WO2015082964A1 - Device for the remote transmission of a representative value of electromagnetic radiation emitted by a material and methods for operating the device - Google Patents

Abstract

The invention relates to a device for the remote transmission of a representative value (18a, 18b...18n) of electromagnetic radiation (28a, 28b... 28n) of a material (26a, 26b...26n) emitted by the material (26a, 26b...26n) from a central installation (10) to client computers (50) that are arranged at a distance from the central installation (10). According to the invention, a plurality of servers (12a, 12b...12c) mutually electromagnetically shielded from each other are provided in order to minimize the mutual influencing of the stored representative values (18a, 18b... 18n) in a deliberate manner, wherein exactly one representative value (18a, 18b... 18n) is associated with each server (12a, 12b... 12n). The methods according to the invention relate to preferred procedures for transmitting the value (18a, 18b...18n) of a material (26a, 26b...26n) selected by means of a request signal (36) sent out by client computer (50), which value represents the electromagnetic radiation (28a, 28b... 28n), either first to an intermediate carrier (54) and then to a carrier (56) or directly to the carrier (56).

Description

 Apparatus for remotely transmitting a representative quantity of electromagnetic radiation emitted by a material and method of operating the apparatus

The invention relates to a device for remote transmission of a representative size of an electromagnetic radiation emitted by a material. The invention further relates to methods for operating the device.

State of the art

From the published patent application US 2010/0233296 A1, from the published patent application EP 2 402 054 A1 as well as from the experiments described in the relevant technical literature. It is known from mental proof that every material radiates electromagnetic waves under certain conditions. Such conditions are excitation states of the material which are caused by a magnet or, for example, a laser. This is a very weak electromagnetic radiation whose spectrum lies substantially in a range from a few Hz to about 20 kHz.

The material may be both inorganic and organic material such as biological material. The electromagnetic radiation detectable with measuring devices corresponds to information characterizing the structure or the effect of the material. The information contained in the electromagnetic radiation may be detected experimentally by effects on, for example, the human or animal body on which a quantity representing the electromagnetic radiation, for example a recorded and stored audio signal or a spectrum or an image file, acts for a while. There is an interaction between the different biological materials.

If a material is biologically active, electromagnetic radiation acting on a body or of a quantity representing the electromagnetic radiation emanating from this material, of which examples have already been mentioned, exerts a biological effect. The electromagnetic radiation and related information of each material, including each drug, is unique. This makes it possible to use the specific for each material or drug see electromagnetic radiation, according to the unique information, for example, to act on the human body, this effect is at least similar to that of the actual drug. It has been found that the electromagnetic radiation has a high coherence. This may be a reason for the interaction of the electromagnetic radiation or the information contained in the electromagnetic radiation with biological systems.

The weak electromagnetic radiation emitted by the respective material, which may be in the already indicated very low frequency range from a few Hz to about 20 kHz, has in particular an amplitude spectrum which is different for each material.

The specific information of a material can be transmitted remotely after detection of the electromagnetic radiation and storage of a quantity representing the electromagnetic radiation, for example the spectrum of the radiation, an audio signal corresponding to the radiation or an image file corresponding to the radiation. The measure of the electromagnetic radiation or the quantity representing the electromagnetic radiation, for example the spectrum, the audio signal or the image file, is provided in order to transmit the characteristic information of the material contained in the electromagnetic radiation. The representing size serves as a carrier for the characteristic information of the respective material or drug. The remotely transmitting representative or electromagnetic radiation information of the material or drug exerts a specific effect on the biological object exposed to the electromagnetic radiation representative variable. This effect is the same or at least similar to the immediate effect of the material.

A transmission of the representative variable reflecting the electromagnetic radiation of a material is described, for example, in the already mentioned disclosure. described in US 2010/0233296 A1. The electromagnetic radiation of a material is detected by a coil arrangement whose output signal is digitized and stored in a computer called a server. The transmission of the electromagnetic radiation representing the size and thus contained in the electromagnetic radiation characteristic information of the material, for example, via the Internet, both wired and wireless transmission paths can be provided locally or externally. On the receiving side, the specific size is stored in a computer, which can be called a client computer.

The representative quantity stored in the client computer as a measure of the electromagnetic radiation of the material is applied to an output of the client computer to which a magnetic coil is connected. Due to the low frequency range of the original electromagnetic radiation, the representative quantity can simply be fed into the magnet coil as an audio signal. The magnetic coil is arranged around a container, which is filled with a carrier realized as a carrier liquid, which a user can drink, on which the representative magnitude of the electromagnetic radiation or the characteristic information contained in the electromagnetic radiation is to act.

Solid or liquid, preferably neutral carriers, such as, for example, water or a physiological saline solution, have proven to be particularly suitable as carriers for the representative size of the electromagnetic radiation or for the characteristic information contained in the electromagnetic radiation.

Carriers of size representing electromagnetic radiation may further include plastics, glass, sugar pellets, pure water, a colloid solution, nutrient broth, 30% -40% ethyl alcohol, about 20% glycerine-water solution, magnetic materials such as magnetic tapes, photographic films, sugar isomers, poly- artarides, wax, paraffin, metals such as tin and others. The transmission of the electromagnetic radiation representing size and thus the characteristic information or properties of a material can by sources of radiation with coherent or incoherent optical radiation in the visible and infrared range, by sources of constant magnetic fields, by LC resonant circuits or transmitters with different Signalmodulationssigna- len or for example, by DC sources with adjustable voltage.

