RU2157134C1 - Method for carrying out vascular tumor destruction in children - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves exposing pathologically transformed biological tissues to extremely high frequency electromagnetic field using non-invasive radiator. Destruction process is carried out stage-by-stage. Biological tissue is warmed at 42-48 C during 3-5 min holding temperature gradient rate of change at 2-3 deg/min at the first stage. Biological tissue destruction is carried out at 48-70 C during 5-10 min holding temperature gradient rate of change at 3-4 deg/min at the concluding stage. EFFECT: enhanced effectiveness in destroying tumors and closing defects after removing the tumors. 1 dwg

Description

 The invention relates to medicine, in particular to methods for the destruction of vascular tumors in children.

 Surgical treatment of neoplasms, treatment with medications, radiation exposure using X-rays, exposure to tumors using a laser beam, which in one case plays the role of a surgical knife, in the other case, the role of an immunostimulator, and in the third, the role of vascular tumors, are widely used to treat vascular tumors. thermal heater, causing destruction of tissue tumors.

 However, despite such many methods of treating neoplasms, relapses of neoplasm growth often occur, surgical intervention is not always shown, significant sizes of the primary tumor, contraindications for the state of the cardiovascular system, etc. Treatment with radiation therapy and chemotherapy, in addition, does not exclude the occurrence of relapses, characterized by the presence of numerous contraindications for children, limiting their use.

It is known that at a temperature of 40 - 42 ^o C, the viability of tumor cells is sharply suppressed. When exposed to a temperature of 42 ^o C for an hour, irreversible changes in the tissue occur. Healthy tissue remains viable at a temperature of 46 ^o C for no more than 1 hour.

Known methods for carrying out hyperthermic electromagnetic therapy of malignant neoplasms by local heating of a tumor with electromagnetic radiation of high frequency (US Pat. RF 2143292), UHF and microwave ranges to a temperature of 42 - 44 ^o C and maintaining this temperature for a time of 30 - 120 min with an accuracy of ± 0 , 5 ^o C (Konoplyannikov AT Electromagnetic hyperthermia (microwave and UHF ranges) in the treatment of tumor and non-tumor diseases. Physical Medicine, 1991, S. 1-11).

 So, there is a method of treating vascular tumors in children by electrocoagulation (Fedoreev G.A. Hemangiomas of the skin in children. L. 1971, p. 99 - 103).

 The disadvantage of this method is the small volume of tumor destruction under the active electrode, which is a point source, only the surface layers of the tumor are destroyed, which leads to the need for repeated and prolonged exposure to the tumor. In addition, the patient is included in the electrical circuit and severe burns may occur in the area of the passive electrode.

A known method of regional hyperthermia by introducing a conductive fluid into the patient’s body, for example, physiological saline (US Pat. RF N 2143292) or suspension of finely dispersed magnet particles (Matyushin IF, Tsybukov ON, et al. Ferromagnetic RF heterology of subcellular structures of a malignant tumor in the experiment, 2nd All-Union Symposium with international participation Minsk, 1990, Abstracts, pp. 47 - 48), or suspension of ferromagnetic particles (US Pat. RF N 2082458) and heating of its RF electromagnetic energy to a temperature of not more than 43 ^o C with a constant measured the temperature of it. Heating is carried out for 60 to 120 minutes using a needle electrode (pin antennas) inserted into the liquid.

A common disadvantage of the known methods for invasive insertion of foreign bodies, pin antennas, temperature sensors is:
- additional injury to the heated area or organ,
- lack of reliable information about the temperature distribution in the heating region, because sensors record temperature only in close proximity to themselves,
- uneven heating by volume, because there are no physical mechanisms providing automatic temperature equalization in the entire heating region.

Recent advances in radio electronics have made it possible to create a number of devices that provide their local hyperthermia effect using a high-frequency electromagnetic field generated by unknown emitters (US Pat. No. 5,067,952). In this case, thermoradiotherapy includes hyperthermia of the malignant neoplasm in the regime of 42 - 43 ^o C for 120 min or 43 - 47 ^o C for 60 min and then irradiation of the malignant neoplasm, carried out immediately after hyperthermia.

