RU2391109C1 - Medication for treatment of oncologic diseases with application of calcium - 41 isotope - Google Patents

Abstract

FIELD: medicine. ^ SUBSTANCE: invention relates to chemical-pharmaceutical industry, namely to creation of medication for treatment and prevention of oncologic diseases. Medication represents tabletted form and contains calcium carbonate, vitamin D3, zinc oxide, Ca41Cl2 with induced activity 0.1 microcurie, vitamin E. ^ EFFECT: medication has anti-tumour action, increases efficiency of oncologic disease treatment. ^ 4 ex

Description

The invention relates to the field of radiation therapy - the treatment of cancer using ionizing radiation.

Known methods of use in radiation therapy of closed and open radioactive sources. Sealed sources - these are radioactive drugs placed in a special protective sealed packaging (usually steel) - are designed to work without opening the protective sheath. Moreover, in molecular biological and biochemical studies, open sources are used - solid, liquid or gaseous radioactive substances or their solutions. Almost all of the radioactive drugs used in life science are solutions of compounds labeled with radioactive isotopes.

The use of ionizing radiation for the treatment of malignant tumors is based on their damaging effect on cells and tissues, leading to their death. Irradiation methods can be divided into two main groups: remote methods and contact irradiation methods. With contact irradiation methods, the source is placed in close proximity to the tumor or injected directly into the tumor. A peculiar form of intratumoral radiation is the administration of certain drugs per os or parenterally followed by their adsorption in certain tumors. Radioactive phosphorus ³² P, adsorbed predominantly by the reticuloendothelial and bone tissue, can be administered intravenously with multiple bone metastases. Radioactive iodine ¹³¹ I, selectively absorbed by thyroid tissue, is used for thyroid cancer.

One of the currently promising methods of treating cancer is brachytherapy using ¹²⁵ I. The technology appeared as an alternative to radical prostatectomy, but was then forgotten until the end of the 1980s. With constant implantation, the sources remain in the prostate and provide radiation for several weeks or months. ¹²⁵ I has a half-life of 60 days and the usually recommended minimum peripheral dose is 160 g per volume, which includes a prostate capsule plus 2 or 3 mm of supply. This means that 80 g is delivered in the first 60 days and the rest in a decreasing dose over the next 4-6 months (D.Ash, DM Bottomley and BM Carey Yorkshire Regional Center for Cancer Treatment, Cookridge Hospital, Leeds).

Calcium compounds in pharmacology and medicine are used for the manufacture of vitamins, tablets, injections, antibiotics, as well as for the manufacture of ampoules, medical glassware. Calcium in the body of an adult is 1.3-1.5 kg. As you know, it is one of the biogenic elements necessary for the normal course of life processes, is present in all tissues and fluids, and forms the basis of bone tissue, cartilage and teeth. Calcium is absorbed and delivered to bone tissue using magnesium. Calcium in blood plasma affects its coagulability, controls the purification of blood flow, regulates blood flow in the vessels. He gives the command to the muscles to relax or contract, he also activates the activity of the most important enzymes in the pancreas. In the cardiovascular system, it controls the heartbeat, in the nervous system it transmits signals from the brain to each specific point in the body, in the immune system it stabilizes defense mechanisms, increases the body's resistance to diseases and the effects of adverse external factors. Without calcium, all fats, lipids and cholesterol would settle on the walls of blood vessels. It promotes the excretion of salts of heavy metals and radionuclides from the body, performs antioxidant functions.

A person needs to consume 800-1200 mg of calcium daily (for normal functioning of the body). This calcium is found in dairy products, cheese, cabbage, garlic, fish products, cereals, celery, lettuce, parsley, eggs (especially in the shell), gooseberries, currants, strawberries, cherries, legumes, etc.

A number of studies have found a correlation between high calcium intake and a reduced risk of developing colon cancer and breast cancer (U. Peters, N. Chatterjee, KAMcGlynn, R. E. Schoen, T. R. Church et. Al. Calcium intake and colorectal adenoma in a US colorectal cancer early detection program. - American Journal of Clinical Nutrition, Vol.80, No.5, 1358-1365, November 2004; Jennifer Lin, PhD; JoAnn E. Manson, MD, DrPH; I- Min Lee, MBBS, ScD; Nancy R. Cook, ScD; Julie E. Buring, ScD; Shumin M. Zhang, MD, ScD. Intakes of Calcium and Vitamin D and Breast Cancer Risk in Women. - Arch Intern Med. 2007: 167: 1050-1059; Lappe JM, Travers-Gustafson D, Davies KM, Recker RR, Heaney RP. Vitamin D and calcium supplementation reduces cancer risk: results of a randomized trial. - Am J Clin Nutr. 2007 Jun; 85 (6 ): 1586-91).