Another possibility for transmitting the electromagnetic radiation representing the size or contained in the electromagnetic radiation characteristic information of the material on the side of the client computer to a user is described in the - also already mentioned EP Patent EP 2 402 057 A1. The representative amount of electromagnetic radiation deposited in the client computer, and thus the characteristic information reflecting the electromagnetic radiation, acts on an optical data carrier such as a CD or DVD through the static or dynamic electromagnetic field of the stored representative quantity. The effect can be detected by potential measurements on the electrically insulating plastic layer of the optical data carrier. A container with a carrier liquid, for example water, is positioned on the optical data carrier for a specific minimum duration. After some time, for example 30 minutes, the quantity representing the electromagnetic field of the material has transferred to the carrier liquid. The transition to the carrier liquid can be detected by measuring the location-dependent electrical conductivity of the carrier liquid. be pointed. The carrier liquid can be consumed by the user and has been proven to act on the user in the manner in which direct intake of the material, such as a drug, would act. The invention has for its object to provide a device for remote transmission of a representative size of emitted from a material electromagnetic radiation or corresponding to the electromagnetic radiation characteristic information of the material and method for operating the device, which is a cost-effective remote transmission of representative sizes of electromagnetic radiation of a variety of different materials.

The object is achieved by the independent device claim and the features specified in the independent method claims.

Advantages of the invention

The device according to the invention for remote transmission of a representative size of an electromagnetic radiation emitted by a material has the following features:

 a central system with a multiplicity of servers and at least one client computer, which is arranged away from the central system,

 Detecting the electromagnetic radiation emitted by a multiplicity of materials, which corresponds in each case to a characteristic information of each individual material,

Storage of a representative quantity of the electromagnetic radiation of each individual material on exactly one server, which is assigned only to the respective material and arranged in the central system, electromagnetic shielding of each individual server with respect to each adjacent server of the plurality of servers in the server installation for minimizing the mutual influence of the stored representative quantities of the electromagnetic radiation,

the servers are connected to a router by means of communication lines,

- each server is assigned a unique address in the router,

 the router is connected to a communication network,

 the router receives a request signal representative of the representative magnitude of the electromagnetic radiation of a material selected by means of the request signal via the communication network from a client computer,

 The router uses the request signal to select the server assigned to the material by means of the unique address and

 - Transmission of the stored representative amount of electromagnetic radiation to the client computer.

The device according to the invention makes it possible to provide a large number of representative quantities of electromagnetic radiation from a corresponding multiplicity of materials which can be selected by a user in the simplest way from a given assortment. For selection, a request signal is sent by the client computer, from which the router selects a specific server with the stored representative amount of electromagnetic radiation of the requested material. The selection is usually made on a web page called by the client computer, the web site offering a variety of different materials for selection and transmission. Subsequently, the transmission of the representative size of the electromagnetic radiation of the relevant material takes place and thus the electromagnetic radiation corresponding characteristic information of the material in question to the client computer of the user.

A first essential feature of the device according to the invention, which could only be determined on the basis of experiments, is the assignment of only one material to exactly one server. The term "material" is also understood hereinafter as meaning a material complex which comprises a number of contiguous materials which, in the case of therapeutic materials, are intended for the therapeutic treatment of a specific disease or for the therapeutic treatment of a very specific organ such as the liver. On the other hand, the simultaneous storage of representative quantities of electromagnetic radiation from non-common materials on a single server is not possible.Another significant feature is the electromagnetic shielding of the large number of servers against each other Individual servers prevent the mutual influence between the representative quantities of the electromagnetic radiation of the materials stored in the individual servers n individual servers means that not only conventional metallic housing or metallic mounting walls are provided, but that the electromagnetic shield is deliberately set such that a mutual influence of deposited in the individual server, the electromagnetic radiation representing quantities mutually below a certain, possibly predetermined Tolerance threshold is. The tolerance threshold or, in general, a sufficient shielding can be determined on the basis of the clear effect of the transmitted variable representing the electromagnetic radiation on the side of the client computer. ner mutual influence of the electromagnetic radiation representing quantities is no longer given. The requirement for electromagnetic shielding between the individual servers was established by experiment.

It is pointed out in particular that the transmission of certain parameters of the electromagnetic radiation from the central system or from the technical center takes place in digital form. Advantageous developments and refinements of the device according to the invention are each objects of dependent claims.

One embodiment relates to the communication network, which may be a wired or a wireless communication network. A communication network and / or a telephone network and / or a broadcast network is provided as the communication network. Preferably, the communication network is the Internet. The network structure available through the Internet enables a particularly simple connection of the client computer arranged with a user of the device according to the invention.

An advantageous embodiment provides that the specifically predetermined electromagnetic shielding between the servers is realized by means of predetermined minimum distances, which are preferably determined experimentally on the basis of the criteria specified above. In practice, distances in the range of 1 m - 4m have proven sufficient.

Alternatively or additionally, shielding plates can be arranged between the servers for realizing the specifically prescribed electromagnetic shielding are, which consist of MU metal according to a particularly advantageous embodiment.

The dimensions and / or material thicknesses and / or positions of the additionally or alternatively provided shielding plates are preferably determined experimentally in accordance with the criteria given above.

Other embodiments relate to the realization of the representative quantity for the electromagnetic radiation. A first possibility is to store a file with a spectrum of the electromagnetic radiation of the material. The spectrum reflects the amplitude of the electromagnetic radiation as a function of the frequency.

Another possibility is to deposit an audio file corresponding to an audio signal of the electromagnetic radiation of the material. Due to the found frequency range of the electromagnetic radiation, a representation of the representative size of the electromagnetic radiation as an audio signal is possible. Furthermore, it is possible to realize the representative amount of the electromagnetic radiation as a graphics file.

