RU2454231C2 - Method of treating spontaneous tumours in domestic animals and therapeutic device - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: group of inventions refers to medicine and veterinary science. A method involves sequential intravenous introduction of a binary catalytic system (BCS): an oxidation catalyst - a metal complex and an oxidation substratum - ascorbic acid (AA). The oxidation catalyst is introduced in a maximally tolerable or lower doses, and AA - in doses related to molar ratio of the metal complex: AK=1:10. The method also involves local hyperthermia of the tumour with using near infra-red laser emission. The tumour temperature is maintained within the range of 43-45°C by adjusting laser power density. The emission is terminated after achieving the minimum power density maintaining the tumour temperature within the preset temperature range. The declared device comprises a near infra-red laser with emissive power switch-on, switch-off and adjustment systems, and optical system of laser beam formation, a tumour temperature control system with its output connected both with an input of a laser negative feedback system, a laser power density control system. The device comprises an additionally adjustable power density discriminator. An input of the laser power density discriminator is connected with an output of the laser power density control system. The output of the discriminator is connected to an input of the laser switch-off system.

EFFECT: invention provides higher clinical effectiveness.

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Description

The present invention relates to medicine and veterinary medicine and can be used in the treatment of malignant tumors.

A known method of suppressing tumor growth by using a binary catalytic system (BCS), which consists in sequential intravenous administration to a laboratory animal with an inoculated tumor of a metal complex - a catalyst for oxidizing a substrate, and ascorbic acid (AK) - an oxidizing substrate. The oxidation catalyst, accumulating in the tumor tissue, leads to the catalytic oxidation of the substrate, resulting in the formation of highly reactive reactive oxygen species, including hydroperoxides and free radicals with high cytotoxic potential. As an oxidation catalyst, salts of octa-4,5-carboxylic acid cobalt phthalocyanine Terafthal (TF) [RF patent 2106146, 10.03.98 g] or their esters (Efiter) [RF patent 2172319, 08.20.01 g] are used. Studies have shown that this method allows to inhibit tumor growth and increase the life expectancy of mice.

The disadvantage of this method is the low antitumor activity of these BCS during monotherapy, which consists in the absence of tumor regression.

To increase the antitumor activity of BCS in the treatment of laboratory animals (mice) with transplantable tumors, a method of suppressing tumor growth is proposed, combining the use of BCS "Metallocomplex + AK" and laser hyperthermia, in which the metal complex is introduced to the animal intravenously - a catalyst for substrate oxidation in the most tolerated or lower doses . Then AK is administered intravenously in doses corresponding to the molar ratio of the metal complex: AK equal to 1: 5-1: 30, after which the tumor is heated by laser radiation with a wavelength of 800 nm at a temperature of at least 41 ° C for at least 5 minutes [RF patent 2376999, December 27, 2009 - prototype].

However, the authors experimentally found that this method of suppressing tumor growth, with the specified laser radiation characteristics selected for the treatment of transplantable tumors of mice, does not give a noticeable antitumor effect in the treatment of spontaneous tumors of natural origin. Spontaneous tumors are distinguished by a variety of histological types (skin cancer, basal cell carcinoma, mastocytoma, melanoma, histiocytoma, fibrosarcoma, etc.), localization in parts of the body with different microenvironment (blood supply, angio-and vasculogenesis, lymphatic drainage, etc.), have a sufficiently extended invasion zone in the surrounding tissue and, accordingly, recur, are capable of metastasis. These characteristics also determine sensitivity to treatment. In connection with the foregoing, the selection of the optimal parameters of laser irradiation affecting the tumor should be performed under conditions adequate or as close as possible to the real oncological situation, i.e. on spontaneous malignant tumors. The selected parameters of laser irradiation (its intensity and duration) should provide the maximum effect on the tumor and achieve complete remission of the tumor process without irreversible damage to the surrounding normal tissues.

A device for treating tumors of domestic animals using laser hyperthermia, comprising a laser with a radiation wavelength in the near infrared range from 800 nm, containing systems for switching on, off and controlling the power of laser radiation, an optical system for generating a laser beam, providing a given distribution of radiation power density over surface of the irradiated tumor; a system for monitoring the temperature of tissues of the irradiated tumor, the output of which is connected to the input of the negative feedback system of the laser, and a system for monitoring the density of laser radiation power [RF patent 2196623, 01.20.2003, prototype].

A disadvantage of the known device is that the duration of exposure is set by the operator manually or automatically by a timer with a predetermined exposure time without controlling the adequacy of the effect to achieve the effect. Due to these features, the known device does not provide the opportunity to optimize the exposure time and achieve maximum therapeutic efficacy of treatment with minimal damage to surrounding tissues.

The claimed invention solves the problem of increasing the effectiveness of antitumor therapy.

