HUT76005A - Apparatus and method for detecting the reaction of a subject to a plurality of substances - Google Patents

Abstract

Apparatus (1) for selectively and sequentially communicating a subject with a plurality of substances for detecting the electrical reactance of the subject to the substances comprises a plurality of discrete containers (8) for the substances mounted on a printed circuit board (7). The containers (8) are connected to a first conductor (9) through a plurality of transistors (T1 to T4000). The first conductor (9) terminates in a first contact member (15) in a head harness (16) for communicating the substances with the forehead of the subject. A signal generator (4) generates binary coded digital signals in ASCII form which correspond to the respective substances and are sequentially and simultaneously applied to the subject with the corresponding substance through a second contact member (24) located in the head harness (16). A plurality of third contact members (25a) to (25l), six of which are in the head harness (16) monitor the electrical reactance of the subject at the locations of the third contact members (25). A computer (5) analyses the monitored electrical reactances of the subject.

Description

The present invention relates to a method and apparatus for detecting reactivity between a living entity and a plurality of substances, in particular, but not exclusively, a plurality of biological agents such as homeopathic agents.

The device of the present invention for detecting reactivity between a living entity and a plurality of materials generates a plurality of discrete storage receptors for each individual material, generating a material-specific electrical signal corresponding to each material, and specific to each material, means for interactively interconnecting at least a portion of the materials and the corresponding electrical signals sequentially electrically, and for monitoring the electrical reactance of the living entity treated with the sequentially electrical signal and their respective materials, and for monitoring the reactance and corresponding electrical signals or substances. , and a control means for controlling the generator, the interacting device and the monitoring device.

In a preferred embodiment of the invention, the interacting device comprises a plurality of electrically conductive elements, each of which is fed to a container, each electrically conductive element being in electrical contact with the respective material and electrically in contact with a generator via a switch electrically conducting the material. connects with the generator. The switch incorporated in the electrical conductor is also actuated by the control unit.

Preferably, each of the storage devices has a container having an inner wall of the container: it is made of a material which is electrically

It is also advantageous to have one. Electrically insulating sheet is provided with recess. Each storage is 1 mm and its depth is also 1 printed circuit board, coated with conductive material

In a further preferred circuit board, at least this storage recess is provided with a strongly electrically conductive contact conductor.

.shaping, wherein the device and the container preferably have a diameter of the indentations on the sheet of mm. The insulating board is preferably a storage recess which is preferably gold.

! in its embodiment, the print; er, preferably four thousand

In one embodiment of the invention, the generator is an AC signal generator, which is preferably a max. 5 V amplitude and max. Provides a signal of 10 μΑ current.

The material characteristic of the electrical signals is preferably the frequency of the electrical signal. The frequency of the electrical signals is suitably selected to correspond to the frequency at which the reactance of the appropriate materials is minimum or maximum. These frequencies are predetermined by applying an electrical signal to each material and measuring the reactance of the material while varying the frequency of the AC signal. The reactivity of the test substance can be visually observed on a cathode-ray tube display, while observing the voltage and current amplitude of the electrical signal applied to the substance while recording the frequencies at which the amplitude takes a maximum or minimum value.

Each electrical signal generated by the generator is preferably a digital signal, preferably an ASCII binary code signal, especially a hololinguistic digital signal, as described by Ph.DHRoy Curtin in the Study of Conventional and Advanced Methods in Electrodiagnosis, published by the Medic of Ultramolecular Medicine Volume 1 1

in 1989, and further studies by Ph.D. H. Roy Curtin.

The electrical signal transducer means has a main contact means, which is connected to the generator and can be contacted with the body of the organism. Preferably, the main contact means is configured as a headband that contacts the forehead of the living entity. The interacting device is preferably electrically conductive in communication with the main contact member. Preferably, the main contact member is formed of electrically conductive material.