A particularly advantageous embodiment provides that the material whose representative size of the electromagnetic radiation is to be made available is a pharmaceutical drug. With this embodiment, the device according to the invention makes possible a cost-effective remote transmission of the representative magnitude of the electromagnetic radiation and thus of the characteristic information of the medicinal product corresponding to the electromagnetic radiation. means. With the transfer of the representative amount of the electromagnetic radiation of the drug, the therapeutic effect of the drug for the therapeutic treatment of a user of the device according to the invention can be made available. A development of this embodiment provides that the pharmaceutical drug contains vegetable raw materials.

An embodiment on the side of the client computer provides that an intermediate carrier of the received and stored in the client computer representing size of the electromagnetic radiation and the electromagnetic radiation corresponding characteristic information is exposed for a first predetermined period of time. The first time period is preferably in the minute range and may extend up to 1 hour. On the basis of experiments it could be shown that the first given period of time can be both very small and, for example, can be a few seconds, as well as far in the hour range, for example up to 24 hours.

As an intermediate carrier, in particular, an optical data carrier such as a CD or DVD is suitable. Such optical disk is particularly inexpensive available and easy to use. However, any type of plastics or, for example, waxes are suitable as intermediate carriers. A metallic intermediate carrier can also be used. In the introduction to the description, a number of other suitable intermediate carriers or carriers have already been mentioned. According to one embodiment, a container is provided, which is filled with a carrier, preferably a carrier liquid, which can be drunk by a user. As a carrier liquid is particularly suitable water or, for example, a physiological saline solution. To transfer the representative size or a measure of the representative magnitude of the electromagnetic radiation of the material from the optical data carrier to the carrier liquid in the container has been experimentally demonstrated that it is sufficient to position the container for a second predetermined period of time on the optical disk. The second predetermined period of time is also in the range of minutes, preferably at least 30 minutes and may also extend up to 1 hour. By means of experiments it could also be shown here that the second predetermined period of time can be both very low and can for example be a few seconds as well as far in the hour range, for example up to 24 hours.

Alternatively or additionally, on the side of the client computer for transmitting the representative magnitude of the electromagnetic radiation of the material or of the characteristic quantity of the electromagnetic radiation corresponding representative information of a particular material, an audio output of the client computer and one on the audio Output connected solenoid may be provided. The magnetic coil surrounds the container with the carrier therein, preferably a carrier liquid, which the user can drink. In order to transmit the representative quantity or a measure of the representative magnitude of the electromagnetic radiation of the material to the carrier, the container filled with the carrier is exposed to the electromagnetic field of the magnetic coil for a predetermined third period of time. The third predetermined period of time is also in the range of minutes, preferably at least 30 minutes and may also extend up to 1 hour. On the basis of experiments it could also be shown in this case that the third predetermined period of time can be both very small and, for example, can be a few seconds as well as far in the hour range, for example up to 24 hours. Further advantageous embodiments and developments of the device according to the invention and the method for operating the device will become apparent from the following description: Drawing

The invention will be explained in more detail with reference to the accompanying figure.

The figure shows a central system 0, in which a plurality of servers 2a, 12b ... 12n are arranged. Each individual server 12a, 12b ... 12n is shielded by the adjacent server 12a, 12b ... 12n by means of a selectively predetermined electromagnetic shielding 14a, 14b ... 14n. The shield 14a, 14b ... 14n can be realized, for example, by an indent distance. It has been found experimentally that a distance of 1 m - 4m is already sufficient.

Alternatively or additionally, the shields 14a, 14b ... 14n can be realized by means of shielding plates. In particular, MU metal, which in particular provides shielding against the magnetic field component of an electromagnetic radiation, is suitable as the shielding plate.

Both the minimum distances and the dimensions and / or material thicknesses and / or positions of the additionally or alternatively provided shielding plates are preferably determined experimentally. It has already been pointed out that the specific specification of the shields between the individual servers means that not only conventional metallic server housings or metallic mounting walls are provided for the servers, but that the electromagnetic shielding is specifically set in such a way that a mutual influence of the stored in the individual server, the electromagnetic radiation representing quantities each other below a certain, optionally predetermined tolerance threshold. The tolerance threshold or sufficient shielding in general can be determined on the basis of the clear effect of the transmitted variable representing the electromagnetic radiation on the side of the client computer which is no longer present when the quantities representing the electromagnetic radiation interact.

In each server 12a, 12b ... 12n, a specific configuration of a specific size 18a, 18b ... 18n is stored in a memory 16a, 16b ... 16n. The specific variable 18a, 18b... 18n is respectively determined by a converter 20a, 20b... 20n from an input signal 22a, 22b... 22n, which respectively provides a radiation sensor 24a, 24b... 24n.

The radiation sensor 24a, 24b ... 24n receives the electromagnetic radiation 28a, 28b ... 28n emitted by a respective material 26a, 26b ... 26n. The electromagnetic radiation 28a, 28b ... 28n corresponds in each case to a characteristic information 30a, 30b ... 30n of the material 26a, 26d ... 26n. The electromagnetic radiation 28a, 28b ... 28n of the relevant material 26a, 26b ... 26n in particular reflects the properties of the material 26a, 26b ... 26n. The interactions of the electromagnetic radiation 28a, 28b... 28n or the presenting variable 18a, 18b... 18n or a measure of the representing variable 18a, 18b... 18n, in particular with an organism, are directly detectable. Corresponding experiments are described below. The material 26a, 26b ... 26n may be both inorganic and organic. Preferably, a drug is provided as the material 26a, 26b ... 26n. In this case, the device according to the invention makes it possible to remotely transmit the specific size 18a, 18b... 18n of the electromagnetic radiation 28a, 28b... 28n to a user who, due to the large number of medicaments stored in the central system 10, has a corresponding multiplicity of different medicines.

