UA48387A - Device for therapy and cosmetology - Google Patents

Abstract

The device for the therapy and cosmetology consists of the power supply, the generators producing direct and/or alternate current and/or stochastic voltage feeding the generator of the electromagnetic signals connected with the applicators and transducers unit, and information unit recording the physiologic state of tissues and/or organs of the patient.

Description

Description of the invention

The invention relates to the field of medicine, in particular, therapy, dermatology and cosmetology. 2 A number of devices for performing physiotherapeutic procedures are known (V.M. Bogolyubov (editor).

Techniques and methods of physiotherapeutic procedures. Moscow, "Medytsina", 1983, 352 p.), namely: 1.1) by direct electric current (galvanization and electrophoresis) - AGN-32, AGN-ZZ3 and GK-2 devices; 1.2) pulsed or time-varying electric current (electrosonography, diadynamotherapy, amplipulsotherapy, fluctuation, electrostimulation, darsonvalization) - "Electroson" T, "Diadynamik DD5BA", "Amplipuls-4", "ASB-2-1" devices, 70 "Stimul-1", "Ultraton TNCH-10-1", respectively; 1.3) high-frequency or constant magnetic field (inductometry and magnetotherapy) - devices "DKV-2" and "Polyus-1"; 1.4) continuous or variable in time electric field (frankilization, UHF therapy) - AF-3, UHF-300 devices; 1.5) electromagnetic, including microwave and EHF, and microwave resonance, radiation - Volna-2 and Luch-58 devices , and "AKIA-5S"; 1.6) with ions and aerosols (aeronotherapy and electro-aerosol therapy) - the "AF-3" and 12 "Aerosol K-1" devices; g) with ultrasound - the "UZT-3.04S" device; 1.7) infrared, visible and ultraviolet light - devices with lamps "LYK-5", "Sollux" and mercury tube "DRT" with a power of up to 1000 W; 1.8) laser radiation - for example, an installation with a laser m "LH-75"; 1.9 with reduced pressure (vacuum massage), and increased or variable pressure (barotherapy) - in special pressure chambers; 1.10) heat and variable temperature, including water treatment, mud treatment and paraffin treatment; as well as 1.11) combined methods, that is, the simultaneous action of two or more physical factors described in points 1.1 to 1.10 by themselves or together with pharmacological preparations, for example "electrophoresis".

Practically, all the devices listed above consist of a case in which power supply units are installed, generators of constant and time-varying electrical voltages of various frequency ranges, connected through a connecting cable to the applicator unit, which ensures the application (application) of a certain active factor 22 ( electric currents, electric and magnetic fields, ultrasound, pressure, heat and cold, medications, "compound actions) to some part of the patient's body, i.e. to the patient's skin and tissues.

Among the new devices, there is a well-known device for ultrasound therapy and cosmetology (patent RF Mo 2058167, A 61 M 700, A 61 H 23/00, 1992), which contains blocks of fixed frequencies, a stochastic signal generator, frequency switching and power supply installed in the case connected through a connecting cable with an ultrasonic emitting unit consisting of an ultrasonic broadband transducer and a container with an adaptive medium and an elastic surface to ensure acoustic contact with the patient's skin.

The disadvantage of all the above-mentioned devices is the complete lack of information and control over the condition of the patient's tissues and skin during a treatment or cosmetic session, which can lead to both low efficiency of the procedure and negative consequences of the use of physiotherapeutic effects on the patient, for example, 3o ultrasound and stochastic ultrasound therapy, therapy with electric currents and electromagnetic With fields, temperature, pressure, water-mud baths, pharmaceutical drugs together with physiotherapeutic methods, combined methods (i.e., mixed or combined of the above), etc., in case of overdose of exposure time or exceeding the intensity of the above-mentioned active "physio-therapeutic signals or influences. With 70 This defect becomes quite obvious if we take into account the fact that human skin and tissues are very sensitive to the influence of external physical factors (MU. Murogd apa M. S. 2I8Kip. Vioiodisai EPesiv oi OKgazotspa. Mem/ Mogk,

From" Spigep I-I Imipudviope, 1989, 384R.), even at their very low intensity (A.V. Chaly. External effects of physical fields on biological objects. Ukrainian journal of medical technology and technologies. 1994, Mo1-2, p. 11-16.). So, for example, during the sounding of tissues, various physiological processes at the cellular level (Adieg ..,

