RU2474884C9 - Method of treating malignant new growths in experiment - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: magnetic fluid (MF) AM-01 55 mg/kg is introduced subcutaneously in white mature outbread rats suffering grafted sarcoma 45 having reached the size of 0.7-1.0 cm³ into a region surrounding the tumour, 2 cm away from the tumour borders, with the entire volume distributed over 3 injections into various loci of the introduction area. There are performed 4-5 injections every 3 days. The therapeutic course makes 2-2.5 weeks. MF AM-01 represents a colloidal suspension of magnetite nanoparticles (Fe₃O₄) in size 10±2 nm in water dissolved to the concentration of 20 mg/ml. Additionally, starting from the first day of the MF introduction, the tumour and the adjoining region are exposed to electromagnetic emission of frequency 7.8 Hz and induction 20 mT at exposition of 15 minutes every 1-2 days. On the days of the MF introduction, an interval between the introduction and the following electromagnetic emission, makes 10-30 minutes.

EFFECT: achieving the anti-cancer effect in the form of suppression of tumour growth and regression in an anti-stress effect on a body without the use of cytostatics and ionising emission ensured by limiting the magnetic effect of the tumour on neighbouring tissues with the use of a magnetic screen generated by a combination effect with the specific parameters of low-intensity very-low-frequency electromagnetic emission eliminating a possibility of tumour heating ensured by motion of the paramagnetic nanoparticles, as well as other energy deposition on the tumour.

1 tbl

Description

The invention relates to medicine, more specifically to oncology, and can be used in an experiment on transplantable tumors to achieve a pronounced antitumor effect in the absence of drug and radiation therapy.

The invention is based on the ability of magnetic fields to exert pronounced biological effects and includes the development of a method of local antitumor exposure using magnetic fluid and a low-intensity infra-low-frequency magnetic field.

A known method of treating malignant tumors in an experiment associated with the local antitumor effect of a constant magnetic field (Ukolova MA, Khimich GG Effect of permanent magnets on sarcoma growth in white rats // Materials of the XIII Conference of Physiologists of the South of the RSFSR. 1960. S. 143). In the known method, for the time of exposure, the ring magnet was placed so that the tumor was surrounded by a magnetic ring, and some animals received an antitumor effect in the form of inhibition and regression of the tumor. However, the mechanism of this action has not been studied.

There was a hypothesis (Garkavi L.Kh.) that tumor growth is associated with the action of the magnetic field of the tumor itself on the surrounding tissue. In this regard, an assumption was made about the possibility of obtaining a therapeutic effect by limiting the magnetic effect of the tumor on neighboring tissues using a magnetic "screen". As a more effective alternative to external magnetic field sources, a magnetic fluid is considered - a colloidal suspension of nanodispersed paramagnet particles in various liquids.

A known method of treating malignant tumors (Manfred Johannsen, Burghard Thiesen, Andreas Jordan et al. Magnetic fluid hyper-thermia (MFH) reduces prostate cancer growth in the orthotopic Dunning R3327 rat model // The Prostate. 2005. V.64. Is.3 P.283-292).

In the known method, the method of magneto-liquid hyperthermia is used - the antitumor effect in the form of inhibition of tumor growth by 41-52% is achieved by introducing magnetic fluid directly into the tumor (transplanted rat prostate adenocarcinoma R3327-H Dunning) followed by electromagnetic exposure to the tumor from an external source with the following parameters electromagnetic radiation (EMR): frequency - 0.1 MHz, tension, varying in the range of 0-18 kA / m (0-23 mT). With this effect, the tumor cells are damaged due to overheating, caused by the transfer of energy of vibration of iron-containing paramagnetic nanoparticles under the influence of electromagnetic radiation into thermal energy.

Thus, in the known method, damage to the tumor tissue occurs due to the intense energy exposure to malignant cells, associated with an increase in the temperature inside the cell to 41.2-70 ° C. For this, electromagnetic radiation of the radio wave range generated by an apparatus of complex construction (AC magnetic field applicator) is used, having a pronounced electrical component, the characteristics of which are not indicated by the authors and the biological effect on the body is not considered.