By the possibility of offering a variety of materials 26a, 26b ... 26n or a corresponding number of drugs, it is possible to operate the central system 10 inexpensively and submit the user of the device according to the invention a correspondingly low-cost offer.

The individual servers 12a, 12b ... 12n are connected to a router 34 via communication lines 32a, 32b ... 32n. The router 34 knows the individual unique addresses of the servers 12a, 12b... 12n and, on the basis of a request signal 36, can unambiguously specifically address a specific server 12a, 12b... 12n and represent the respective ones stored in the memory 16a, 16b Get size 18a, 18b ... 18n.

The request signal 36 is transmitted by a communication network 38, with which a remote from the central system 10 client computer 50 can be connected. The client computer 50 is located at a user not shown in detail of the device according to the invention and is operated by the user zer. In principle, any number of client computers 50 may be connected to the communications network 38. The communication network 38 may be, for example, energy supply lines and / or a telephone network and / or a broadcast network. Preferably, the communication network 38 is the Internet. Depending on the request signal 36, the router 34 selects a particular server 12a, 12b ... 12n. In the exemplary embodiment described, it is assumed that with the request signal 36, the first material 26a with its representative size 18a of its electromagnetic radiation 28a is to be selected.

This agreement should also apply to the further description.

Upon selection by the user, the size 18a of the selected material 26a, preferably a drug, representative of the electromagnetic radiation 28a is transmitted to the client computer 50 and stored in a memory 52 of the client computer 50.

In practice, it can be assumed that the file size of the size 18a is comparatively small and, for example, does not exceed 1 megabyte. The transmission of the variable 18a takes place correspondingly quickly via the communication network 38, the duration possibly being only a few seconds.

The present in the client computer 50 representing size 18a of the electromagnetic radiation 28a can be transferred according to a first embodiment of an intermediate carrier 54, which is an optical disk, for example, the aforementioned CD or DVD in the illustrated embodiment. For this purpose, the optical data carrier is inserted into a not shown optical drive of the client computer 50 and the representing size 18a of the electronic exposed to magnetic radiation 28a for a first predetermined period of time, which may be, for example, in the range of minutes, preferably about 30 minutes, and which may extend for up to about 1 hour. It has already been pointed out above that a considerably wider range of time can also be provided. A conventional "burning" of the optical disk is not provided.

The client computer 50 can be implemented as a PC or laptop, but also as a mobile phone, smartphone or tablet computer. The supply needs to be 52 for storing the characteristic size 18a. If a drive for an optical disc is not available, the optical disc can also be placed on the PC / laptop or a keyboard, on the mobile phone, on the smartphone or on the tablet computer. The transition of the representative quantity 18a or a measure of the representing quantity 18a onto the optical data carrier during the first predetermined period of time can be detected by detecting the local distribution of the electrical potential on the surface of the optical data carrier, the spatial distribution and the electric field strength at least represent a measure of the size 18a.

The further transmission of the representing variable 18a or a measure of the representing variable 18a takes place on a carrier 56, preferably a carrier liquid, with which a container 58 is filled, which is responsible for transmitting the representative size 18a or a measure of the representing variable 18a is positioned for a second predetermined period of time on the intermediate carrier 54 designed as an optical data carrier. The second predetermined period of time is a few minutes, preferably at least 30 minutes and can be up to 1 Hour. Again, it has been noted above that the second period of time can be in a much larger time range.

When transferring the size 18a representing the electromagnetic radiation 28a or the size of the representing quantity 18a onto the support 56, its super-molecular structure is changed. This leads to the formation of coherent domains in the carrier 56, which contain molecules in the same direction vibrating. In the case of water as a carrier liquid, the changes in conductivity, reduction in electron work function and increase in water evaporation rate can be detected. The locally resolved electrical conductivity within the carrier liquid is measured.

According to a second embodiment, a direct transmission of the size 18a representing the electromagnetic radiation 28a or at least a measure of the representative size 18a from the client computer 50 to the carrier 56 in the container 58 is provided. In this embodiment, it is provided that the quantity 18a of the electromagnetic radiation 28a deposited as the audio file in the memory 52 of the client computer 50 as an audio signal via an audio output 60 of the client computer 50 to a magnetic coil connected to the audio output 60 62 is created. The magnetic coil 62 is wound around the container 58, so that the container 58 forms with the carrier 56 therein, so to speak, the core of the magnetic coil 62. Also in this case, the audio signal is provided for a third predetermined period of time, the third time period being for example minutes, but preferably being in the range of 30 minutes, but the third time range may also extend up to 1 hour. It has already been pointed out above that the third time period can also be in a much larger time range. Thereafter, based on an evaluation of the locally resolved electrical conductivity of the carrier 56, preferably the carrier liquid, it can be determined experimentally that the size 8a or a measure of the size 18a has been transferred to the carrier 56 or the carrier liquid.

After transferring the size 18a of a selected material 26a or drug representing the electromagnetic radiation 28a, the user consumes the carrier 56, which is preferably water, but in particular a physiological saline solution. However, the carrier 56 can also be, for example, honey, a sour milk product, bread or a cosmetic. Generally, a carrier 56 may be provided which is suitable for consumption by the user. Further examples of this are already given in the introduction to the description. A potential user will be able to select an application-specific website after realization of the central system 10 according to the invention and retrieve the required drug by e-mail or telephone on the basis of the descriptions provided on the website and / or after consultation or coordination with respective professionals.