Zrigpa M. apa Ngalgaiga U. Te ePesi oi Iom/ IpiepzNu iigavotspa op tatitaiNap sei! syMiguev II. Oigesi apa shk Ipaigesi eypPesiv oi tsygavotspa // shcha, bBiorpuz.-1988.-1428.MI, yr.13-20; Vivapeu V.), Viaskrotsgpe R. apa

Ge | KigKeu 9. Keviviapse oi SNI PNatvieg seiYiv (about shcygazopis gaadiayop oi 1.5 My; Pedcepsu // VGS 9. Kadioi., 45,-1972.-rr. 354-357; Ovigom5KiI! I. Spidtasom |. iKgazotspa Ipycepse op Metrbgap oi IsoYiaii Meshtsgop Ippapses o oi Pidosaip Asiop./OAM,-1991,319,M44,R.1003-7; Miaditigoma !., 7adogodpik M., OvigomeKI!I., bogoKiIpa 72. o 20 Spidtasom I, Zpcra M. Ipicepse oi Shigavopa op Ztooiy Myzsiez./Meygorpuzioiodu, -1993, M.1,44, P.297-302) can lead to purely individual sensitivity and susceptibility of patients to ultrasound exposure. The same also applies to the influence of electromagnetic fields and pharmaceuticals on humans (M.I.

Muboga apa m.sS. 2IzKIP. Vioiodisa! EPesiv oi Shygazotspa. Mem Mogk, SpigspPI-I ImIpdviope, 1989, Z84R.).

The need for information to monitor the condition of the patient's tissues during any treatment or cosmetic session stems from modern ideas about the complex nature of the influence of external physical factors. on physiological processes in human tissues, including the state of individual cells and the surrounding environment.

So, for example, in a number of works it is shown that even small doses of electromagnetic radiation (A.V. Chaly.

External effects of physical fields on biological objects. Ukrainian Journal of Medical Equipment and Technologies. 1994, Mo1-2, p.11-16), ultraviolet irradiation (R.I. Kononov, L. G. Koreneva, A. V. Lebedev, A. 60 g, Markov.

Processes determining photoinduced chemiluminescence of human skin by mimo.

Biomedical radio electronics, 1995, Mo2, p.82-84 (Radiotechnique, 1995, Mo9)), or ultrasonic waves

TAdieg 9. Zrigpa M. apa Ngalgaiga 9. Te ePesi oi omu IpiepzNu cyygazotspi op tattaiNap sei! Siyigev HER.

OSiIgesi apa Ipaigesi oePesiv oi tsgavzopa // Bshsha, Biorpuz.-1988.-128.Mo.1, pp. 13-20; Vivapeu V.., because Viaskrotsgpe R. apa KigKieu 9. Kevziviapse oi SNI Ppatvieg seiYiv (o Shiigazopis gadiaiop oi 1.5 Mp: edshepsu

POVE 9. Kadioi., 45,-1972.-yr. 354-357; OvigomeKII I. Spidtasom I. OPygazotspa Ipitepse op Metrbgap oi

Ivoyaii Metsygop Ippapsez oi IIdosaip AsPop./OAM,-1991,319,M94,P.1003-7) cause a number of changes in isolated cells, cell cultures or in the skin of the skin, and in the human body as a whole (R.I. Kononov, L.

H. Koreneva, A.V. Lebedev, A.H. Markov. Processes determining photoinduced chemiluminescence of human skin Ip mimo. Biomedical radio electronics, 1995, Mo2, p.82-84 (Radiotechnique, 1995, Mo9);

OvigoUvKiI! 1.. M. Kagaz A.R. Migizpspepko M.E., Ziguiak M.M. Ipyitsepse oi Biospavis Kgazopis Tpegaru op

Viood SpPagasiegivTssv oi RaiPCepiz m/p Kesitepi TopaPSHNv./ YuoromidI oi Mayopa! Asadetu oi Zsiepsev oi

OKgaipe, 1995, Mo10, P.144-147), including both variations in the intensity of cell growth and changes in other 7/0 physiological characteristics. It turned out, for example, that the processes of lipid peroxidation change in human skin irradiated with ultraviolet light (R.I. Kononov, L.G. Koreneva, A.V. Lebedev, A.G. Markov. Processes determining the photoinduced chemiluminescence of human skin i.p. . Biomedicinskaya radiozlektronika, 1995, Mo2, p.82-84 (Radiotechnique, 1995, Mo9)), and ultrasound-treated cells can change the speed of their reproduction, the speed of DNA synthesis, and the intensity of protein exchange (Adieg 9., Zrigpa 7/5 M. apa Ngagaga U. Te eyesi oi omu IpiepzNu shiygavotspa op tattaiNap sei! siyigev. I. Oigesi apa Ipaigesi ePesiv oi Shiigazotspa // eishsha, Biorpuz.-1988.-128.Mo.1, pp.13-20; ViIivapeu V.) ., Viaskroshgpe R. apa KigKieu ..