In connection with the hypothesis already mentioned above that tumor growth is associated with the action of the magnetic field of the tumor itself on surrounding tissues, an assumption has arisen about the possibility of limiting this influence and, thereby, creating an obstacle to infiltrative tumor growth. Therefore, an attempt was made in the experiment to "surround" the tumor with magnetic fluid. In this case, an external low-intensity infra-low-frequency electromagnetic radiation would be designed to retain paramagnetic nanoparticles in the tumor zone.

The aim of the invention is to obtain an antitumor effect in the form of inhibition of growth and regression of experimental tumors without the use of cytostatics and ionizing radiation.

This goal is achieved by the fact that white sexually mature purebred rats with transplantable sarcoma 45 upon reaching the tumor size of 0.7-1.0 cm ³ during the course of treatment for 2-2.5 weeks 4-5 times subcutaneously in the area surrounding the tumor, 2 cm away from the boundaries of the tumor, magnetic fluid is injected at intervals of 3 days between administrations and, starting from the first day of administration of the magnetic fluid, the tumor and the adjacent area are exposed to electromagnetic radiation with a frequency of 7.8 Hz and induction of 20 mT at an exposure time of 15 minutes intervals between each d thinking for days of exposure in 1-2 days.

"The method of treating malignant neoplasms in the experiment" is new, since it is unknown in the treatment of malignant tumors.

The novelty of the invention lies in the use of magnetic fluid and an external low-intensity infra-low-frequency EMR to change the parameters of the EMP on the periphery of the tumor and in the tissues surrounding it, as well as in the characteristics of the external EMP, which are very different from the parameters of the EMP used in magneto-liquid hyperthermia and excluding not only the possibility of tissue heating tumors due to the movement of paramagnetic nanoparticles, but also a different energy effect on the tumor.

The invention "A method for the treatment of malignant neoplasms in an experiment" is industrially applicable, as it can be used in healthcare, in cancer research institutes, in experimental and clinical studies of the possibilities of using magnetic fluids in complex antitumor treatment.

"The method of treatment of malignant neoplasms in the experiment" is as follows.

Tumor-bearing rats, when the transplantable sarcoma reaches 45 sizes, 0.7-1 cm ³ , a magnetic fluid is introduced into the area 2 cm away from the borders of the tumor. The magnetic fluid AM-01 is used, which is a colloidal suspension of magnetite particles (Fe ₃ O ₄ ) 10 ± 2 nm in water with stearic acid as a surfactant. The density of this magnetic fluid (hereinafter referred to as MF) is 1.16 g / cm ³ . MF is administered at a dose of 55 mg / kg in the form of a solution with a concentration of 20 mg / ml. The total single volume of the breast (0.4-0.6 ml, depending on the weight of the animal) is distributed over 3 injections at different loci of the injection zone. Such breast injections are performed 4-5 times with an interval of 3 days. The tumor and the injection zone are simultaneously exposed to low-intensity infra-low-frequency electromagnetic radiation (IFR EMP) with parameters of 20 mT, 7.8 Hz (Gradient-1 magnetotherapy apparatus). At the same time, the following schedule of impacts of IFN EMR is adhered to during each week: 2 days of impacts - day break - 2 days of impacts - 2 days of break. On the days of the introduction of MF, the effect of IFN EMR is carried out within 10-30 minutes after the introduction of MF.

Using a combined effect on the tumor of the mammary gland and IFN EMR made it possible to obtain a pronounced antitumor effect in all animals, which consisted not only of inhibition of sarcoma growth 45, but also of tumor regression. At the same time, the antistress effect of the used effect on the organism of rat tumor carriers was noted - the calm non-reactive reaction prevailing during the experiment by the general nonspecific adaptive reaction of the organism of the experimental animals. As is known, such an adaptive reaction helps to activate the neuroendocrine and immune systems and increase the nonspecific resistance of the body (Garkavi L.Kh., 1966; Garkavi L.Kh., Kvakina EB. Ukolova MA, 1975, 1990).