In order to achieve the best therapeutic effect within the next 24 hours, it is recommended to use only the water or other carriers 56 such as honey, sour milk products, bread or cosmetics. If the carrier 56 is water and the contents of the container 58 are smaller than the human's daily fluid requirements, a small amount of water should remain in the container 58 and water should be topped up. It has been experimentally determined that the carrier 56 loses its therapeutic properties after about 30 days, but at the latest after 1, 5 months.

As a result, with the device according to the invention and the method according to the invention, the safety of a therapeutic treatment is increased, the range of application of a drug is extended and side effects are avoided. This is achieved by reducing or even eliminating the direct chemical or pathophysiological action on the body of the patient when the drug is administered as indicated. The administration of the drug in the form of an exposure of the size 18a representing the electromagnetic radiation 28a of the drug or a measure of the amount 18a representative reflects the basic therapeutic properties of the chemical or biological material 26a and, in the first embodiment, by means of the neutral subcarrier 54 received.

Practical experiments:

Aspirin Remote Aspirin Examination: Material 26a, ie the parent drug, represented a pure crystal substance of aspirin. The tests performed involved the exposure to water of the transferred size 18a of the pharmaceutical aspirin preparation representing the electromagnetic radiation 28a as carrier 56 the properties of both boiled water and a physiological saline solution as a carrier 56, which were exposed on an empty optical disk as an intermediate carrier 54 on the one hand and on an optical disk with transferred size 18a. The representative size 18a of the electromagnetic radiation 28a or the characteristic information of aspirin was transmitted in the form of a graphic file via the Internet as the communication network 38. Two electrochemical cells, which formed two containers 58 with water as carriers 56 and electrodes, were carried on the surface of the intermediate carrier 54 realized as an optical medium, on the one hand, with the representative size 18a of aspirin recorded thereon, and on the surface of an identical optical data carrier no recorded information arranged.

A third electrochemical cell, which was formed by a container 58 with the same carrier 56 and electrodes, contained the solution of the pharmaceutical aspirin preparation and was not turned off on the optical data carrier. The currents flowing in the three electrochemical cells during the transfer of the representative quantity 18a were continuously recorded.

Based on the measurement data, the following was found:

 The differences in the current dynamics of the first electrochemical cell placed on the surface of the optical data carrier with the representative size 18a of aspirin recorded thereon and the third electrochemical cell containing the solution of the crystalline pharmaceutical aspirin preparation are low.

However, based on the measurement data, it was also found that the current dynamics of the first and second cells differed markedly. The current characteristics represent the processes of change of state of the water molecules and in particular the changes of the proportion of unbound free water molecules which are responsible for the electron work function. That's why, based on the Changes in the conductivity and in particular on the degree of molecular excitation of the water condition are assessed, which was caused by the influence of the electromagnetic radiation 28a representing size 18a of the realized as an optical disk intermediate carrier 54.

This corresponds to a proof that an intermediate carrier 54, especially an optical data carrier, actually carries the size 18a or at least a measure of the size 18a after the transmission of the representative size 18a of the electromagnetic radiation 28a of aspirin. The intermediate carrier 54 may be used to act on the carrier 56, for example, a carrier liquid, preferably water or a physiological solution, to obtain an agent having the characteristics of the size 18a or size 18a measure, respectively original material 26a has. The effect of the carrier 56 produced according to the procedure according to the invention, recognized in the context of the tests, has shown that this carrier 56 has exactly the properties of aspirin.

Diclofenac Remote Transmission Tests: Material 26a represented a pure crystal substance of diclofenac. The tests performed involved the exposure of the representative size 18a of the pharmaceutical preparation of electromagnetic radiation 28a transmitted from a prior art server to a client computer 50 Diclofenac on the carrier 56 realized as water.

The properties investigated were boiled water and a physiological saline solution, which were prepared on an empty optical disk. th intermediate carrier 54 and on a size 18a optical media or a size 18a size of Diclofenac were exposed.

Based on two electrochemical cells, which were formed by containers 58 with water as a carrier 56 and electrodes. A first container 58 was placed on the surface of an optical media sub-carrier 54 of size 18a or size 18a of diclofenac and a second container 58 and on the surface of an identical optical disk with no recorded information.

A third electrochemical cell, which was formed by a container 58 with the same liquid carrier 56 and electrodes, contained the solution of the pharmaceutical preparation Diclofenac and was not turned off on the optical disk. The currents flowing in the electrochemical cells during transfer of size 18a were recorded uninterrupted.

Based on the measurement data, the following was found:

 The differences in the current dynamics of the first electrochemical cell placed on the surface of the optical data carrier having the size 18a recorded thereon and a size 18a of diclofenac and the third electrochemical cell constituting the solution of the crystalline pharmaceutical diclofenac Preparations are low.

However, based on the measurement data, it was also found that the current dynamics of the first and second cells differed markedly. The current characteristics represent the processes of change of state of the water molecules and in particular the changes of the proportion of unbound free water molecules which are responsible for the electron work function. That's why, based on the Changes in the conductivity of the water condition and in particular on the degree of molecular excitation are assessed, which influence emanates from the realized as an optical disk intermediate carrier 54. Thus, it has been proved that after transfer of size 18a or dimension 18a of diclofenac, intermediate carrier 54 actually has a receptacle of size 18a or a measure of size 18a of corresponding material 26a, corresponding to diclofenac. This intermediate carrier 54 can be used to act on the carrier 56, preferably a carrier liquid, for example water or a physiological solution, and to obtain an agent which has the properties for recording the size 18a or a quantity of the size 18a used material 26a or the corresponding drug. The effect of the carrier 56 produced by the procedure according to the invention, recognized in the context of the tests, has shown that this carrier 56 has exactly the properties of diclofenac.