Keziviapse oi SNI E patzvieg seiYiv yu igazopis gadiaiNop oi 1.5 Mp: ytedcepsu // VgiS. Kadioi., 45,-1972.-yr. 354-357).

The purpose of the claimed invention is to improve the process of therapy and cosmetology procedures for the prevention of skin aging due to the current control of the physiological state of the patient's tissues with the simultaneous reverse correction of the parameters of the signal affecting the patient in order to optimize its positive impact and exclude negative manifestations of an individual nature.

The specified task is achieved due to the design features of the device, which consists of a case with a block of electric constant and/or time-varying and/or stochastic voltage generators, connected to an electric signal generator, power supply and a programmable information processing unit that controls the operation of the electric signal generator signals that produce electric voltages for generating signals of impact on the patient, for example, ultrasound, light, electric current and other electromagnetic fields that are introduced into the skin and tissues of the patient, and the information unit of the sensors, brought into contact with the skin and tissues of the patient, registers their physiological state according to the measured biophysical characteristics and sends the corresponding information signal to the information processing unit controlling the shaper of electrical signals. The device consists of a housing with a power supply unit 1, which contains an electrical voltage generator (GEN) 2 (constant, and/or time-varying, and/or stochastic), connected to an electrical signal generator (FES) 3, a processing unit information and control signal (BICS) 4, connecting cable (ZK) 5, block (U of applicators-transducers (BAP) b, information block of sensors (IBD) 7, which determines the physiological state of the patient's tissues, connecting loop (ZSh ) 8 to implement feedback, - Fig. 1. so

The signals produced by the transducer-applicator unit (TTU) are injected into the patient's tissues. "IS

The characteristics measured by the sensor information unit (IBD) are converted by it into electrical signals and further submitted to the information processing unit (BICS) in order to produce a control command for the electrical signal generator (ES).

The device works as follows. "

The power supply unit 1 is connected to the network and generator 2, shaper 3, and units with information 4 and sensors 7 are put into operation. Electric voltages from generator 2 are fed to the input of FES Z, where VIX 4 sets the amplitudes at the output of the FES block (3) electric and electromagnetic signals, which are supplied through ZK 5 to the block;" applicators-converters (6) . This BAP 6 converts electrical voltages into signals affecting the patient.

The general definition of "signals that affect the patient" means a set of external physical factors affecting a person. They include, for example, the following: ultrasound (single-frequency, stochastic broadband, "multi-frequency, with a variable frequency); b) electric currents (constant, variable in sinusoidal, pulsed, or their combinations); c) light of all ranges (infrared, visible, ultraviolet); d) time-varying electromagnetic fields (including microwave radiation); dilaser radiation; e) magnetic field; g) barometric signals of reduced or increased pressure in the area of influence; h) utemperature effect; i) water procedures; k) mud applications; l) upharmacological effect, i.e. transdermal introduction, co-injections, or internal use of certain pharmaceuticals; m) compound effects, i.e. combination of "And signals indicated above, including both certain physical factors in arbitrary combination, and together with pharmaceutical and/or cosmetic preparations.

Simultaneously with the impact, the IBD 7 registers the physiological characteristics of the patient's skin and tissues, for example: temperature (T), electrical resistance in constant (Ko) and variable (Ku) components, electrical capacity between certain electrodes attached to the patient directly or through some pads, electromagnetic

P" characteristics (EM) of the type of reflection, absorption and polarization of electromagnetic waves, both optical and high-frequency; ultrahigh and microwave ranges, etc. The specified physiological characteristics are transformed into

IBD 7 into an information signal, which is fed through loop 8 to BIX 4 for their processing and further production of the corresponding control signal for feeding to FES 4.

According to the current physiological characteristics of the patient's tissues, BIX 4 and FES 3 through the mediation of BAP 6 produce the optimal signal for the patient's effect on the patient.

