RU2071767C1 - Method of treatment of oncological patients - Google Patents

Abstract

FIELD: medicine, oncology. SUBSTANCE: method involves the use of the following preparations: semicarbazide hydrochloride, urea, cadmium halides at mass number 113. Additionally, stable isotopes of gadolinium can be used, in part, its oxides at mass number 155-157. Also, glucine is used in combination with urea and sodium hydrocarbonate that enhances urea penetration in tumor cells. EFFECT: enhanced effectiveness of treatment and immunity capability of patient. 4 cl

Description

 The invention relates to medicine and can be used to treat cancer patients with any nature and localization of tumors.

 Known methods of treating cancer patients with chemotherapeutic drugs, for example, using TIO-TEF, which is administered to the patient intramuscularly (see source).

 This known method is not very effective as an independent one and can give some effect only in combination with surgical intervention, for example, after removal of the main tumor to prevent the growth of metastases. In addition, the well-known chemotherapeutic antitumor drugs, including TIO-TEF, have significant toxicity and inhibit the patient’s hematopoietic system, reduce its resistance to various diseases, including cancer.

 Methods for treating cancer patients using urea derivatives are also known; these are thiosemicarbazones (see. Chemotherapy of malignant tumors, under the editorship of Blokhin MN 1977, p. 113).

 The authors of the monograph, however, themselves indicate that the use of thiosemicarbazones in the clinic is difficult due to poor solubility in water and high toxicity to the gastrointestinal tract. The toxicity of the drug does not allow its use in doses and periods sufficient to cure the patient.

The proposed method is aimed at eliminating these shortcomings and ensuring the possibility of a complete recovery of the cancer patient. For this purpose, it is proposed to use semicarbazide hydrochloric acid NH ₂ NHCONH ₂ HCl and urea NH ₂ CONH ₂ as chemotherapeutic drugs, as well as cadmium preparations, in particular its halide salts (halides) and oxides of the stable cadmium isotope Cd ¹¹³ O.

In addition, it is proposed to use gadalinium preparations, in particular oxides of its stable isotopes Gd $\genfrac{}{}{0ex}{}{\text{155-157}}{\text{2}}$ O ₃ ..

In addition, it is proposed to use with urea glucine C ₂ H ₅ O ₂ N and drinking soda.

 Semicarbazide hydrochloride is a powerful reducing agent and relieves intoxication in any disease, including cancer, i.e. underoxidized products are slagged and the redox processes in the body are brought to an end. It was found that the nuclei of tumor cells contain phosphatopentose aldehyde, and semicarbazide is reactive to aldehydes and binds them.

 Semicarbazide hydrochloride is very soluble in water, completely non-toxic and has a pronounced antitumor effect.

 The bactericidal and antitumor effect of semicarbazide was confirmed in 1975 when it was tested in the group of biological tests of chemical compounds of the Laboratory of Experimental Immunology of the USSR Academy of Medical Sciences. On p. 116 of the mentioned monograph, where the consideration of thiosemicarbazones ends, the author indicates that the search for new antitumor drugs in this series is very promising. Semicarbazide hydrochloride is a drug of this series, and the drug is the most effective and least toxic, but it was not named, was not proposed by the authors of this monograph. It was found that tumor cells differ from healthy ones in particular by increased radioactivity. To repay the radioactivity of diseased cells and surrounding tissues, cadmium preparations that absorb neutrons are used. Gadolinium is even more than cadmium has neutron capture properties, as well as the ability to magnetize the nuclei of malignant cells, turning them into healthy ones. Both cadmium and gadolinium cause the formation of fibrous tissue instead of a tumor.

 In addition, cadmium preparations, acting on the thymus, activate the release of T-leukocytes into the blood, which helps to increase the body's defenses. Cadmium blocks the sulfhydryl groups of the SH protein, which are abundant in tumor tissues, and activates the uriase enzyme.

 Cadmium also promotes the formation of urea in the body and normalizes the ornithine cycle, which is impaired in cancer patients. In this regard, urea is introduced into the body. Especially in conjunction with glycine and soda, this gives an alkaline reaction, i.e. It is a strong reducing agent and relieves inflammation.

 All these drugs not only do not reduce the body's defenses, but also increase them, because they activate the reticulo-endothelial system and increase the oxygen capacity of tissues.

 Treatment by the proposed method is as follows.

 The patient is prescribed primarily hydrochloric acid semicarbazide before meals, 0.2 g 2 times a day in the form of an aqueous solution. In addition, at the same time prescribe urea dissolved in water at 0.5 g 2 times a day after meals. In addition, at the same time, a 25% alcohol solution of cadmium iodide in an amount of 1 to 5 drops per 1/4 cup of water is prescribed to be taken daily 2-3 times a day after meals and, in addition, a 1% aqueous solution of cadmium iodide in an amount of 0.5 to 1 cc diluted in 10 cc of an isotonic NaCl solution is administered intravenously every other day.

