BG65218B1 - Agent for reducing the risk of cancer diseases - Google Patents

Abstract

The natural heat-treated clinoptilolite agent is used to reduce the risk of cancer diseases. It represents natural clinoptilolite, which is ground to particles sized < 0,1 mm, dehydrated and sterilized at a temperature of 200 to 250 degrees C for two and more hours. The agent is used when there is a higher cancerogenic risk or in cases of natural cancer disease aptitude of the system. At will, the agent may comprise also NaHCO3 in a 5:1 ratio, as well as vitamin C in a quantity ensuring saturation of the system with vitamin C when taking the agent.

Description

Field of application

The invention relates to a mineral agent clinoptilolite for reducing the risk of cancer, applicable in ambulatory and clinical practice in humanitarian and veterinary medicine.

BACKGROUND OF THE INVENTION

The use of Bulgarian clinoptilolite in large quantities for cat litter is known. Due to suspected carcinogenicity [1], the Bulgarian clinoptilolite has not been fully used in the last 15 years, despite its known properties as a sorbent, molecular sieve and ion exchanger. Since 1999, following a number of scientific reports [2, 3, 4, 5, 6] proving that Bulgarian clinoptilolite has no carcinogenic effect on animals, it has been re-included as a nutritional supplement to animal feed.

A known remedy for natural heat-treated clinoptilolite and methods for its application for the prevention and treatment of various diseases [7]. The agent is a natural clinoptilolite, milled to a particle size <0.1 mm and dehydrated, and sterilized at a temperature of 200 to 250 ° C for 2 hours or more.

There is also a method [8] for determining the saturation limits of the body with vitamin C, according to which a urine sample paper test is considered to be a strip of indicator color in the presence of a certain amount of vitamin C in the urine. The saturation is accomplished by taking daily doses of 0.5 to 5 g of Vitamin C (preferably effervescent) to meet the individual needs of the body. The saturation point is determined by periodic monitoring of the body for 4 hours after each intake of vitamin C, by a paper test to prevent overdose. The body is saturated for a period of 10-12 hours after reaching a level of vitamin C in the urine from 40 to 60 mg%.

There is a known nutritional supplement clinosor bent-5, developed on the basis of Bulgarian natural clinoptilolite with subsequent alkaline modification, in order to increase the sorption capacity against ⁹⁰ Sr [9, 10].

There is a known method of prophylaxis against the effects of radioactive radiation by using the agent clinosorbent-5 as an additive in the daily portion of NPP personnel, civil defense and other persons working in radioactive medium and with heavy metals [9,10].

A disadvantage of the known tools and methods is their limited application.

The use of the mineral agent clinoptilolite is not known to reduce the risk of cancer.

It is an object of the invention to provide a mineral agent clinoptilolite for reducing the risk of cancer.

SUMMARY OF THE INVENTION

This task is solved as a means of natural heat-treated clinoptilolite applied to reduce the risk of cancer. The agent is a natural clinoptilolite, milled to a particle size <0.1 mm and dehydrated, and sterilized at a temperature of 200 to 250 ° C for 2 hours or more. The agent is used in the presence of increased carcinogenic danger or in the natural inclination of cancer of the body. Optionally, the agent also includes NaHCO ₃ at a ratio of 5: 1. The agent may also include vitamin C in an amount that ensures the body is saturated with vitamin C upon administration of the agent.

Exemplary embodiment and operation of the invention

The effect of the known agent, natural milled to particle size <0.1 mm clinoptilolite, dehydrated and sterilized at 200-250 ° C for 2 h, was investigated on the incidence of spontaneous malignancies in experimental animals - mice .

Table 1 shows the results of a study of a group of 300 BDF1 laboratory mice, divided into three groups of 50 male individuals (in the table labeled “m”) and 50 female individuals (in the table labeled “g”).

Table 1.