Device options

Device options depend on the type of signals and other therapeutic agents acting on the patient, including 65 pharmaceutical drugs, as well as combined (composite) exposure methods, which consist in the application of not one but simultaneously several signals acting on the patient and other therapeutic or pharmaceutical agents; but in all versions, the device works in information mode, i.e. with sensor unit 7 and feedback via ZSh 8 and BIX 4.

Examples of the device implementation can be the following options: 1) A device that provides simultaneous or time-separated effect on the patient of ultrasound, pharmaceutical drugs, and electric currents - in the information mode with the sensor unit 7 and feedback (this can be called "information sonophoresis or electrophoresis"). 2) A device that provides a simultaneous or time-separated effect on the patient of light, including laser radiation, with other physiotherapeutic signals of an electrical or mechanical nature, in the 70. information mode with feedback (this can be called "Information light therapy") .

C) A device that provides a simultaneous or time-separated effect on the patient of a magnetic field and other physiotherapeutic signals of an electromagnetic or acoustic nature - in the information mode with feedback (this can be called "Information field therapy"). 4) A device that provides a simultaneous or time-separated effect on the patient of negative or positive 75 pressure, that is, both vacuum and elevated pressure, different from normal atmospheric pressure, and other physiotherapeutic signals or pharmaceutical drugs, in the information mode with feedback language (this can be called "informational barotherapy"). 5) A device that ensures the simultaneous or time-separated effect on the patient of any of the physiotherapeutic signals affecting the patient described in point 8 and pharmaceutical drugs - in the information mode with feedback (this can be called "Information therapy and cosmetology").

It has been experimentally and clinically established that exposure to the skin of light, thermal, ultrasonic, and electrical active signals, including stochastic ultrasound, affects the physiological state of the skin, which leads to a change in its characteristics, for example, electrical resistance Ko.

Fig. 2, as an example, shows the experimental results obtained by us on the effect of visible and ultraviolet light from a mercury lamp of the DRSH type, installed at a distance of 10 cm from the limb, on the skin resistance "on the limbs (right hand) of two patients, healthy men aged 26 (graph 1, patient 2) and 42 years (graph 2, patient 4). Two metal circular electrodes with a diameter of 16 mm were placed on the hand at a distance of about 20 (twenty) mm from each other in the areas above the index and middle fingers. To ensure the reliability of measurements, the surface of the electrodes was moistened with water, and a preliminary hold of several minutes was made so that the measured resistance Ko stabilized before the start of illumination. After the stabilization of K o, the illumination began, which was carried out only for the first 30 (thirty) seconds, and the resistance measurements of K (I) were carried out from "From the beginning of illumination and onwards - until the initial value of K () - Ko was restored, which was then maintained at this level, i.e. stabilized again. Measurements of Ko and time-dependent K (U) were carried out with an electronic device of the "multimeter" type. As can be seen from Fig. 2, the change in resistance reaches from ЗО9о to 40905, and the after-effect time significantly exceeds the time of light exposure. We note that in other studied patients (total of five) the nature of changes in K(I) resistance was similar.

Another example is shown in Fig. 3Z, which shows how the electrical resistance of human skin changes due to the action of ultrasound. Two metal electrodes were placed on the left palm from above at a distance of 18 mm in the areas above the index and middle fingers, and measurements were performed as described above. Between the metal electrodes and the skin, water-soaked cotton pads were laid, as recommended when conducting physiotherapeutic procedures (V.M. Bogolyubov (editor). Techniques and methods of physiotherapeutic procedures. Moscow, "Medicine", 1983 , 3520.) Between the metal electrodes was placed the ultrasonic applicator of the device for ultrasound therapy UZT-3.04S. Ultrasound at a frequency of 2.64 MHz with an intensity of 1 W/cm? was introduced into the limb for 2-4 minutes. At the moment when the ultrasound was turned on, the measurement of the skin resistance K ( 0), and the measurements of the dependence of K t on time Y were carried out from the beginning of turning on the ultrasound and a certain time after it was turned off. As can be seen from Figure 3, the change in resistance reaches values of tens of kilohms, and the after-effect time again exceeds the exposure time, as in in the case of illumination (Fig. 2). Note that in other studied patients the nature of changes in resistance K () was (95) similar, that is, a change in resistance was observed under the influence of ultrasound. The magnitude of the specified change depended on bo 50 and ultrasound intensity and application time. Moreover, the impact of ultrasound increased as its intensity increased. It is worth noting that in the work (Oippo M.A., Sgyt I.A. apa UUy U. Te eiPesi oi (pegareshis that tsygazotspa op eiesigorpuzioiodisaI ragateyegtv oi h 85KIP /ONgazotspa p May. apa VioI-1989, M.15, rr .476-481) a change in skin resistance near 5095 under ultrasound action, but in frog skin, was also obtained.