In another embodiment of the invention, the monitoring means comprises a plurality of secondary contact members which may be in contact with the body of the organism at multiple points, preferably two contact members contacting the animal wrist and two contact members contacting the animal's ankle. In a further preferred embodiment, there are two additional secondary contact elements which contact the two sides of the forehead on the head of the living creature and are preferably arranged in a headband. It is further preferred that two additional secondary contact members contact two fingers of the living entity, in particular two middle fingers of the living entity. Each of the secondary contact elements has an electrically conductive contact.

In a particularly preferred embodiment, the control unit comprises a microprocessor.

The apparatus further comprises a comparator unit for comparing electrical reactances for each material, a means for indicating the maximum and / or minimum reactance, and a means for indicating the value of each reaction.

The invention further relates to a method for detecting reactivity between a living entity and a plurality of materials, comprising sequentially applying a plurality of electrical signals to the living material, wherein the electrical signals correspond to the individual materials and the electrical signals are specific to each material. electrical signals as they are applied to the organism; and sequentially monitoring the reactivity of the organism to each of the electrical signals and materials used as the electrical signals are applied to the organism.

In one embodiment of the invention, the electrical interaction between the materials and the corresponding electrical signals is achieved by contacting each of the materials in electrical contact with an electrical conductor which transmits the corresponding electrical signal. The electrical signals are preferably up to max. 20 micro amperes and max. 5 volt AC signals.

The material characteristic of the electrical signals is preferably the frequency of the electrical signal. The frequency of the electrical signals is suitably selected to correspond to the frequency at which the reactance of the appropriate materials is minimum or maximum. These frequencies are predetermined by applying an AC electrical signal to each material and measuring the reactance of the material while varying the AC signal frequency. The reactivity of the test substance can be visually observed on a cathode-ray tube display, while observing the voltage and current amplitude of the electrical signal applied to the substance while recording the frequencies at which the amplitude takes a maximum or minimum value.

The frequency of electrical signals is generally less than 1 GHz, in most cases between 1 kHz and 20 kHz.

Each electrical signal generated by the generator is preferably digitized prior to use on an animal, preferably converted to an ASCII binary code, especially a hololinguistic digital signal, as can be seen from Ph.DHRoy Curtin published

Published in Volume 1, Volume 1 of the Journal of Ultramolecular Medicin in 1989, and further studies by H.Roy Curtin, Ph.D.

The current applied to the electrical signals shall not exceed 20 amperes, preferably 10 amperes, preferably 5 amperes, in particular 1 amperes. The voltage of the electrical signals will generally not exceed 5 volts, preferably 2 volts, preferably 1 volts, in particular 0.5 volts.

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In a preferred embodiment of the method according to the invention, the electric signal is applied to the forehead of the living entity, preferably to the region near the center of the forehead.

In another preferred embodiment of the method of the present invention, the reactivity of an organism to electromagnetic signals and materials is tested at several points throughout the body, which may include some or all of the following:

one or two wrists, one or two ankles, one or more places on the head, one or more places on the forehead, one or more places on one or more fingers.

If the measurement points are on the forehead, it is preferable that the measurement points are equidistant from the center of the forehead on both sides.

The method compares the reactances measured in an animal and furthermore determines the electrical signal and the material causing the maximum and / or minimum reactance, preferably determining more than one electrical signal and substance.

The invention will now be described in more detail with reference to an exemplary embodiment of the accompanying drawings, in which:

Figure 1 is a schematic drawing of an apparatus according to the invention.

during application and

Fig. 2 is a circuit diagram of a detail of the apparatus of Fig. 1.