This problem is solved in that the method of treating tumors of domestic animals is characterized by sequential intravenous administration of a binary catalytic system (BCS): an oxidation catalyst (metal complex) and an oxidation substrate (ascorbic acid) (AA), the oxidation catalyst is administered in the most tolerated or lower doses, and AK - in doses corresponding to the molar ratio of the metal complex: AK = 1:10, and local hyperthermia of the tumor by laser radiation in the near infrared wavelength range, the temperature of the tumor is they are kept in the range of 43-45 ° C by adjusting the power density of the laser radiation and stop irradiation after reaching the minimum power density, ensuring the maintenance of the tumor temperature in a given temperature range.

The indicated problem is also solved by the fact that irradiation is started at a power density of laser radiation of at least 3 W / cm ² .

This problem is also solved by the fact that irradiation is stopped after reaching a power density of 0.8 W / cm ² .

This problem is solved in that the device for treating tumors of domestic animals contains a laser with radiation in the near infrared wavelength range with systems for turning on, turning off and controlling the power of laser radiation, an optical system for generating a laser beam, a system for monitoring the temperature of the tumor tissue, the output of which is connected to the input laser negative feedback systems, and a laser radiation power density control system, the device further comprises an adjustable density discriminator and laser power discriminator input connected to an output power density of the laser control system, and an output connected to the input laser system shutdown.

This problem is also solved by the fact that the device for treating tumors of pets contains an additionally adjustable timer for turning off the laser radiation, through which the output of the discriminator of the power density of the laser radiation is connected to the input of the system for switching off the laser radiation.

The invention is illustrated in Figure 1.

The following notation is used:

1 - laser;

2 - system for switching on laser radiation;

3 - laser shutdown system;

4 - a system for controlling the power of laser radiation;

5 - optical system for the formation of a laser beam;

6 - irradiated tumor;

7 - a system for monitoring the temperature of tumor tissues;

8 - laser negative feedback system;

9 - a system for monitoring the power density of laser radiation;

10 - adjustable discriminator of the power density of the laser radiation;

11 - adjustable timer for turning off the laser radiation.

A device for treating tumors of domestic animals contains a laser 1 with a turn-on system 2, a turn-off system 3, a laser radiation power control system 4, an optical system for generating 5 laser beams, a temperature control system for 7 tumor tissues, the output of which is connected to the input of a negative laser feedback system 8 , a system for monitoring the power density of 9 laser radiation, an adjustable discriminator 10 of the laser radiation power density, an adjustable timer 11 for turning off the laser, an input of the discriminator 10 density and the laser radiation power is connected to the output of the control system 9 of the laser radiation power density, the output is connected to the input of an adjustable laser radiation shutdown timer 11, the output of the timer 11 is connected to the input of the laser radiation shutdown system 2.

The proposed device operates as follows. After intravenous administration of the metal complex and AK to the animal, the laser 1 and the laser radiation switching system 2 are turned on, then using the optical system 5 a laser beam is formed on the tumor 6. The power level is pre-set using the laser radiation power control system 4 so that, taking into account the size of the tumor 6, the laser power density reached or exceeded 3 W / cm ² . The power density of the laser radiation is controlled using a control system 9 power density, the temperature of the tumor tissue in the irradiation zone - using the temperature control system 7 tissue of the tumor. Since the temperature control system 7 of the tumor tissue is connected to the laser negative feedback system 8, the power density of the laser radiation reaches a level at which a predetermined temperature is provided in the range 43-45 ° C. Exposure leads to impaired blood flow in the tumor, heat removal decreases, which causes an increase in temperature in the heating zone above the specified limits. In this case, from the output of the temperature control system 7 of the tumor tissue to the input of the laser negative feedback system 8, a signal is received to reduce the density of laser radiation power necessary to ensure a given temperature. With continued exposure, there is a deterioration in blood flow in the tumor and, accordingly, a decrease in heat removal, which leads to a further decrease in the density of laser radiation power necessary to ensure a given temperature. As a result of exposure, the blood flow in the tumor ceases, the thermal conductivity is stabilized, and the set temperature is provided at the level of laser radiation power density, which usually lies near 0.8 W / cm ² . Further irradiation does not lead to additional damaging effects on the tumor, therefore, after the time specified by the adjustable timer 11 for turning off the laser radiation and usually not exceeding 5 minutes, the output of the timer receives a signal at the input of the system 3 for turning off the laser radiation and the radiation stops.

The tests were performed on 13 domestic animals (dogs and cats) with spontaneous superficial tumors. As a result of preliminary examinations in animals, malignant tumors of the epithelial (carcinoma of the mucous membrane of the right nasal passage, non-keratinizing squamous cell carcinoma of the skin and the disjoint edge of the upper jaw), mesenchymal (fibrosarcoma, lymphoma, mastocytoma), histiocytic and malignant cell-carcinoma and malignant (melanoma) origin.