Figure 4 shows the dependences of the resistance of human tissues on time under the action of single-frequency ultrasound of therapeutic intensity. In the middle part of the soft tissues of the elbow, at a distance of about 20 mm, cotton pads soaked in water, on which metal electrodes were placed, were placed. The ultrasound applicator from the UZT-3.04S device was placed between these electrodes and emitted ultrasound into the tissue.

Measurements of the time-dependent resistance K () were carried out by an electronic device of the "multimeter" type, or a device

MA-ZE "Soeg2 Meigazhai", shows coincided. As can be seen from Fig. 4, under the influence of ultrasound, the change in the resistance of the tissues of the elbow 60 reaches the value of 11 Km on graph 1 (patient 5), and 120 Km on graph 2 (patient 7). After turning off the ultrasound, the resistance decreases sharply, by 45-50 Km per elbow.

It was also established experimentally on 6 patients that an electric field and direct current applied to human tissues cause their characteristic changes in skin resistance, which are easily recorded by standard equipment. These changes are slow, the resistance increases and reaches a certain, subsequently constant, value. 65 It was also established experimentally and clinically (Marchenko A.T., Ostrovsky I.V. Device for ultrasonic therapy and cosmetology, patent RF Mo 2058167, priority from June 5, 1992; Ovigouski

I.M., Kagaz A.R., Mygizpyspepko M.E. Ipbytsepse oi Ziospavis OPgazotspa op Vioepegdeisv apa Rgee Kadisai

OhiIdayop on Ehregitepia! Ipyattayop.// YuoromIidI oi Mayopa| Asadetu oi Zsiepsez oi OKgaYipe,-1995, Ma,

P.118-120), that stochastic ultrasound stimulates and activates exchange processes in the skin and tissues, which led

BEFORE changes in temperature and other biophysical characteristics in the area of influence.

In our experiments, we observed a change in the electrical capacity (C) between two metal electrodes applied to the limb in the areas above the index and middle fingers, under the influence of ultrasound and light. Note that water-soaked cotton pads were placed between the metal electrodes and the skin, as recommended during physical therapy procedures. It turned out that under the action of 70 ultrasound 2.64 MHz therapeutic intensity of the order of one W/cm? the indicated change amounts to 1695 - 2095 with the area of the measuring electrode 15x15 mm, and the time of ultrasonic application 1.5-2 minutes. Even with a short-term action within 25 seconds, the capacity changes by 4.695.

Under the influence of light, mainly ultraviolet, from a mercury lamp of the DRSH type, installed at a distance of 10 cm from the limb, a change in capacity was also observed. Lighting time - one minute. The value of this change was 75 times smaller than that of ultrasound and was 395 times the initial value before the procedure. Experiments were conducted according to the scheme described above.

We also conducted experiments to observe the change in electrical capacity (C) between two metal electrodes applied to the limb in the areas above the index and middle fingers, under the influence of temperature changes. Water-soaked cotton pads were placed between the metal electrodes and the skin, as recommended for physical therapy procedures. Warm air was directed to the limb, and the skin temperature was measured with a thermocouple and the capacitance between the applied electrodes. Experiments have shown that an increase in temperature by 0.9"C degree causes a corresponding change in capacity by 395, and a change in capacity by 11905 when the skin is heated to 27C. Such changes are easily and accurately recorded by the equipment.

Below, Table 1 presents the results of our experimental studies on the influence of physical factors on the electrical capacity of human tissues on the example of two patients, healthy men aged 55 (patient 3) and 33 years (patient 6). m and procedures So, pkF procedures SkyupkF capacity, o d) from the palm on top » palm on top and and palm on top

DRSHUultraviolet) at a distance of 1Osm, bOsec. palm on top "

B 36000 Temperature, heating by 0.970 37200 Patient 3, right 3.390 а 01710101 тых 000 deizhi w "7 poshu of the palm from above;"

Thus, it was experimentally established that electrical capacity, as a characteristic of human tissues in terms of alternating electric current and voltage, can be one of the measurable parameters for registering changes in the physiological state of human tissues under the external influence of physical factors. t REFERENCES (oo) 11 V.M. Bogolyubov (editor). Techniques and methods of physiotherapeutic procedures. Moscow, "Medicine", 1983, 3526.