Figure 1 shows an apparatus 1 according to the invention for determining the reactivity of a human being 3 to several substances, in this case a biological homeopathic substance. The apparatus 1 comprises a generator 2 generating electrical signals which sequentially generates digital signals to be transmitted to the living entity. Digital signals correspond to biological homeopathic substances, each digital signal is specific to a particular biological homeopathic material and has a characteristic, in this case the frequency of an electrical signal, specific to a particular biological homeopathic material. The frequency of each electrical signal is predetermined by applying to each biological homeopathic material an AC signal whose frequency is changed, while determining the frequency at which the reactivity of the biological homeopathic material is minimal or maximum. The selected frequency is the frequency at which the reactivity of the biological homeopathic agent is minimal or maximum. Each signal is digitized, preferably converted to ASCII binary signals, i.e., hololinguistic signals having a voltage of max. 1 volts and max. 10 micro amps.

The operation of the signal generator 2 is controlled by a control unit 4, in this case a computer, as will be described in detail below. Under the control of the control unit 4, a digital signal and the corresponding biological homeopathic material are sequentially applied to the organism. The reactivity of the living entity to the digital signal and the biological homeopathic material is recorded and the data for the corresponding signal and material are recorded, as will be explained in more detail below. Communication between the computer 4 and the signal generator 2 is via an RS232 interface.

The main conductor 12 of the signal generator 2 is connected to a main contact element, which in this case is a contact element 14 which transmits the digital signal to the living entity. The main contact element 14 is housed in a headband which can be placed on the head of the living entity so that the head is in contact with the contact element 14 at the front of the forehead so that electrical signals reach the front of the forehead.

The biological homeopathic material that is to be tested for its effect on the living entity is stored in a storage unit formed of a printed circuit board 7 with storage recesses 8 for receiving the biological homeopathic material, wherein the storage recesses are formed by holes 9 embedded in the printed circuit board. In this embodiment, the printed circuit board 7 has four thousand storage depressions 8 in which four thousand biological homeopathic material can be stored. The printed circuit board 7 is schematically shown in Figure 2, where, for the sake of clarity, only four storage wells 8 are drawn out of the four thousand storage depressions. The printed circuit board 7 is housed in a housing 10 shown in FIG.

The storage recesses 8 have a plurality of electrically conductive elements, in this case a plurality of electrical conductors, which electrically connect the biological homeopathic material and the digital electrical signals present on the main conductor 12 to electrically connect the biological homeopathic materials contained in each storage recess. with the main leader. The holes 9 forming the storage recesses 8 are coated with gold connected to the conductor 16. In the present embodiment, four thousand electrical conductors 16 connect the four thousand storage wells 8 to the main conductor 12. The switching device has four thousand transistors TI ... T4000, which are inserted into each of the electrical conductors 16 and which individually and selectively electrically connect the corresponding storage well 8 to the main conductor 12, thereby selectively and sequentially electrically conductive to contact the 12 main conductors. Although not shown in Figure 2, each of the TI ... T4000 transistors is located on the printed circuit board 7. The microprocessor Ul, which controls the TI ... T4000 transistors and which

Selects TI ... T4000 transistors selectively and sequentially. After each storage well 8 is filled with biological homeopathic material, the storage well 8 is sealed with a non-reactive material such as a porcelain layer 18 gel which is applied to the printed circuit board 7. An electromagnetic shield 19 is formed around the printed circuit board 7 to shield the printed circuit board 7 against diffused electromagnetic fields.

By controlling the control unit 4 (computer), the signal generator 2 generates digital signals corresponding to biological homeopathic substances, which measure the reactivity evoked in the living entity, and at the same time the corresponding TI ... T4000, which electrically contacts the biological homeopathic material 12 by selecting a transistor, the control unit 4 transmits the digital signal of the signal generator 2 to the main conductor 12.