 By creating an electromagnetic field with non-invasive emitters, it is very difficult to obtain uniform heating of the malignant neoplasm and the surrounding tissues. In addition, burns of healthy tissues are possible, after which suppuration develops, which impedes the implementation of organ-preserving operations.

The closest prototype to the claimed technical solution is a method for the destruction of vascular tumors in children, in particular extensive cavernous and combined hemangiomas of complex anotomic localization (av. St. USSR N 1731239). The method consists in exposing the entire tumor volume to a microwave radiation by a non-invasive radiator for 10-60 minutes with a maximum increase in tumor temperature to 43-45 ^o C. Microwave hyperthermia is carried out at a power flux density of 1.42 W / cm ² and a frequency of 915 MHz . Wavelength 33 cm.

The disadvantage of the prototype method is:
- the need for repeated exposure to vascular tumors and
- the need for simultaneous closure of extensive defects after removal of the tumor, which is an extremely difficult problem, especially in childhood,
- the need for blood transfusion.

 The purpose of this invention is the elimination of the above disadvantages and volumetric simultaneous complete destruction of vascular tumors in children.

This goal is achieved by the fact that the method of destruction of vascular tumors in children involves exposure to a pathologically altered portion of the biological tissue of the microwave electromagnetic field with a non-invasive emitter. Moreover, the destruction process is carried out in stages; at the first stage, the biological tissue is heated at a temperature of 42 - 48 ^o C for 3 - 5 min at a rate of temperature change of 2 deg / min, and at the final stage, the biological tissue is degraded at a temperature of 48 - 70 ^o C for 5 - 10 min and at a rate of temperature change of 3 - 4 deg / min.

Using the invention will allow:
- completely abandon traditional surgical interventions, accompanied by cutting tissues, massive bleeding, which can lead to the death of the child,
- not to carry out simultaneous closure of extensive defects after removal of the tumor because the surface of the child’s skin is small and there is no possibility to use local tissues,
- do not carry out blood transfusion, which is also the prevention of infection with HIV and hepatitis B and C,
- carry out manipulation under mask anesthesia or ataralgesia, which greatly simplifies the anesthetic management,
- reduce the consumption of medicines, dressings,
- significantly reduce the time spent by the child in the hospital.

 After microwave destruction of biological tissue and the nature of regeneration after exposure to destructive phased modes of the microwave electromagnetic field, an experimental study was performed on the liver of 60 rats. The choice of an experimental model is due to the fact that the liver is similar in its structural, hemodynamic and thermophysical characteristics to a vascular tumor. After exposure to the liver of animals, they were taken out of the experiment in terms of 1 hour, 5 hours, 24 hours, 7 days, 14 days, 30 days. The liver material was studied by light microscopy and scanning electron microscopy. The data obtained confirm the correctness of the selected method of phased destruction in the claimed ranges of the microwave electromagnetic field.

 Based on the studies, coagulation tissue necrosis was established in the region subjected to microwave destruction, encapsulation of the necrosis focus by the 7th day after exposure and organization of the necrosis focus by the 15th day of the experiment.

 All this gave rise to the application of the proposed method in the clinic.

 To implement the proposed method, the Yacht-3 installation for local EM hyperthermia (TU-6BC.005.125) was used, which was approved for use by Protocol No. 4 of May 16, 1986, by the Committee on New Technology of the USSR Ministry of Health. Functional diagram of the installation shown in the drawing. The operating frequency of the installation is 915 MHz, the maximum output power is 180 watts.

 The applicators are mounted in a special manipulator that allows you to quickly fix the desired emitter in the working position on the patient's body.

 The installation is an electromagnetic energy generator / 1 /, operating in a manual or automatic mode of power adjustment according to the received signal values from the sensors of the temperature meter. Electromagnetic energy from the generator through a non-invasive emitter, which is used as an applicator / 2 /, is supplied to the heated area of the body. In the heating zone, temperature sensors / 3 / are located as necessary. From the temperature meter / 4 /, the processed analog signal enters the automatic control unit / 5 /, which, depending on the temperature in the heating zone, generates a signal to control the output power of the generator unit.