Mami (2) Marchenko A.T., Ostrovsky I.V. Device for ultrasound therapy and cosmetology. Russian (oo) 20 patent M 2058167, priority from June 5, 1992. IZ) MU. Mubrogda apa m.s. 2I8 Kip. Vioiodisa! Epbesiv oi ShKgazotspa. Mem ZhMogk, SpigoiPI-G ImIpdviope, 1989, Z84R. and (4 A.V. Chaly. External effects of physical fields on biological objects. Ukrainian journal of medical equipment and technologies. 1994, Mo1-2, p.11-16.

IB) Aidieg U. Zrigpa M. apa Ngalaiga 9. Te epPesi oi Iom/ IpiepeNu shygazopia op tattaiyap sei 22 sishgev. II. OiIgesi apa Ipaigesi eyesiv oi shygazoshpa // zisha, Biorpuz.-1988.-128.M. 1, pp. 13-20. in. IEEI Vivevapeu V.)., ViasKrotsgpe R. apa KigKIeu 9. Kevziviapse oi SNI Patvieg seiv o shShygazopis gadiaivop oi 1.5 Mp2 ytedcepsu // AGE). Cadio!., 45,-1972.-yr. 354-357

GI OzvigoUzKI! I. Spigtasom I. yigazotspa Ipyyitsepse op Metbrgap oi Izoiaiei Metsgop Ippapsevs oi I IdosaYip

AsPop./OAM,-1991,y319,M4,R.1003-7. 60 IV Miaditigoma !., 7adogodpik M., OvigomeKI! 1. ZogoKIpa 7., SpPIltasom !I, Zpira M. Ipbepse oi

OKgavotspa op Ztooii Myzsieez./Meyhorpusioiodu,-1993, M.1, M4, R.297-302.

IZ) R.I. Kononov, L.G. Koreneva, A.V. Lebedev, A.G. Markov. Processes determining photoinduced chemiluminescence of human skin Ip Mimo. Biomedical radio electronics, 1995, Mo2, p.82-84 (Radiotechnique, 1995, Mob). because MY OvigoUZKI! I.M. Kagaz A.R. Migizyspepko M.E., Ziguiak M.M. Ipycepse oi Biospavis /OPgavopis

Tpegaru op Viood Spagasiegivisv oi RaiShepiv m/p Kesitepi TopvShNv.// YuoromidI oi Mayopa! Asadet Oi

ZsiIepsez oi OKgaiYipe, - 1995, M10, P.144-147. 1)! OiIppo M.A., Stit G.A. apa MU u. Te eipPesi oi (Pegareshis tShShygazotspa op eiiiesigorpuzioiodisai! ragategyegv oi Egod zKIp /Kgazoshpa Ip Med. apa Visi -1989, M.15, pp. 476-481. (12) OzvigousKiI! I.M. Kagaz A.R. Mygizvpspepko M. E. Ipbitepse oi Ziospavis OKgavotspa op Vioepegdeisv apa BRgee Kadydisa! Ohidayop Ip Ehregitepia! IpiattaiYop./ JuoromidI oi Mayopa! Asadetu oi Zsiepsev oi

IkKgaipe, - 1995, M4, P.118-120.

Claims (51)