Known agent having antitumor activity, containing an inert solvent and an active principle, while it contains an aqueous salt solution as a solvent, and methylene glycol as an active principle in the following ratio, wt.%:

CaCl ₂ 0.018-0.021 KCl ₂ 0.018-0.021 Methylene glycol 0.1-1.0 Water Rest

(RU No. 2282438, A61K 31/115, A61K 9/08, A61K 33/14, A61P 35/00, publ. 2006.08.27).

The disadvantage of this tool is its lack of effectiveness in terms of duration of action.

The present invention is directed to solving the technical problem of increasing the antitumor activity of an agent for the treatment and prevention of cancer.

The technical result achieved in this case is to increase the effectiveness of the treatment of cancer by accumulating calcium in the body and retaining it for a long time to provide an antitumor effect due to the interaction of the emitted ionizing radiation with the body tissue intended for treatment, as well as to increase immunity.

The present invention considers a means for the treatment and prevention of cancer, which is a tablet form, it includes calcium carbonate, vitamin D ₃ , zinc oxide, Ca ⁴¹ Cl ₂ with an induced activity of 0.1 μCi, vitamin E, in a weight quantity of one tablet, weighing 620.006-720.02 mg:

Calcium carbonate 600-700 mg Vitamin D ₃ 0.005-0.01 mg Zinc oxide 15 mg Ca ⁴¹ Cl ₂ with an induced activity of 0.1 μCI 0.001-0.01 mg Vitamin E 5 mg

Calcium-41 is one of the artificial radioactive isotopes of calcium. Its radioactivity is associated with the so-called electron capture (or K-capture, since the electron is captured from the K-shell). An atom during electron capture transforms into an excited state with an inner shell without an electron. Excitation is removed by going to the lower level of an electron from one of the upper shells. As a result of a series of electron transitions from orbit to orbit, a new state is formed (a stable potassium isotope) and an X-ray quantum is emitted (from 25 to 35 keV). The clinical efficacy of calcium-41 is solely a consequence of the interaction of the emitted ionizing radiation with the body tissue intended for treatment. The distribution of the radiation dose around is isotropic, which facilitates the calculation of the radiation dose distribution.

The half-life of the calcium-41 isotope is 1.4 × 10 ⁵ years (this is a long-lived isotope), which is a significant advantage compared to iodine - 125, which has a half-life of 59.4 days.

Several possible mechanisms of calcium action are described, leading to a lower risk of cancer. The first is due to changes in the concentration of 1,25-dihydroxyvitamin D ₃ (1,25-dihydroxyvitamin D ₃ ), which can inhibit cell proliferation and induce cell differentiation (Chan JM, Giovannucci EL. Dairy products, calcium, and vitamin D and risk of prostate cancer. Epidemiol Rev 2001; 23: 87-92; Giovannucci E, Rimm EB, Wolk A, Ascherio A, Stampfer MJ, Colditz GA, et al. Calcium and fructose intake in relation to risk of prostate cancer. Cancer Res 1998; 58: 442-7). The second possible mechanism is considered to be an increase in plasma concentration of insulin-dependent growth factor I (insulin-like growth factor-1) in response to an increase in calcium concentration (Stem JS, et al. Dietary changes favorably affect bone remodeling in older adults. J AmDietAssoc 1999: 99 : 1228-33; Gunnell D, Oliver SE, Peters TJ, Donovan JL, Persad R, Maynard M, et al. Are dietprostate cancer associations mediated by the TGF axis? A crosssectional analysis of diet, IGF-I and IGFBP-3 in healthy middle-aged men. Br J Cancer 2003; 88: 1682-6).

