40-7095. Chemical composition: 25 - on average 32905, content of organic substances (bitumen, humic and amino acids, chlorophyll, etc.) - max. 5-795, average about 295, amorphous silica 0.1-495, usually less than 1.595. In this and other sources information, there are also more detailed data on the peculiarities of the composition and physical and mechanical properties of the given deep-sea bottom sediments as an object of engineering and geological research, but such data are not sufficient to determine their suitability for treatment. 60 For the first time, we discovered and determined the biological activity of deep-sea Holocene bottom sediment incense stick

of the Black Sea, their properties were studied according to a set of methods used to determine the quality of peloids in modern balneology, and the compliance of the proposed natural material with the established requirements was proven.

Conditions for the formation of Black Sea deep-sea Holocene bottom sediments: constantly low temperature, lack of light, complete lack of oxygen, the presence of microorganisms specific for such conditions (denitrifying bacteria, iron bacteria, actinomycetes, and micromycetes in the absence of sulfate-reducing bacteria), the presence of hydrogen sulfide at a depth of 200-400 m of the shielding layer ensure long-term preservation and environmental cleanliness of such bottom sediments, and also determine their unique mineral and organic composition, which differs from the composition of shallow sediments and, above all, a higher content of natural ultradisperse minerals, a set of useful substances and microelements.

Below, on specific examples - samples of deep-sea Holocene sediments (pelitic muds) mined from the bottom of the Black Sea, it is shown that the proposed natural material meets the requirements for therapeutic muds in terms of physical and chemical parameters, and is not inferior in quality to mud 7/0 Mmineral (sulphide) mud, and the results of studying the bactericidal effect and physiological studies testify to its high biological activity and harmlessness to the living organism, that is, the possibility of using such deposits as new therapeutic agents in peloidotherapy has been experimentally proven.

As for environmental cleanliness, this indicator is more reliably guaranteed for the proposed natural material compared to peloids of surface occurrence, due to the above-described conditions of its formation and /5 occurrence at a great depth.

Thus, the task was solved with the achievement of the necessary technical result.

Examples.

The proposed treatment material is available for use. In particular, on the continental slope of the northwestern part of the Black Sea, at a depth of 600-14,500 m, a layer of Holocene bottom sediments forms a single horizon up to 2 m thick throughout the water area. The results of the study of the properties of these bottom sediments - generalized data for all selected samples and specifically for the three most representative samples (examples 1-3) are given in Tables 1, 2. The sample according to example 1 was selected at a depth of 830 m in a layer 0.4 m from the bottom surface, sample according to example 2 - at a depth of 105Ω in a layer from 0.5 to 2m, and a sample according to example C - at a depth of 85Ω in a layer of 0.1-0.bm. The weight of the samples is 200g each.

Physico-chemical and sanitary-bacteriological indicators of bottom sediment samples were obtained in accordance with approved methods. Research methods of natural and preformed medicinal products: t mineral natural canteens, medical canteens, medicinal waters and drinks based on them; artificially mineralized waters; peloids; brines and preparations based on them. Approval MES of Ukraine 04/28/2001)

The studied sediment samples had a viscous, ointment-like consistency, the color was from black to gray, and the odor was from its absence to weak hydrogen sulfide.

Table 1 shows the results of the assessment of the studied bottom sediments according to standardized quality indicators - for silt mineral (sulfide) muds, and Table 2 shows the data we obtained on other physical and chemical properties of the studied samples and information about the properties of the same sulfide muds mineral peloids according to literature data. (Loboda M.V., Babov K.D. and others. Healing muds (peloids) of Ukraine, Kyiv, ed. and) "Kupriyanova", 2006, pp. 13, 17, 18, 25, 33). with

The data in Table 1, as well as the results of the assessment of sanitary and bacteriological indicators, testify to the compliance of the studied bottom sediments with the requirements for therapeutic muds, and a comparison of the indicators of consumer properties, which are given in Table 2, confirms their compliance with the quality level of highly effective sulphide muds. "

In order to assess the biological activity of deep-sea bottom sediments and the safety of action on a living organism, samples from c sediments according to examples 1, 2, C were taken for microbiological and physiological studies at the Ukrainian State Center for Standardization and Quality Control of Natural and Preformed Means of the Ukrainian Scientific Research Institute;" medical rehabilitation and health resort.

As a result of the study of the bactericidal effect of bottom sediments by the method of peloid blocks in the dynamics through

Every day until the complete death of the test culture, the promotion of the death of E. coli was established 4 days after contamination at a significant dose (10 UKOE/g), which was introduced directly into the suspension of each of the 3 sediment samples, which makes it possible to evaluate them as highly bactericidal. o The aim of the physiological studies was to determine the response of various body systems of healthy animals (white "g" rats of the Wistar line) to the action of the proposed peloids: - determination of the general effect on the body (behavior tests, neuromuscular excitation, reflexes and - vegetative effects);

Kz - determination of the effect on the central nervous system (CNS) and on the functional state of the liver and kidneys.