The formula of the invention 1. A device for therapy and cosmetology, consisting of a housing with a power supply unit, generators of electrical constant and/or variable, and/or stochastic voltages supplied to the generator of electromagnetic signals, connected to a unit of applicators-transducers, which is characterized by that it additionally has an information unit of sensors for registering the physiological state of the patient's tissues and/or organs, the signals from which are sent to the information processing unit that controls the operation of the electromagnetic signal generator and the applicator-transducer unit. 2. The device for therapy and cosmetology according to claim 1, which differs in that it has a block of applicators-transducers that emits ultrasound. C. The device for therapy and cosmetology according to claim 2, which is characterized by the fact that it has a unit of transducer applicators, which additionally ensures the effect on the patient of one or more arbitrary pharmaceutical and/or cosmetic preparations. 4. The device for therapy and cosmetology according to claim 2, which is characterized by the fact that it has a block of applicators-transducers, which emits broadband stochastic ultrasound. 5. The device for therapy and cosmetology according to claim 4, which is characterized by the fact that it has a block of "applicators-transducers", which additionally ensures the effect on the patient of one or more arbitrary pharmaceutical and/or cosmetic preparations. b. The device for therapy and cosmetology according to claim 2, which differs in that it has a block of transducer applicators that emits monofrequency ultrasound. 7. The device for therapy and cosmetology according to claim 6, which is characterized by the fact that it has a block of applicators-converters, which additionally ensures the effect on the patient of one or more arbitrary pharmaceutical and/or cosmetic preparations. 8. The device for therapy and cosmetology according to claim 2, which differs in that it has a block of applicators-transducers that emits multi-frequency ultrasound. " 9. The device for therapy and cosmetology according to claim 8, which is characterized by the fact that it has a unit of transducer applicators, which additionally ensures the effect on the patient of one or more arbitrary pharmaceutical and/or cosmetic preparations. 10. The device for therapy and cosmetology according to claim 1, which is characterized by the fact that it has a block of "20 applicators-transducers, which generates light radiation. from the village 11. The device for therapy and cosmetology according to claim 10, which is characterized by the fact that it has a block of applicators-converters, which additionally ensures the effect on the patient of one or more arbitrary pharmaceutical and/or cosmetic preparations. 12. The device for therapy and cosmetology according to claim 10, which differs in that it has a block of applicators-transducers that generates infrared radiation. driving 13. The device for therapy and cosmetology according to claim 12, which is characterized by the fact that it has a unit of transducer applicators, which additionally ensures the effect on the patient of one or more arbitrary pharmaceutical and/or cosmetic preparations. with 14. The device for therapy and cosmetology according to claim 10, which differs in that it has a block of 50p applicators-transducers, which generates radiation in the visible range. (uh) 15. The device for therapy and cosmetology according to claim 14, which is characterized by the fact that it has a block "M of applicators-transducers, which additionally ensures the effect on the patient of one or more arbitrary pharmaceutical and/or cosmetic preparations. 16. The device for therapy and cosmetology according to claim 10, which is characterized by the fact that it has a block of applicators-converters that generates ultraviolet radiation. 17. The device for therapy and cosmetology according to claim 16, which is characterized by the fact that it has a block P» of transducer applicators, which additionally ensures the effect on the patient of one or more arbitrary pharmaceutical and/or cosmetic preparations. 18. The device for therapy and cosmetology according to claim 10, which differs in that it has a block of transducer applicators that generates laser radiation. 19. The device for therapy and cosmetology according to claim 18, which is characterized by the fact that it has a block of applicators-converters, which additionally ensures the effect on the patient of one or more arbitrary pharmaceutical and/or cosmetic preparations. 20. The device for therapy and cosmetology according to claim 1, which is characterized by the fact that it has a unit 65 of applicators-transducers, which generates a constant and/or pulsed and/or time-varying electric current. 21. The device for therapy and cosmetology according to claim 20, which is characterized by the fact that it has a unit of transducer applicators, which additionally ensures the effect on the patient of one or more arbitrary pharmaceutical and/or cosmetic preparations. 22. The device for therapy and cosmetology according to claim 1, which is characterized by the fact that it has a block of applicators-transducers, which emits electromagnetic waves of high and/or ultrahigh and/or microwave ranges. 23. The device for therapy and cosmetology according to claim 22, which is characterized by the fact that it has a unit of transducer applicators, which additionally ensures the effect on the patient of one or more arbitrary pharmaceutical and/or cosmetic preparations. 70 24. The device for therapy and cosmetology according to claim 1, which is characterized by the fact that it has a unit of transducer applicators that emits a constant and/or time-varying magnetic field. 25. The device for therapy and cosmetology according to claim 24, which is characterized by the fact that it has a unit of transducer applicators, which additionally ensures the effect on the patient of one or more arbitrary pharmaceutical and/or cosmetic preparations. 26. The device for therapy and cosmetology according to claim 1, which differs in that it has a block of applicators-transducers, which creates a vacuum or a pressure different from normal atmospheric pressure in the area of effect on the patient. 