The device for monitoring the electrical reactivity of a living organism to a biological homeopathic agent has a plurality of secondary contact members 20, in this case twelve secondary contact members. Of these, six secondary contacts 20 are located in the headband 15, three secondary contacts 20 on one side of the main contact 14, and three secondary contacts 20 on the other side of the main contact 14. The secondary contact members 20 are arranged symmetrically around the main contact member 14. The secondary contact members 20 are spaced apart on the headband 15 at the front of the headband 15 to allow measurement of the reactivity of the living entity at three different points on the front of the living entity. The main contact element 14 and the six secondary contact element 20 are electrically isolated from one another. Of these, two secondary contacts 20 are connected to the wrist of the living entity, two secondary contacts 20 are connected to the middle finger of the living entity, and the remaining two secondary contacts 20 are connected to the ankle of the living entity. A conductor 21 from the secondary contact members 20 leads to a microprocessor U1 on the printed circuit board 7, which allows for selective reading of the values of the reactances sensed by each secondary contact member. The readings of the electrical reactances are transmitted by the Ul microprocessor via the RS232 22 interface to the control unit 4 (computer), which stores them and compares them with the appropriate biological homeopathic material, and further processes the stored data as discussed in more detail below.

The operation of the control unit 4 (computer) is controlled by suitable software which provides for the selection of appropriate biological homeopathic material contained in the storage wells 8 and for the selection of digital signals corresponding to the selected biological homeopathic material to act on the living entity 3. In the 4 control units (computer), suitable software provides the storage and comparison of the measured electrical reactances with the appropriate biological homeopathic material and the subsequent analysis of the reactances.

During use, the headband 15 is secured to the head of the creature 3, whereby the main contact member 14 and the secondary contact member 20 are electrically well connected to the front of the living entity 3. The electrical contact is further improved by using an electrically conductive gel on the contact elements 14 and 20. The secondary electrically contacting members 20 are electrically in good contact with the joints, middle fingers, and ankles of the living entity.

To determine the reactivity of an organism 3 to some or all of the biological homeopathic material stored in the storage well 8, the characteristics of each biological homeopathic material acting on the organism 3 are entered using the keyboard of the control unit 4. The microprocessor U1 on the printed circuit board 7 and controlled by the control unit 4 selectively and sequentially actuates the respective transistors TI ... T4000, thereby sequentially connecting the respective storage recess 8 to the main main conductor 12. Simultaneously, when the respective TI ... T4000 transistors are operated sequentially and electrically coupled to the selected biological homeopathic material with the main conductor 12, the corresponding digital signals of the signal generator 2 are sequentially transmitted to the main conductor 12. As a result, the living entity is simultaneously exposed to an electrical and magnetic field corresponding to each biological homeopathic material and to a digital signal corresponding to or characteristic of the biological homeopathic material.

However, when selected materials are sequentially »· *

electrical contact with the main conductor 12 and digital signals are applied to the creature 3, the microprocessor U1 sequentially reads signals from the secondary contact member 20 on the leads 21 and determines the electrical reactivity of the living entity at each point where the secondary contact member 20 is placed. These values are stored in computer memory and linked to the appropriate biological homeopathic material. When placed under the influence of selected biological homeopathic substances and their corresponding digital signals, a computer 4 controlled by the appropriate software summarizes the signals from the secondary contact elements 20 on line 21 and compares the summed values of the measured reactance with each other. The software-controlled 4 computers then determine the highest and lowest reactance values. Generally, biological homeopathic agents that produce significantly higher or lower reactivity than normal will be selected. These biological homeopathic substances are displayed on the computer monitor 4 and the reactivity values corresponding to the biological homeopathic substances are also displayed. Thus, information is obtained to determine which biological homeopathic material is allergic to the organism or which is deficient. Further tests on the living organism show that the reactivity values indicated a deficiency, allergy or intolerance to the biological homeopathic material tested.

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With appropriate software, Fourier sequences of reactions generated by the living entity can be filtered out. These include, for example, brain waves, alternating signs of heart rate, respiration, or other known changes that elicit a sequence of variable response signals and are captured by secondary contact elements 20. This software is based on the Fourier transformation as follows. The basic system of the Fourier transformation can be derived from the following formula:

F (v) exp (j2HvT) Dv where v is the frequency of the tested signals. The software-controlled computer reads the individual reactance values of the various channels and counts the number of times the slope of the curves has changed from positive to negative. A change from positive to negative indicates that the readings have reached maximum or minimum values. When the curve changes, this data is loaded into the computer, and the computer, knowing the number of changes and dividing it by two, determines the total frequency. The total frequency, if the same across all 21 leads, indicates that what we have detected is, for example, the total frequency change caused by the heart rate. By feeding the patient's heart rate and respiratory rate into the computer, it will be possible for them to change and to distinguish these changes from other changes.