A group of tumor entities Number of tumors per group Group I control Group II dermal Group III oral M J. m w M J. 1. Lymphosarcoma 2 3 - 2 1 2. Type B neoplasm of the reticular cells - 3 - - 3. Hemangioma of the liver - 1 - 1 4. Hemangioma of the endometrium - 1 - - 5. Adenoma of the endometrium - 1 - 1 Total 2 9 2 3

The study was performed according to the requirements of the World Health Organization [11]. Animals aged 3 months were used. All animals were fed standard standard tableted feed for laboratory animals. The first group is a control, untreated agent. The second group is dermally treated, with the implant being mechanically implanted in the area of the left flank of each animal. The operative field was 2 in 1 cm in size and deep until bleeding occurred, with 500 mg of the agent sprinkled in the slit and bilateral subcutaneously, after which the slit was sutured with a single suture. The wounds heal quickly and are subsequently uninfected and no malignancy develops at the implantation site. The third group of animals was orally treated with the agent. Animals were given feed containing 5% of the daily ration for 5 days each week. The observation period is 24 months daily. Animals that died during the experiment as well as survivors by the end of the period were autopsied. Pathomorphological studies were performed on all treated and control animals, covering all tissues.

Of the 16 diseased animals with 5 types of tumors registered in 2 males and 14 females, 11 were in untreated controls, 2 in dermally treated and 3 in orally treated mice. The table shows a tendency to decrease the incidence of malignancies in the treated animals, this trend being more pronounced in the orally treated animals with respect to lymphoma cancers (lymphosarcoma, neoplasm type B reticular cells). These carcinomas in mice can find their analogue in human lymphoma cancers, such as Hodgkin's and Non-Hodgkin's lymphomas, to some extent breast cancer, and the like.

A medical geographic study was conducted on the population living in areas with widespread zeolite rocks made of clinoptilolite, namely in the northern parts of the Eastern Rhodopes. There are 15 villages in which the houses are constructed of clinoptilolite rock, the agricultural areas are on soils developed on the clinoptilolite rock, and the waters pass through the clinoptilolite aquifers. The results of studies of drinking water passing through clinoptilolite rocks from 15 sources showed values of ²²⁶ Ra lower than the sensitivity of the method (0.07 Bq / Ι) at a maximum permissible concentration of 0.15 Bq / 1. Emission of radon in homes made of clinoptilolite rocks has not been proven. Data from the National Cancer Registry indicate low tumor morbidity in this population [4].

Table 2.

Specific activity, Bq / kg Sample ^22b Ra 332-Th 4i _k Beli Plast village, career 180 ± 20% 180 ± 15% 140 ± 8% 990 ± 8% EAD Bentonite 185 ± 15% 200 ± 10% 145 ± 5% 1000 ± 8% White Layer, Mushroom Pink Layer 110 ± 25% 100 ± 20% 150 ± 10% 1140 ± 8% Village White layer, Mushrooms green layer 100 ± 20% 120 ± 15% 140 ± 10% 1400 ± 8% village Pardartsi 170 ± 15% 190 ± 10% 150 ± 8% 750 ± 8% village Most 60 ± 30% 75 ± 25% 140 ± 10% 1200 ± 8% Iron doors, career 50 ± 35% 60 ± 30% 170 ± 10% 1030 ± 8% Lyaskovets village, Mordenite 80 ± 20% 80 ± 15% 120 ± 6% 1260 ± 8% Kraljevo village, volcanic glass 120 ± 30% 150 ± 25% 125 ± 10% 1300 ± 8%

Table 2 summarizes the results of the study of the natural radioactivity of clinoptilolite rocks in the northern parts of the Eastern Rhodopes.

The rock samples of clinoptilolite originating from the study area show a higher 2θ content of natural radioactive elements than the typical natural values of 10-50 Bq / kg for ²³⁸ U and from 7 to 50 Bq / kg for ²³² Th according to [12 ].

To investigate the behavior of clinoptilolite in a hydrochloric acid environment mimicking conditions in the stomach, an experiment was performed in which the agent was extracted with 0.3N HCl (about 3 times the acidity of normal for gastric contents) for 2 hours at temperature 45 ° C and continuous stirring. The results are shown in Table 3.

Table 3.

Sample nuclide Specific activity, Bq / kg 23 »and ^22b Ra ²³² Th 4o _k clinoptilolite, starting material 170 ± 20% 180 ± 15% 140 ± 10% 1000 ± 5% HCL, 0.3N - pure solution <10 <3 <0.7 <2 HCL, 0.3N - extract obtained after 2 hours of treatment with clinoptilolite at 45 ° C <10 <3 <0.7 8 ± 10%

As can be seen from Table 3, when treating the agent with a hydrochloric acid solution with an acidity of about 3 times higher than the acidity of the gastric contents, at a temperature of 40 higher than 37 ° C (45 ° C) for 2 h, no natural rallynuclei contained in clinoptilolite are extracted. Under these conditions, they remain firmly bound in the aluminum silicate skeleton of the mineral.