 When taking the indicated alcoholic solution, you should start with 1 drop, adding one drop every day and bring to 3 drops with a low weight of the patient and up to 5 drops with a normal weight and good tolerance. Otherwise, reduce one drop per day.

 With intravenous infusions of a solution of cadmium iodide should start with 0.5 cubic meters. cm and increase the dose of 0.1 cc, bringing up to 1 cc with a patient weight of 100 kg, up to 0.6 cc with a weight of 60 kg, up to 0.7 cc with a weight of 70 kg, etc.

 Along with the indicated treatment, it is recommended to follow a yeast-free diet, as yeast has been shown to contribute to the rapid growth of tumor cells.

 At the same time, it is recommended to periodically engage in the improvement of the patient’s intestinal flora, for example, using colibacterin.

In addition, to increase the effectiveness of treatment, the stable cadmium isotope oxide Cd ¹¹³ O is prescribed intramuscularly 2 times a week, alternating these injections with the intravenous administration of a solution of cadmium iodide. At the same time, the indicated cadmium oxide should be ground in a porcelain mortar and mixed with an oily solvent (bayoquinol, bismoverol or peach oil) in the ratio of 0.1 g of cadmium oxide per 100 g of solvent and 3 cm ^{3 of the} solution are introduced 2 times a week.

In addition, to further increase the effectiveness of treatment, stable gadolinium isotopes are used as a therapeutic drug, with Gd powder $\genfrac{}{}{0ex}{}{\text{155-157}}{\text{2}}$ O ₃ in an amount of 0.002 g is mixed with hydrochloric acid semicarbazide powder in the dosage indicated above) 0.2 g), this mixture is dissolved in water and taken orally daily 2 times a day, and for injection a solution of gadolinium oxide in the above oily solution is prepared solvent in the ratio of 0.1 g of oxide per 100 g of solvent. Solution of both oxides Cd ¹¹³ O and Gd $\genfrac{}{}{0ex}{}{\text{155-157}}{\text{2}}$ O ₃ can be prepared together and take 3 cc of total solution for each injection. Injections are done 2 times a week for a year.

 Gadolinium is a very effective drug, and its use reduces the treatment time by about half.

 To enhance the penetration of urea into cancer cells, where it is deficient, which impedes the absorption of digested proteins, fats and carbohydrates by the cells and leads to cachexia, it is further recommended to prescribe glucine and water together with urea, mixing 0.5 g of urea in each dose, 0 5 g of glucine and 0.25 g of soda and dissolving the mixture in water.

Claims (4)

1. A method of treating cancer patients with chemotherapeutic drugs administered orally or by injection to a patient, characterized in that semicarbazide hydrochloric acid NH ₂ NHCONH ₂ HCl and urea NH ₂ CONH ₂ in the form of aqueous solutions orally and cadmium halide preparations are used as chemotherapeutic drugs in the form of an alcohol-water solution orally and in the form of an aqueous solution, diluted in an isotonic sodium chloride solution, intravenously, moreover, semicarbazide is prescribed 0.2 g 2 times a day before meals, urea at 0.5 g 2 times a day after meals, both drugs daily, 25% alcohol solution of cadmium halide from 1 to 5 drops per 1/4 cup of water daily 2 3 times a day after meals and 1% aqueous a solution of the same halide, for example cadmium iodide, in an amount of 0.5 to 1.0 cm ³ diluted in 10 cm ^{3 of an} isotonic NaCl solution for intravenous infusion, every other day. 2. The method according to p. 1, characterized in that the oxide of the stable cadmium isotope 113 is additionally diluted in an oily solvent of bioquinol, bismoverol or peach oil in a ratio of 0.1 g of oxide per 100 g of solvent and 3 cm ^{3 of the} resulting solution are introduced intramuscularly, alternating with intravenous administration of cadmium halide according to claim 1.  3. The method according to PP. 1 and 2, characterized in that the oxide of the stable gadolinium isotope 155-157 is additionally used, moreover, for oral administration, the powder of this oxide in an amount of 0.002 g is mixed with a powder of hydrochloric acid semicarbazide, this mixture is dissolved in water and taken as indicated in paragraph 1 for semicarbazide and for injection, a solution of gadolinium oxide in an oily solvent according to claim 2 is prepared and administered in a ratio of 0.1 g of oxide per 100 g of an oily solvent or together with a cadmium oxide solution and is administered intramuscularly 2 times a week, alternating with intravenous cadmium halide under item 1 for a year.  4. The method according to PP. 1 to 3, characterized in that they additionally use orally glucine and baking soda 2 times a day after meals, and for each dose, 0.5 g of glucine is mixed with 0.25 g of soda and 0.5 g of urea specified in paragraph 1, and the mixture is dissolved in water.