Similar results were also obtained during the tests, which were carried out according to the same procedure for numerous other materials 26a, 26b ... 26n, in particular pharmaceuticals.

Further experiments:

Research on immunomodulating properties of a saline solution as a carrier 56, exposed on an intermediate carrier 54 realized as an optical medium, which has a size 18a of umifenovirum (arbidol) representing the electromagnetic radiation 18a. The research has aimed to establish the influence of the intermediate carrier 54, which is realized on an optical medium, on the size 18a of the medicinal product umifenovirum (arbidol)), as a carrier 56 on immunological properties of the umifenoviral substance,

Indicators used to assess the state of the immune system organs were the thymus mass and the spleen mass, their cellularity (amount of viable nucleated cells in the homogenate) and amount of antibody-producing cells (AKPZ) in the spleen of mice resulting from the immune response to hamster erythrocytes be formed.

The material 26a corresponding to umifenovirum (arbidol) represented a pure crystal substance of umifenovirum. The representing size 18a of the electromagnetic radiation 28a of umifenovirum was accessed in the context of an attempt by a prior art server via a wireless communication network 38 within the Internet transferred to a web page to a client computer 50. The research was carried out on laboratory mice (males) of the high-yielding line CBA with a body mass of 22 to 24 g. The laboratory mice were maintained in a vivarium with standardized food and water rations. To simulate the immunodeficient state, the mice were exposed to 1 Gy of sublethal ionizing radiation.

The experimental research carried out has shown the following:

The model of the immunodeficient state used in the tests corresponds to the reduction in the level induced by the action of ionizing radiation Immune Responsiveness of the Laboratory Mouse to a Thymus-Dependent Antigen (Hammerythrocyte). This immune-response capability loss was predominantly an inhibited antibody genome determined by the amount of spleen-derived antibody-producing cells (AKPZ) and, in part, some decrease in spleen mass and cellularity.

The irradiated mice from a first group, a comparison group, received a saline solution exposed on an empty optical medium as an exposed medium. From the table below it can be seen that the spleen of these mice had about 17.0 × 10 3 ACPZ.

The irradiated mice from a second group received 54 exposed saline solution on an intermediate carrier realized as an optical medium. The optical data carrier had the characteristic information matrix 30a of umifenovirum. The spleen of these mice had about 56.0 x103 AKPZ. This characteristic value is three times higher than the corresponding characteristic value of the comparison group.

The irradiated mice from a third group received on an empty, also as an optical medium realized intermediate carrier 54 exposed and an optimal immunomodulating dose of the crystalline Umifenovirums containing saline. The AKPZ content in the spleen of these mice was 65.0x103 AKPZ. This value is 3.8 times higher than that of the comparison group.

The irradiated mice from a fourth group received an on a, again as an optical disk realized intermediate carrier 54 with the electromagnetic radiation 28a representing size 18a of Umifenovirum exposed optimal immunomodulating dose of the crystalline Umifenovirums containing saline solution solution. The spleen ACPZ concentration was 1 16,0 x103 ACPZ. This exceeds the characteristic value from the other groups, as follows:

It is approximately 6.8 times higher than the AKPZ content in the first control group in which the irradiated mice received saline after exposure to an empty optical medium.

 It is approximately two times higher than the amount of AKPZ in the second group of irradiated mice given Umifenovirum 18α saline without the addition of the umifenoviral material.

 It exceeds approximately 8 to 8 times the same value of the mice irradiated in the third group to which saline has been administered after exposure to the blank optical medium and addition of the umifenoviral substance.

The spleen masses and the cellularity data of the spleen in all investigated groups of animals showed no significant changes.

The change in the amount of ACP in the spleen is the main functional index of immunological reactivity. The obtained data on the change in the amount of the AKPZ prove that the intermediate carriers 54 realized on the optical medium with the representative quantity 18a of the electromagnetic radiation 28a of Umifenovirum transmitted from a server according to the prior art to a client computer 50 exposed saline represents the immunostimulating effect of the umifenoviral substance. This also corroborates the results presented above.

When administered intraperitoneally in combination with the umifenovirum added as a substance, this saline solution increases the immunostimulating effect of the preparation Umifenovirum used as material 26a. The effect of the size 18a of umifenovirum in combination with the crystalline umifenovirum corresponds approximately to the sum of its individual effects.

The table below shows the immunologic indices (M ± m) of the spleen of the mice irradiated with a dose of 1 Gy after three intraperitoneal administrations of 0.5 ml saline solution after exposure to an empty optical medium (1), saline solution Exposure to the size 18a optical media of umifenovirum radiation (2), saline solution after exposure to blank optical media with the addition of umifenovirum as substance (3) and saline solution after exposure to a size 18a optical medium of umifenovirum radiation with the addition of umifenovirum as substance (4).

Ser. Administration of dissolution cellularity, AKPZ,

 Mass, mg

 No. gen 1x 106 1 x103

 Saline from the

 1 blank disc (Ver71, 5 ± 3.3, 90.0 ± 5.2, 17.0 ± 6.0

 peer group)

 Saline solution with Umi¬

2 68.5 ± 3.3 88.3 ± 6.5 56.0 ± 14.0 *

 fenovirum radiation

 Saline from the

 empty CD + Umi¬

3 81, 0 ± 3.0 105 ± 9.9 65.0 ± 6.0 *

 fenovirum (comparison group)

 Saline solution with Umi¬

4 fenovirum radiation + Umi75.0 ± 3.4 98.3 ± 7.0 6.0 + 17.5 **

fenovirum Note: * - allowable differences (p <0.05) compared to the control group; ** - allowable differences (p <0.05) over the control group and groups 2 and 3. The results obtained in this experiment suggest that the use of the physiological saline as carrier 56 or of the water as carrier 56, exposed on a Intermediate carrier 54 designed as an optical data carrier with the size 18a of umifenovirum transferred by a server according to the prior art in combination with umifenovirum as a preparation in immunodeficient states increases the immunostimulating effect of the physiological saline solution or of the water as carrier 56.