 To cool the surface of biological tissues and improve the temperature distribution in depth in the applicators, water cooling is used / 6 /.

 The applicator size is selected depending on the size of the tumor, namely 80 x 70 mm, 130 x 100 mm, 150 x 130 mm, 160 x 160 mm.

As a temperature sensor, a small-sized small-sized diode 2D901A is used, which is placed on the end of an injection needle with a diameter of 1.2 m. On the other side of the needle there is a small-sized connector for cable connection to the temperature meter unit. Indication is carried out in digital form in absolute units of temperature on the Celsius scale with a unit of the least significant digit of 0.1 ^o C.

 The needle sensor, in order to avoid warming up, should be strictly oriented with respect to the linearly polarized electromagnetic field of the emitter, namely, when the needle is perpendicular to the electromagnetic field vector, the heating of the needle is practically reduced to zero.

During the treatment session, the temperature in the first stage varied from 42 ^o C to 48 ^o C for 3-5 minutes. The rate of temperature change in the first stage ranged from 2 to 3 deg / min.

At the final stage, the destruction was carried out at a temperature of 48 - 70 ^o C for 5 to 10 minutes and the rate of temperature change from 3 to 4 deg / min. The choice of treatment conditions depended on the age of the child, tumor volume, general indications for treatment.

 The inventive method is illustrated by the following clinical examples.

 Example 1. Child K.V. entered at the age of 1 year 3 months. with a diagnosis of extensive hemangioma of the left cheek. The examination clarified the diagnosis: lymphangioma of the left cheek. Tumor size 5x6x7 cm.

After the examination, a local microwave destruction of the lymphangioma was performed. Microwave exposure parameters: applicator size 70x70 mm, power 70 - 110 W. 1st stage: 42 ^o C, exposure 3 minutes, speed 2.5 deg / min. 2nd stage: 50 ^o C, exposure 5 min, speed 3.5 deg / min.

 4 days after the microwave destruction, the child was discharged for outpatient treatment. When viewed 1 year after treatment: the tumor regressed, in the left parotid region there is a soft atrophic scar. There are no complaints.

 Example 2. Child M.A. He was admitted at the age of 4 with a diagnosis of hemolymphangioma of the left cheek and parotid region. Size 3x8x7 cm.

 After the examination, a local microwave destruction of the tumor was performed. Microwave exposure parameters: applicator size 70x70 mm, power 60 - 140 W.

1st stage: 45 ^o C, exposure 4 min, speed 2 deg / min;
2nd stage: 65 ^o C, exposure 7 minutes, speed 3 deg / min.

 5 days after the microwave destruction, the child was discharged for outpatient treatment. When viewed 6 months after treatment: the tumor regressed, in the left parotid region there is an atrophic scar. There are no complaints.

 Example 3. The child Z. N. was admitted at the age of 8 months with a diagnosis of hemangioma of the left parotid region. The tumor size is 3x8x9 cm. After examination, a local microwave destruction of the tumor was performed. Microwave exposure parameters: applicator size 70x70 mm, power 90 - 150 W.

1st stage: 48 ^o C, exposure 5 min, speed 3 deg / min;
2nd stage: 70 ^o C, exposure 10 minutes, speed 4 deg / min.

 4 days after the microwave destruction, the child was discharged for outpatient treatment. When viewed 8 months after treatment: the tumor regressed, in the left parotid region there is an atrophic scar. There are no complaints.

 Thus, the application of the proposed method allows to achieve the cure of volumetric vascular tumors in children without surgery.

Claims (1)

A method for the destruction of vascular tumors in children, including exposure to a pathologically altered portion of the biological tissue of the microwave electromagnetic field with a non-invasive emitter, characterized in that the destruction process is carried out in stages, while the first stage is the heating of the biological tissue at a temperature of 42 - 48 ^o C for 3-5 minutes and a temperature change rate of 2 to 3 deg / min, and at the final stage, biological tissue is degraded at a temperature of 48 - 70 ^o C for 5 to 10 min and a temperature change rate of 3 to 4 deg / min.