To monitor the excretion of natural radionuclides contained in clinoptilolite, faeces from experimental animals were examined. BDF1 mice fed for 75 days with standard tablet feed containing 20% clinoptilolite were used. The data are presented in Table 4.

Table 4.

Nuclid Specific activity, Bq / kg ²³⁸ and ²²⁶ Ra ²³² you ^40K I group of animals - control, 10 pcs., X 75 days injured with clean food food (clean) <10 <3 <0.7 290 ± 10% Faeces 30 ± 35% <10 <4,5 170 ± 10% Group II animals, 9, fed 75 days with food + 20% clinoptilolite food + 20% clinoptilolite 40 ± 30% 40 ± 30% 25 ± 30% 430 ± 15% Faeces 50 ± 30% 25 ± 30% 18 ± 30% 260 ± 10%

As can be seen from Table 4, the intake of radionuclides with food containing 20% of the agent is excreted practically with the faeces of the experimental animals. With respect to ⁴⁰ K, a certain amount is retained in the body, which is insignificant in relation to the total content of ⁴⁰ K in the body, having a correlation of the retention ratio of ⁴⁰ K from pure food and from food with 20% clinoptilolite, which is about 60%. ^ 5

The data presented in Tables 2, 3 and 4 show that, despite the increased natural radioactivity of the clinoptilolite rocks, due to the specific properties of this material, such as a powerful radioactivity absorber, there is no danger of the recovery, introduction and retention of harmful radionuclides disposed of with clinoptilolite in the faeces.

For clarification of the beneficial effect of the organism agent, Table 5 presents data from the diffractograms of clinoptilolite and crystals of the type of spherulites contained in the urine of a healthy organism.

Table 5 shows some similarities in the diffractograms obtained from clinoptilolite and those of spherulites in urine from a healthy organism, respectively, and similarity in their interplanar distances. Considering the properties of clinoptilolite as a molecular sieve and an ion exchanger, it is proved that spherulites play a similar role in the body. In the interaction between the agent and the spherulites in the gastrointestinal tract, the spherulites are purified from toxic protein degradation products that are disposed of by absorption from clinoptilolite.

Table 5.

Crystals of the type of spherulites in urine of a healthy organism Clinopygololite, powdered, heat-treated at 250 ° C dA K%) dA K%) 9.03 100 8.57 <2 7.98 37,50 7,30 5 6.79 15.80 6.01 11,66 5.71 5 5,25 15.80 5.14 25,00 4.96 10 4.75 100 4.66 19.16 4.36 14.16 4.09 5 3.97 55 3.98 85.00 3.92 43,30 3.86 14,00 3.74 5 3.71 8.33 3.56 14.16 3.49 30 3.46 15,00 3,43 34.16 3,39 23,33 3,32 15,00 3.19 41.66 3.17 30,00 3,148 th most common 100 3.13 18.33 3.08 14.16 3.04 5 3.03 7.50 3.02 15,00 2.96 5 2.92 32.5 2.84 8 2.80 24.16 2.77 5 2.74 15,00 2.66 5.83 2.61 5 2,53 12.50 2.45 10,00 2.43 14.16 2,34 5 2.22 5 1.99 12

The agent can be used for the prophylaxis of humans and animals living and / or working in a hazardous environment, including carcinogenic agents (as defined by relevant regulatory documents), taking 2.5 g to 5 g in the morning twice daily ₄₅ before eating and the evening before going to bed.