Table The size of the sarcoma is 45 and the nature of the prevailing adaptive reaction (AR) when exposed to magnetic fluid AM-01 (MF) and a low-intensity infra-low-frequency magnetic field (INC EMP) Impact / Indicators Control n = 7 MF n = 9 MF + INCH EMP n = 9 Tumor size (cm ³ ) 7.0 ± 2.25 5.32 ± 1.45 0.7 ± 0.44 Character AR Intense antistress reactions. Stress The reaction of calm activation, the reaction of training. Intense antistress reactions. Stress In most cases, a calm activation reaction Note: • - difference from the values in the control, p <0.05

The table shows the results of experiments using MF and low-intensity infra-low-frequency electromagnetic radiation as antitumor factors. The experiments were performed on sexually mature males of white outbred rats with transplantable sarcoma 45. The volume of the comparison groups was 7–9 animals. The effect was started when the tumors reached a size of at least 0.7-1.0 cm ³ . During each experiment, the volume of tumors was systematically measured, the nature of the adaptive reactions was determined by the leukocyte blood count (Garkavi L.Kh., Kvakina EB, Ukolova MA, 1990) and the number of leukocytes in peripheral blood.

In the experiment under consideration, the influence of magnetic fluid was expressed in the inhibition of sarcoma 45 growth by 40% in more than half of cases (in 5 out of 9, p <0.05, Wilcoxon-Mann-Whitney test). In the remaining rats of this group, tumor growth did not differ from that observed in the control group.

In the case of a combination of MF and EMR, an antitumor effect was observed in all animals: tumor regression was observed in 2/3 of the cases, and pronounced inhibition of its growth was observed in 1/3 of the cases (maximum tumor volume less than 2 cm ³ ).

The animals of the studied groups differed in terms of the leukocyte blood count, which, as is known, reflect the nature of the general nonspecific adaptive reaction of the body (Selye H., 1936; Garkavi L.Kh., Kvakina EB, Ukolova MA, 1979, 1990 ) and correlate with the state of regulatory systems and the level of nonspecific resistance of the body. In rats of the control group, intense antistress reactions predominated (table). Toward the end of the experiment, some animals showed the development of a stress reaction. In the group using MF without exposure to IFN EMR in rats with inhibition of tumor growth, antistress reactions of quiet activation and training prevailed (table). In animals with the same growth rate of sarcoma 45 as in the control group, adaptation reactions were noted that were similar in nature and tension to those observed in the control group (table).

Local action on the tumor of the mammary gland and IFN EMR contributed to the improvement of the state of the organism of experimental animals as a whole. The parameters of the leukocyte formula (the relative content of lymphocytes in the peripheral blood is 62-70%) testified to the development of a general non-specific adaptive reaction of calm activation in rats of the group in question without signs of tension. Long-term studies have shown a strong correlation between the leukocyte formula and such parameters with activation of lymphoproliferative processes in the organs of the immune system and increased activity of the endocrine glands without adrenal hyperplasia and increased levels of glucocorticoid hormones in the blood (Garkavi L.Kh., Kvakina EB, Ukolova M.A., 1979, 1990).

The technical and economic effectiveness of the “Method for the treatment of malignant neoplasms in the experiment” consists in inhibiting the growth and regression of experimental animal tumors when the tumor and its adjacent zone of magnetic fluid and low-intensity infra-low-frequency electromagnetic radiation are combined.

Claims (1)

A method of treating malignant neoplasms in an experiment, comprising local combined magnetic effects on a tumor, characterized in that white sexually mature outbred rats with transplantable sarcoma 45 upon reaching a tumor of sizes 0.7-1.0 cm ³ within 2-2.5 weeks 4- 5 times subcutaneously in the area surrounding the tumor, 2 cm away from the tumor borders, magnetic fluid AM-01 is introduced, which is a colloidal suspension of magnetite nanoparticles (Fe ₃ O ₄ ) with dimensions of 10 ± 2 nm in water, diluted with physiological saline to a concentration of 20 mg / l, at a dose of 55 mg / kg with a distribution of the total volume of 3 injections at different loci of the injection zone at intervals of 3 days between injections and, starting from the first day of the introduction of magnetic fluid, affect the tumor and the adjacent area with electromagnetic radiation of 7.8 Hz and induction of 20 mT with an exposure of 15 minutes with intervals between every two days of exposure in 1-2 days, while on the days of introduction of magnetic fluid, the interval between administration and subsequent electromagnetic exposure is 10-30 minutes.