27. The device for therapy and cosmetology according to claim 26, which is characterized by the fact that it has a unit of transducer applicators, which additionally ensures the effect on the patient of one or more arbitrary pharmaceutical and/or cosmetic preparations. 28. The device for therapy and cosmetology according to claim 1, which is characterized by the fact that it has a unit of transducer applicators that creates a constant or time-varying temperature, different from body temperature, in the area of effect on the patient. 29. The device for therapy and cosmetology according to claim 28, which is characterized by the fact that it has a unit of transducer applicators, which additionally ensures the effect on the patient of one or more arbitrary pharmaceutical and/or cosmetic preparations. " 30. Device for therapy and cosmetology according to claim 28 or claim 29, which is used in hydrotherapy. 31. Device for therapy and cosmetology according to claim 28 or claim 29, which is used in mud therapy. 32. Device for therapy and cosmetology according to claim 28 or claim 29, which is used in paraffin treatment. M zo 33. The device for therapy and cosmetology according to claim 1, which is characterized by the fact that it has a block of applicators-transducers, which additionally ensures the effect on the patient of arbitrary pharmaceutical preparations together with the simultaneous application of one or more of any physiotherapeutic signals and means. with 34. The device for therapy and cosmetology according to claim 1, which is characterized by the fact that it has a block of applicators-transducers, which creates composite signals, which are the sum of physical factors in an arbitrary set of co Sv FOR further action on the patient. "IS 35. The device for therapy and cosmetology according to any one of claims 1 - 34, which is characterized by the fact that it has a unit of transducer applicators that affects one or more biologically active points and/or areas of the patient. 36. The device for therapy and cosmetology according to any of claims 1 - 35, which is characterized by the fact that it has a sensor information unit that registers the current electrical characteristics of the patient's tissues and/or organs. " 37. The device for therapy and cosmetology according to item Zb, which differs in that it has an information block of sensors, which registers the resistance of the patient's tissues and/or organs. 38. The device for therapy and cosmetology according to claim 36, which differs in that it has an information block of sensors, which registers the conductivity of the patient's tissues and/or organs. 39. The device for therapy and cosmetology according to claim 36, which differs in that it has an information block of sensors that registers the electrical potentials of the patient's tissues and/or organs or their differences. their 40. The device for therapy and cosmetology according to claim 36, which is characterized by the fact that it has a sensor information unit that registers the electrical capacity of the patient's tissues and/or organs. co 41. Device for therapy and cosmetology according to claim 36, which differs in that it has an information block of sensors, 2) which registers the quality of the patient's tissues and/or organs. 42. The device for therapy and cosmetology according to any of claims 1 - C5, which is characterized by the fact that it has an informational sensor unit that registers the current electromagnetic characteristics of the patient's tissues and/or organs. 43. The device for therapy and cosmetology according to claim 42, which is characterized by the fact that it has an information block of sensors that registers the absorption of electromagnetic waves by the tissues and/or organs of the patient, both ultraviolet, VISIBLE, infrared, as well as high-, ultrahigh-, and microwave frequency ranges. 44. The device for therapy and cosmetology according to claim 42, which differs in that it has an information block of sensors, P" which registers the reflection of electromagnetic waves by the patient's tissues and/or organs, both ultraviolet, visible, infrared, as well as high-, ultrahigh-, and microwave frequency ranges. 45. The device for therapy and cosmetology according to claim 42, which differs in that it has an information block of sensors, because it registers the polarization of electromagnetic waves reflected by the tissues and/or organs of the patient, both ultraviolet, visible, infrared, as well as high-, ultrahigh-, and microwave frequency ranges. 46. The device for therapy and cosmetology according to any of claims 1 - C5, which is characterized by the fact that it has an information block of sensors that registers the current temperature of the patient's tissues and/or organs. 47. The device for therapy and cosmetology according to any of claims 1 - C5, which is characterized by the fact that it has a sensor information block 65, which registers the current color of the patient's tissues and/or organs. 48. The device for therapy and cosmetology according to any of claims 1 - C5, which is characterized by the fact that it has an information block of sensors that registers the current blood pressure. 49. The device for therapy and cosmetology according to any of claims 1 - C5, which is characterized by the fact that it has an information block of sensors that registers a change in the composition of chemical elements of the patient's tissues and/or organs. 50. The device for therapy and cosmetology according to any of claims 1 - 35, which is characterized by the fact that it has an information block of sensors that registers a change in the composition of substances related to the vital activity of the human body, tissues and/or organs of the patient. 51. The device for therapy and cosmetology according to any of claims 36 - 50, which is characterized by the fact that it has an information block of sensors, which registers in an arbitrary set the composite characteristics of the patient's tissues and/or organs. « cha Zo so (ze) (ee) « - with . and? sh" (ee) (95) (ee) that 60 b5