The representative quantities 18a, 18b... 18n of the electromagnetic radiation 28a, 28b... 28n of medicaments as material 26a, 26b... 26n transmitted remotely by the central system 10 according to the invention in the context of the method according to the invention make it possible to obtain more substantial results in the case of To achieve treatment of various pathologies of the human body. In this connection, it is also essential that the administration dose of the pharmaceutical preparation be gradually lowered.

Thus, the device according to the invention will permit the ingestion of, for example, water or a physiological saline solution exposed to the quantities 18a, 18b ... 18n representing the electromagnetic radiations 28a, 28b ... 28n simultaneously with the ingestion of the pharmaceutical preparations in conventional form such as tablets, capsules, injections, etc., whereby the ingestion of the pharmaceutical preparations can be gradually reduced. The device according to the invention with the method according to the invention is particularly suitable for use in the following cases:

 1. if the ingestion of chemical preparations causes side effects and / or allergies,

 2. if an increase in the therapeutic dose of the pharmaceutical preparation is required, but at a larger dose a toxic effect may occur,

 3. if the intake of the tablet-shaped pharmaceutical preparation is anatomically difficult,

 4 when pharmaceutical preparations are absent or relatively expensive,

 5. for administration as a medicament in the context of prophylaxis: for example, in flu (eg new dosage form of umifenovirum), for example in prevention of an increase in blood sugar level (characteristic information radiation 30a of the medicinal plant guanabana), for example, in gout (lowering of uric acid level ) etc.,

 6. to increase the effectiveness of the ingested tablet equivalents and to eliminate a previously observed resistance to the pharmaceutical preparation.

From September 2011 to June 2013, 4081 tests and clinical observations were performed on patients. Patients took the representative size 18a, 18b ... 18n of the electromagnetic radiation 28a, 28b ... 28n transmitted from a prior art server to a client computer 50 of pharmaceutical grade material 26a, 26b ... 26n Preparations and medicinal plants. Of these, 1835 clinical observations were made on patients and subjects who received carriers 56 of sizes 18a, 18b ... 18n of pharmaceutical preparations, medicinal plants and their complexes. Each case of tracking the dynamics of each patient was observed regularly, on average every 7 to 45 days.

The maximum duration of uninterrupted observation including tracking individual patient dynamics was 1.5 years.

For the most part, the amount of drinking of the carrier 56 of size 18a, 18b ... 18n per day realized as water was not strictly regulated and varied from 200 ml in different patients to a quantity of water which a human usually drinks on a daily basis.

83 different pharmaceutical preparations / medicinal plants and their numerous and varied combinations were used. Respective representative magnitudes 18a, 18b ... 18n of the electromagnetic radiations 28a, 28b ... 28n were each provided on a prior art server and transmitted to different client computers 50. In order to prescribe the therapy, a primary test or a first presentation of the patient was carried out in each specific case. To carry out the primary test and to control the dynamics, both the method of the vegetative resonance test (VRT) and standardized laboratory and functional examination methods such as blood count, biochemical blood analysis, general urine examination, US examination, endoscopic esophago-gastroduodenoscopy, antigen Blood test (serological examination), stool test for dysbacteriosis, ECG (electrocardiography) and MRI (magnetic resonance tomography).

VRT is an electrophysiological method that uses the physical properties of the body. The method is based on a resonance effect. The resonance arises between a signal introduced into the "device - patient" circuit with a certain frequency and a similar signal in the body, if present.

Integral indicators of the general condition and of specific organs and systems before and after exposure were measured by the size 18a, 18b ... 18n. Subsequently, these indicators were followed at repeated consultation hours after the patient had taken water of the size 18a, 18b ... 18n for a while.

Results of the experiments carried out:

930 of the 835 cases were monitored under clinical observations as of June 2013 using conventional examination methods. 513 of the 930 protocols contained conventional analysis results. This information is of great interest. In 58 of 513 cases, corresponding to 1 1, 3%, no positive effect was observed according to the data of the conventional examination methods and the severity of the symptoms. The duration of use of water as a carrier 56, each having a size 8a, 8b ... 18n was 7 days to 3 months in these cases.

For comparison: In 98 cases, corresponding to 10.5% of the 930 protocols, which were accompanied by any conventional examination methods, no positive dynamics was observed, according to the examination and after the observed symptoms.

It should be noted that these codes also refer to non-compliance with the instructions for use of the new dosage form of the representative quantities 18a, 18b ... 18n of the electromagnetic radiations 28a, 28b transmitted from the server according to the prior art to a client computer 50 ... 28n of the drugs may be related as materials 26a, 26b ... 26n. The most common type of violation of these instructions for use is an irregular ingestion of water with the size 18a, 18b ... 18n and too long use of the optical disk, for example, more than 1, 5 months. There is no doubt that - assuming a professional individual selection - the representative size 18a, 18b ... 18n of an electromagnetic radiation 28a, 28b transmitted by the inventive apparatus and the inventive method from the central system 10 according to the invention to a client computer 50. .. can be efficiently acted upon by drugs on a variety of diseases. The treatment with the quantity 18a, 18b... 18n representing the electromagnetic radiation of materials 16a, 26b... 26n will possibly also give rise to additional effects which are associated with the pharmaceutical process. original substances are not obtainable. These effects could also affect those conditions that relate to the field of clinical psychology.