Calcium-41 isotope is currently widely used in a number of scientific and clinical centers as a marker for skeletal bone damage in breast and prostate cancer (Freeman, SPHT and Beck, B. and Bierman, JM and Caffee, MW and Heaney, RP and Hollo -way, L. and Marcus, R. and Southon, JR and Vogel, JS The study of skeletal calcium metabolism with Ca-41 and Ca-45. - Nuclear Instruments and Methods in Physics Research Section B-Beam Interactions with Materials and Atoms 172: pp. 930-933; Detecting Bone Cancer. - Lawrence Livermore National Laboratory., Cancer S&TR December 2006). The selective accumulation of the isotope in metastatic foci, as well as in the primary tumor, was determined.

This tool is obtained by analytical analysis of the practice of using drugs with the inclusion of the calcium-41 isotope and conducting experiments. It was found that:

1. Calcium carbonate - 600-700 mg - provides the antioxidant effect of the drug, leading to a decrease in free radicals.

2. Vitamin D ₃ (colecalciferol) - 0.005-0.01 mg - provides increased absorption of calcium in the intestine, increases the permeability of cell and mitochondrial membranes of the intestinal epithelium, facilitating transmembrane transport of calcium cations.

3. Zinc oxide - 15 mg - provides the antioxidant effect of the drug.

4. Ca ⁴¹ Cl ₂ with an induced activity of 0.1 μCi, - 0.001-0.01 mg (calcium-41 isotope) - provides an antitumor effect due to the interaction of the emitted ionizing radiation with the body tissue intended for treatment.

5. Vitamin E - 5 mg.

The combined effect of the drug on the body is manifested in the antitumor effect due to the Ca ⁴¹ isotope and antioxidant effect (Ca, Zn).

The following drug administration scheme is proposed: the first month every other day (15 tablets in total), followed by radiometry and confirmation of the accumulation of the drug in the tumor, in the future - continued administration of the drug according to the same scheme for another 2 months.

Example 1

Patient N., 56 years old. Surgical treatment was performed for pigmented melanoma of the skin of the back pT ₂ N ₀ M ₀ in 2004. In 2005, the drug was treated for three months. At the annual follow-up examinations, data on the progression of the disease were not revealed.

Example 2

Patient A., 64 years old. In 2005, for right breast cancer pT ₂ N ₁ M ₀ , a right-sided mastectomy was performed (ER and RP are negative). In 2006 and 2007 2 courses of treatment with the drug for 3 months each. It is under observation, data for the progression of the disease have not been identified.

Example 3

Patient I., 68 years old, diagnosed with prostate cancer T ₂ N ₀ M ₀ in 2004, no surgical treatment was performed, the patient refused the proposed radiation therapy. It was proposed that the drug be treated in the form of a tablet containing calcium (in the form of calcium carbonate) 600 mg, vitamin D ₃ 0.005 mg, zinc oxide 15 mg, Ca ⁴¹ Cl ₂ with an induced activity of 0.1 μCi 0.001 mg and vitamin E 5 mg. A scheme for the use of the drug for 3 months for 1 tablet was proposed. The drug accumulated in the tumor and, with long-term retention, it provided increased immunity and created an antitumor effect due to the interaction of the emitted ionizing radiation with a tumor of the prostate gland. We conduct a control ultrasound examination of the prostate gland, determine the dynamics of the size of the tumor, and then continue treatment with the above drug for 2 months. The examination was carried out after 6 months 1 year without signs of progression (tumor size reduced).

Example 4

Patient K., 56 years old, in 2003 was diagnosed with thyroid cancer with localization in the right lobe of T ₂ N ₀ M ₀ . We administer a drug in the form of a tablet containing calcium (in the form of calcium carbonate) 700 mg, vitamin D ₃ 0.005 mg, zinc oxide 15 mg, Ca ⁴¹ Cl ₂ with an induced activity of 0.1 μCi 0.01 mg and vitamin E - 5 mg A scheme was proposed for the use of the drug for 3 months, 1 tablet, for 3 months, and then the treatment was carried out according to the scheme of example No. 3.

The present invention is industrially applicable.

Claims (1)

An agent for the treatment and prevention of cancer, characterized in that it is a tablet form comprising calcium carbonate, vitamin D ₃ , zinc oxide, Ca ⁴¹ Cl ₂ with an induced activity of 0.1 μCI and vitamin E in weight per tablet, weight 620.006-720.02 mg, mg:
calcium carbonate 600.0-700.0 vitamin D ₃ 0.005-0.01 zinc oxide fifteen Ca ⁴¹ Cl ₂ with an induced activity of 0.1 μCI 0.001-0.01 vitamin e 5,0