The route of entry of the substances contained in the samples to the body is skin-resorptive, for which the tails of the animals were immersed for 2 hours in the investigated suspension (a water slurry prepared by diluting the investigated sediment sample with water in a 1:1 ratio) at a constant temperature of about 4026. c The study of the general action of samples of sediments according to examples 1, 2, C showed that when they are introduced into the body by skin absorption, there is no change in animal behavior tests compared to control groups.

The excitability of rats was assessed by the general level of motor activity. Changes in this test, which characterizes 60 stimulation of the central nervous system, were not detected, as well as sharp functional shifts in the field of autonomic innervation. The reactivity of rats did not change either; the reflexes of the cornea and auditory canal were "lively" in all series, which indicates the alertness of the animals. The fearfulness of rats was assessed during careful standard manipulations (touching with forceps).

Neuromuscular excitability was not observed, which is evidenced by the absence of tremors, convulsions, and "positional reflexes" are not disturbed. In all series, there were no gait disturbances, which would indicate a change in bone muscle tone. There is no change in the Straub test, which characterizes the degree of impairment of spinal motoneurons, which are responsible for regulating the tone of the tail muscles. Changes in body position (prostration, stiffness) were not noted. The positions of the limbs (flexion, extension) are the same in the control and experimental studies.

The effect of deep-sea bottom sediments on the central nervous system and the functional state of the liver was determined by the "narcotic" test according to Speransky: intraperitoneal injection of sodium thiopental solution at a dose of 0.75 g of dry matter per 100 g of the animal's body weight and determination of the time of falling asleep in minutes (characterizes the effect on the central nervous system) and duration. narcotic sleep" (indicates the effect on the antitoxic ability of the liver).

The effect of substances coming from sediment samples on the functional state of the kidneys of 7/0 animals was also studied by determining the mechanism of urine formation based on indicators of the rate of filtration of primary urine and Uo of reabsorbed water in the nephron tubules of the kidneys based on the clearance of endogenous creatine; in addition, daily diuresis and urine reaction were determined.

The obtained data were compared with control data and processed by the method of indirect differences of variational statistics.

The probability of the obtained results was checked by Student's t-test, the presence of influence was taken into account within the probability of "0.05.

The results of physiological studies of samples according to examples 1, 2, C are given in tables 3, 4; in table 3 - the change in indicators of the "narcotic" test in rats from the studied groups in comparison with the control ones, and in table 4 - indicators of the functional state of the kidneys of animals under the influence of the studied natural material.

Tables 3 and 4 use the following designations: n - number of rats in the study and control groups;

M - the arithmetic mean value of the measured indicator, O - the difference between the indicators of the control and experimental groups; p - probability.

The results shown in the table. C show that under the influence of all three samples of deposits, the duration of "narcotic" sleep of animals is shortened, that is, stimulation of the antitoxic function of the liver is observed, and under the influence of deposits according to example 2 (probably) the length of time to fall asleep increases, which also indicates the ability to stimulate the central nervous system.

From the data given in Table 4, it can be seen that the studied samples of sediments according to examples 2 and 3 affect - improvement of kidney function. Deposits according to example 2 increase daily diuresis by 1.91 times (p "0.02), and the increase in diuresis is due to a decrease in the percentage of readsorbed water; noticeable and significant alkalinization of daily urine (р«0.01). The increase in daily diuresis under the influence of deposits according to example C (also c zo B 1.9 times) is due to the stimulation of the filtration rate of primary urine by 1.6 times (р«0.001), while the reverse absorption of water in the renal tubules remains unchanged (р 20 ,2); quite noticeably expressed ("7 alkalinization of daily urine. "g

The established safety of the action on the living organism, high bactericidal and biological activity, which is manifested in the stimulation of the antitoxic function of the liver and the improvement of the function of the kidneys, natural ecological me) z5 Purity, along with the revealed high consumer properties, indisputably justify the expediency of using deep-sea Holocene bottom sediments of the Black Sea as a medicinal means of external application in peloidotherapy. "1 2 From data x" size 20,25.10-Zm, Fo yuyu o

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Table 4.

Mzntz op

Daily diuresis, ml/cm2 of body surface 0.90-0.11 1.7240.27

Nodular filtration, ml/cm min 0.18-0.01 0.15-0.03 0.29-0.01 Bim «00

Tubular reabsorption 95 before filtration 99.6620.03 11 |99.09-0.26 5 -0.57 (0.05 |99.59-0.06 that 2

Claims (1)

The formula of the invention is the use of deep-sea bottom Holocene sediments of the Black Sea as a medicinal agent for external use in peloidotherapy. "Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated circuit microcircuits", 2007, M 7, 25.05.2007. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. Gee! - and? name) (95) Cheka" - 70 Ko) 60 b5