Claims

claims

1. Device for remote transmission of a representative quantity (18a, 18b ...

 18n) of an electromagnetic radiation (28a, 28b ... 28n) emitted by a material (26a, 26b ... 26n) from a central facility (10) to client computers (50) remote from the central facility (10) are, with the features:

 Detecting the electromagnetic radiation (28a, 28b ... 28n) emitted by a plurality of materials (26a, 26b ... 26n), each of which has characteristic information (30a, 30b ... 30n) of each individual material (26a, 26b ... 26n),

 - Storage of a representative size (18a, 18b ... 18n) of the electromagnetic radiation (28a, 28b ... 28n) of each individual material (26a, 26b ... 26n) on exactly one, only the respective material (26a, 26b ... 26n) associated, in the central system (10) arranged server (12a, 12b ... 12n),

electromagnetic shielding (14a, 14b ... 14n) of each individual server (12a, 12b ... 12n) with respect to each adjacent server (12a, 12b ... 12n) of the

A plurality of servers (12a, 12b ... 12n) in the central system (10) for selectively minimizing the interference of the stored representative quantities (18a, 18b ... 18n) of the electromagnetic radiation (28a, 28b ... 28n),

 - The servers (12a, 12b ... 12n) are by means of communication lines (32a, 32b

... 32n) connected to a router (34),

each server (12a, 12b ... 12n) is assigned a unique address in the router (34), the router (34) is connected to a communication network (38),

the router (34) receives a request signal (36) for the representative quantity (18a, 18b ... 18n) of the electromagnetic radiation (28a, 28b) emitted by the client computer (50) via the communication network (38). 28n) of a material (26a, 26b ... 26n) selected by means of the request signal (36),

 - The router (34) selects on the basis of the request signal (36) the material (26a, 26b ... 26n) associated server (12a, 12b ... 12n) by means of the unique address and

 - Transmission of the stored representative size (18a, 18b ... 18n) of the electromagnetic radiation (28a, 28b ... 28n) to the client computer (50).

Device according to claim 1,

wherein the communication network (38) is a wired or wireless communication network (38).

Device according to claim 2,

in which the communication network (38) is the Internet and / or a power supply network and / or a telephone network and / or a broadcast network.

Device according to claim 1,

in which for the realization of the specifically predetermined electromagnetic shielding (14a, 14b ... 14n) of each server (12a, 12b ... 2n) to the adjacent server (12a, 12b ... 12n) predetermined minimum distances between the servers (12a, 12b ... 12n) are provided. Device according to claim 1,

in which shielding plates are provided between the servers (12a, 12b... 12n) for implementing the specifically prescribed electromagnetic shielding of each server (12a, 12b ... 12n) in each case relative to the adjacent server (12a, 12b ... 12n).

Apparatus according to claim 5, characterized in that the shielding plates are arranged at predetermined positions with predetermined surfaces and with a predetermined material thickness.

Device according to claim 5, characterized in that MU metal shielding plates are provided as shielding plates.

Device according to claim 1,

in which the representative quantity (18a, 18b ... 18n) for the electromagnetic radiation (28a, 28b ... 28n) is a file with a spectrum of the electromagnetic radiation (28a, 28b ... 28n).

Device according to claim 1,

wherein the representative quantity (18a, 18b ... 18n) of the electromagnetic radiation (28a, 28b ... 28n) is an audio file.

Device according to claim 1,

wherein the representative quantity (18a, 18b ... 18n) of the electromagnetic radiation (28a, 28b ... 28n) is a graphics file.

11. The device according to claim 1,

 in which as a material (26a, 26b ... 26n) a pharmaceutical drug is provided.

12. Device according to claim 11,

 in which the pharmaceutical drug contains vegetable raw materials.

13. Device according to claim 1,

 in which on the side of the client computer (50) for receiving the transmitted representative quantity (18a, 18b ... 18n) of the electromagnetic radiation (28a, 28b ... 28n) of a particular material (26a, 26b ... 26n) an intermediate carrier (54) is provided.

14. The apparatus of claim 13, wherein the intermediate carrier (54) is an optical disk.

15. A method of operating the device according to claim 13,

 wherein the subcarrier (54) of the representative size (18a, 18b ... 18n) received and stored in the client computer (50) is exposed to the electromagnetic radiation (26a, 26b ... 26n) for a first predetermined period of time.

16. Device according to claim 1,

in which on the side of the client computer (50) for decreasing the representative size (18a, 18b ... 18n) of the electromagnetic radiation (28a, 28b ... 28n) of a material (26a, 26b ... 26n) an audio output (60) of the client computer (50) and a at the audio output (60) connected magnetic coil (62) are provided.

17. Device according to claim 13 or 16,

 in which a container (58) of a provided for receiving by a user, realized as a carrier liquid carrier (56) is provided.

A method of operating the apparatus of claims 13 and 17, wherein the container (58) filled with the carrier liquid is positioned on the intermediate carrier (54) for a second predetermined period of time.

19. A method for operating the device according to claim 16 and 17,

 in which the representative quantity (18a, 18b ... 18n) of the electromagnetic radiation (28a, 28b ... 28n) received and stored in the client computer (50) is sent to the audio output (60) of the client computer (50 ) is guided, to which the magnetic coil (62) is connected, and

 wherein the container (58) filled with the carrier liquid is exposed to the electromagnetic field of the magnetic coil (56) for a predetermined third period of time.

20. Device according to claim 17,

 in which as the carrier liquid water or a physiological saline solution is provided.