RU2109273C1 - Method of information extremely-high frequency effect on living organism - Google Patents

Abstract

FIELD: radio engineering; instrumentation engineering. SUBSTANCE: biologically active points of living organism are irradiated by laser radiation modulated by information signal of extremely-high frequency range. To increase depth of amplitude modulation of laser radiation by signal of extremely-high-frequency range, biologically active points of living organism are irradiated by simultaneous generation of at least two modes in laser the difference of frequencies between which is close to at least one of the following values: 66.1, 53.6 and 42.25 GHz. EFFECT: enhanced effect on living organism. 2 cl, 2 dwg

Description

The invention relates to radio engineering and instrumentation for biology and medicine, and can be used to create laser medical devices for the treatment of a number of human diseases (hypertension, bronchial asthma, pain, etc.)
Known methods of exposure to electromagnetic fields on living organisms [1], which include exposure to microwave radiation (space, terrestrial and artificial origin) on biological objects. The effect of these radiations is informational in nature and affects the internal dynamics of the life process of a biological object. Under certain conditions, this effect is positive, as confirmed by medical research. The disadvantage of this method of exposure is the surface irradiation of body tissues and the lack of directivity of radiation.

 A known method of information EHF effects on a living organism, giving a therapeutic effect [2]. It consists in direct irradiation of biologically active points (Zakharyin-Gerd points) with electromagnetic waves of the EHF range of low intensity, which has an informational effect on a living organism. The frequencies of electromagnetic waves must be in the vicinity of any of the three values of 66.1 GHz, 53.6 GHz and 42.25 GHz. At the same time, the informational effect has a therapeutic effect and allows a person to treat bronchial asthma, hypertension, pain, and others. Currently, a number of EHF-therapy devices have been created that implement this method of informational EHF-exposure and are recommended by the Ministry of Health of the Russian Federation for practical use, for example, devices "Yav-1", "Threshold-1" (Protocol No. 10 of the Ministry of Health of 12.12.88), etc.

 The disadvantage of this method is the small depth of penetration of EHF radiation into a living organism due to its strong absorption in the surface layers and a large area of irradiation of the body surface (more than 5 mm in diameter). Attempts to reduce the area of irradiation of the body surface in specific devices that implement the known method by changing the design of the irradiator or introducing diaphragms with small apertures are ineffective due to the strong diffraction divergence of the EHF beams.

 The purpose of the invention is to increase the depth of penetration of information EHF exposure in a living organism and to reduce the transverse dimensions of the area of information EHF exposure.

 To effectively influence deeply located biologically active points, it is necessary to increase the penetration depth of the EHF effect. Since some biologically active points are located quite close to each other (for example, on the human earlobe), it is necessary to reduce the area of irradiation of the body surface (to localize the EHF effect).

 This goal is achieved by the fact that the biologically active points of a living organism are irradiated with laser radiation, modulated by the information signal of the EHF range. Modulation can be both amplitude and angular. The laser beam penetrates deep enough into the body of a living organism and has very small transverse dimensions (up to 1 mm or less), which ensures the localization of the EHF effect. Due to non-linear effects, the demodulation of optical radiation occurs in the tissues of a living organism and an EHF signal is emitted, which directly affects the corresponding area (biologically active point) of a living organism. Laser radiation itself has an independent therapeutic effect (defined by laser therapy), which expands the functionality of the proposed method.

 For the additional purpose of increasing the depth of amplitude modulation of laser radiation by the EHF signal, biologically active points of a living organism are irradiated with laser radiation that simultaneously generates at least two modes, the frequency difference between which is in the vicinity of at least one of three values: 66.1 GHz, 53.6 GHz and 42.25 GHz. The permissible neighborhood of these frequency points is 0.5%.

 The drawing shows a device that implements the proposed method.

 The living organism 1 is exposed to a laser beam 2, due to which a small area of informational impact 3 is formed and crosses deeply into the body of a living organism 1. The irradiating device 4 consists of a laser 5 and an EHF modulator 6. The EHF modulator 6 provides modulation laser beam 2 with one or more frequencies in the vicinity of frequency points: 66.1 GHz, 53.6 GHz and 42.25 GHz.

 Using the proposed method will significantly expand the possibilities of research in biology and medicine, and will also create a number of medical devices for the treatment of human diseases.

Claims (2)

 1. The method of information EHF effects on a living organism, which consists in irradiating biologically active points of a living organism with low-intensity electromagnetic waves, characterized in that laser radiation modulated by the EHF information signal is used as low-intensity electromagnetic waves.  2. The method according to claim 1, characterized in that the laser radiation modulated by the EHF information signal is generated by simultaneously generating at least two modes in the laser, the frequency difference between which is in the vicinity of at least one of three values: 66.1 , 53.6 and 42.25 GHz.