The animals were injected intravenously with a binary catalytic system (BCS): Terafthal (TF) + AK - in standard doses, then laser hyperthermia (LGT) of the tumor was performed by radiation from a continuous LFD-01/800-Biospek semiconductor laser with a wavelength of 797 nm for 15 -30 minutes. The temperature of the irradiated tumor was 43-45 ° C. The temperature of the irradiated tumor was controlled by a non-contact infrared thermometer (AZ Instrument, USA) on the surface of the node.

Scheme of therapy: 1 hour 45 minutes before LHT TF and AK were administered intravenously in doses of 90 and 220 mg / m ^2, respectively, with an interval between their administrations of 15 minutes, then, after 45 minutes, irradiation was performed using the proposed device.

Tumor sizes were measured before and after treatment. Additionally, a complete clinical examination was performed to detect metastasis and possible side effects. Observation of animals was carried out for 4 months after exposure. The following recommended indicators were used to evaluate the antitumor effect:

- complete remission, tumor regression;

- partial remission, a decrease in the size of the tumor by at least 50%;

- stabilization of tumor growth, reduction of tumor size less than 50% or the absence of negative dynamics;

- objective effect (complete remission + partial remission);

- control of tumor growth (complete remission + partial remission + stabilization).

Examples of the proposed method for the treatment of tumors using the inventive laser device.

Example 1

Dog, male, 8 years old, nickname "Altai". Diagnosis: carcinoma of the mucous membrane of the right nasal passage. The formation has a rounded shape with dimensions of 8.0 × 5.0 × 5.0 mm ³ with a smooth uniform surface.

TF was administered intravenously dropwise at a dose of 90 mg / m ² and AK at a dose of 220 mg / m ² , once, with an interval of 15 minutes between their administrations. Then, LGT tumors were performed using the proposed device at a temperature of 43-45 ° C, an initial power density of 3 W / cm, power density at the end of 0.8 W / cm ² . The exposure time was 15 minutes.

Results of treatment: on the 12th day after the end of treatment, an examination was conducted. A complete regression of the tumor has been achieved. 96 days after the end of treatment, no signs of tumor were detected.

Example 2

Dog, male, 10 years old, nicknamed "Gosh." Diagnosis: squamous non-keratinizing cancer of the disny edge of the upper jaw. The formation has an ellipsoidal shape with dimensions 55.0 × 21.0 × 8.0 mm ³ with a tuberous surface.

TF was administered intravenously dropwise at a dose of 90 mg / m ² and AK at a dose of 220 mg / m ² , once, with an interval of 15 minutes between their administrations. Then, LGT tumors were performed using the proposed device at a temperature of 43-45 ° C, an initial power density of 3 W / cm ² , power density at the end of 0.8 W / cm ² . The exposure time was 20 minutes.

Results of treatment: on the 12th day after the end of treatment, an examination was conducted. A complete regression of the tumor has been achieved. 96 days after the end of treatment, no signs of tumor were detected.

The test results for 13 domestic animals are as follows: complete remission was achieved in 31% of animals, partial remission in 15% of animals, stabilization in 23% of animals. The objective effect was 46%, tumor growth control 69%. In 31% of the animals, tumor progression was observed.

The achieved treatment efficiency when applying the proposed method using the proposed laser device exceeds the efficiency of known methods. The proposed method and a laser device can be widely used in onco-veterinary medicine.

Claims (5)

1. A method of treating spontaneous tumors of domestic animals, characterized by sequential intravenous administration of a binary catalytic system (BCS): an oxidation catalyst — a metal complex and an oxidation substrate — ascorbic acid (AA), an oxidation catalyst is administered in the most tolerated or lower doses, and AK in doses corresponding to the molar ratio of the metal complex: AK = 1:10, and local tumor hyperthermia by laser irradiation in the near infrared wavelength range, the tumor temperature is maintained in a range of 43-45 ° C by adjusting the power density of the laser radiation, and irradiation is stopped after reaching the minimum power density, which maintains the temperature of the tumor in a given temperature range. 2. The treatment method according to claim 1, characterized in that the irradiation is started at a power density of at least 3.0 W / cm ² . 3. The treatment method according to claim 1, characterized in that the irradiation is stopped no more than 5 minutes after reaching a power density of 0.8 W / cm. 4. A laser device for the treatment of spontaneous tumors of domestic animals, characterized in that it contains a laser with radiation in the near infrared wavelength range with systems for switching on, turning off and controlling the radiation power, an optical system for generating a laser beam, a system for monitoring the temperature of the tumor tissue, the output of which connected to the input of the laser negative feedback system, a system for monitoring the power density of laser radiation, the device further comprises an adjustable discriminator radiation power density, the input of the discriminator of the laser radiation power density is connected to the output of the laser radiation power density control system, the discriminator output is connected to the input of the laser radiation shutdown system. 5. The laser device according to claim 4, characterized in that it further comprises an adjustable laser radiation cut-off timer, through which the output of the laser radiation power density discriminator is connected to the input of the laser radiation cut-off system.