Another possible use of the tool is in industrial accidents or in emergency situations where uncontrolled release of carcinogens into the environment, 5Q for preventive protection of the population in the accident area and in the contamination areas. In these cases, the agent is taken according to the above scheme

The 1986 Chernobyl accident radioactive contamination increased the environmental content of such radionuclides as ¹³¹ J and ¹³⁷ Sc, as well as of "hot particles". The composition of the "hot particles" contains different proportions of insoluble radioactive elements such as Zr, Nb, Ce, Ba, Ru and others [13]. A number of radioactive isotopes of these elements have a relatively short half-life - from a few days to a year. Other isotopes have a much longer half-life, such as ⁹⁰ Sr for 27 years. When hot particles get into the body in the lungs or in the digestive system, it is possible to retain them, which at some distance results in systematic homogeneous radiation, a prerequisite for inducing cancer [14]. At such a risk, 2.5 g to 5 g of the agent or pharmaceutical composition of the agent in combination with NaHCO ₃ is taken prophylactically twice daily in the morning before eating and in the evening before going to bed. The administration of NaHCO ₃ to clinoptilolite enhances the prophylactic effect of the set of radionuclides listed above. The ratio of agent to NaHCO ₃ is 5: 1.

Another use of the agent is in people with a genetic predisposition to cancer or in patients who have undergone surgical removal of tumors at risk of relapse.

In patients with an elevated tumor marker, the agent, in parallel with the saturation of the body with vitamin C, is prophylactically administered by a known method [8].

Another possible use of the agent is in the chemotherapy and radiation therapy of cancer patients, taking the agent or pharmaceutical composition of the agent in combination with NaHCO ₃ in a ratio of 5: 1.

Claims (15)

Claims 1. Nikolova S. 1986. Hygienic evaluation of dust from Bulgarian zeolite rocks. Thesis. Scientific consultants: Assoc. M. Dobrev, Assoc. Prof. G. Kirov. Sofia. 1. A means of reducing the risk of cancer, based on natural clinoptilolite, characterized in that it contains natural clinoptilolite, heat-treated, dehydrated and sterilized at a temperature of 200 ° to 250 ° C for 2 hours or more, with particle size <0.1 mm and, optionally, NaCO ₃ at a ratio of 5: 1. 2. Blagoeva P., Gendzhev 3., Mircheva Ts., Izmirova Η. 1999. Absence of toxic effects in laboratory rodents treated orally for 70 days with clinoptilolite. - VI National Congress of Oncology with International Participation, Sofia, November 19-20, 1999. 2. A cancer-reducing agent, based on the natural clinoptilolite according to claim 1, characterized in that it also includes vitamin C in an amount that ensures the body is saturated with vitamin C. Literature 3. Izmirva N., Aleksiev B., Blagoeva P. 1999. Clinoptilolite (K) - Natural phenomena and studies in relation to its biological properties. - Report presented at the VI National Congress of Oncology with international participation, Sofia, 19-20 November 1999. 4. Izmirova N., Minev L., Bozhkova T., Presianov D. Uzunov P., Alexiev B., Dzhurova E., Tomova I., Baeva M., Boyanova A., Mircheva Ts., Blagoeva P., Todorov T., Petrova R. 1999. Clinoptilolite - on some properties and applications in medicine. Report presented at the Sixth National Congress of Oncology with International Participation, Sofia, 1920 November 1999. 5. Blagoeva R., Gengjev Z., Mircheva Z., IzmirovaN. 2000. Investigation of clinoptilolite for carcinogenic action in mice - single dermal and chronic oral administration. In: National Scientific Conference with International Participation “From Preclinical Research to Medicinal Products” October 26-27, 2000, Sofia - Pharmacy, vol. 47, no. 1, p. 27. 6. Blagoeva P. et al., 2001. Report on contract 103 to the Ministry of Education and Science - Investigation of the carcinogenic effect of clinoptilolite in laboratory rodents. 7. BG №102674 А. 8. BG №104359 А. 9. Marinov V., Zlatev At. 1995. Use of natural sorbents in conditions of technogenic pollution. Pg. 69,114,115. 10. Resolution of the Ministry of the Interior No. 33-60-180 of December 31, 1992. 11. World Health Organization, IARC, Lyon, 1980. 12. UNSHEAR, 1988 5 13. Bonchev C., Mandzhukov I., Manushev B. 1990. The truth about Chernobyl pollution in Bulgaria. - Kliment Ohridski University Publishing House, Sofia, pp. 3-68. 14. Uzunov I., 1987. Problems related to the evaluation of the carcinogenic risk of hot particles. In: Symposium on Radiation Damage and Radiation Research (December 16-18, 1987). Scientific Reports and Communications, Part III, National Radiation Protection Research Program, p. 15-18.