The apparatus and method of the invention have already been used in an animal subject.

The invention is not limited to the embodiments shown, and it will be apparent to those skilled in the art that numerous constructional variations are possible within the scope of the claims.

Claims (27)

PATENT CLAIMS Apparatus for detecting reactivity between a living entity and a plurality of substances, in particular a plurality of biological materials, such as homeopathic material, characterized in that it has a plurality of discrete receptacles (8) for receiving each substance, a specially adapted generator (2) for generating electrical signals characteristic of the material, means for interacting at least a portion of the materials contained in each container (8) and the corresponding electrical signals sequentially electrically, a living entity treated with the sequential electrical signal and the corresponding materials; ) means for monitoring and storing the electrical reactance and for comparing the reactances with the corresponding electrical signals and materials, and a control unit (4) for controlling the generator, the interacting device and the monitoring device. Apparatus according to claim 1, characterized in that the interacting device comprises a plurality of electrically conductive elements, each of which is fed into a container, each electrically conductive element being in electrical contact with the corresponding material and in electrical contact with the generator (2). 2) via a switch that electrically connects the material to the generator. Apparatus according to claim 2, characterized in that the switches incorporated in the electric conductor are connected to the actuating wires of the control unit (4). 4. Apparatus according to any one of claims 1 to 3, characterized in that each of the storage means has a container, wherein the inner wall of the container is preferably made of electrically conductive material which is electrically conductive in communication with the corresponding electrically conductive element. Apparatus according to claim 4, characterized in that the apparatus has an electrically insulating plate (7) and the container is a recess (8) formed on the plate. Apparatus according to claim 5, characterized in that the insulating board is a printed circuit board (7) and the storage depressions (8) are coated with conductive material, preferably gold. Apparatus according to claim 6, characterized in that each storage depression preferably has a diameter of 1 mm and a depth of 1 mm. Apparatus according to any one of claims 5 to 7, characterized in that the printed circuit board (7) comprises at least one thousand, preferably four thousand, storage depressions (8). Apparatus according to any one of claims 1 to 8, characterized in that the generator (2) is an AC signal generator, which is preferably a max. 5 V amplitude and max. Provides a signal of 10 μΑ current. Apparatus according to any one of claims 1 to 9, characterized in that the means for applying the electrical signal to the living entity comprises a main contact means (14) which is connected to the generator (2) and which can be brought into contact with the living body. Apparatus according to claim 10, characterized in that the main contacting means (14) is preferably designed as a headband (15) that contacts the animal's forehead. Apparatus according to claim 10 or 11, characterized in that the interacting device is electrically conductive in relation to the main contact element (14), which is formed from an electrically conductive material. Apparatus according to any one of claims 1 to 9, characterized in that the monitoring device comprises a plurality of secondary contact elements (20) which can be in contact with the body of the organism at several points, preferably two contact elements with the wrist of the organism, two contacts. and the element is in contact with the ankle of the living entity. - 20th Apparatus according to claim 13, characterized in that it has two additional secondary contact elements which contact the two sides of the forehead on the head of the living creature, and preferably are located in a headband (15) and have two additional secondary contact elements. contact with two fingers of the living entity, especially the two middle fingers of the living entity. Apparatus according to any one of claims 1 to 14, further comprising means for comparing electrical reactances for each material, means for indicating the maximum and / or minimum reactance, and means for indicating the values of each reactance. Apparatus according to any one of claims 1 to 15, characterized in that the control unit comprises a microprocessor. 17. A method for detecting reactivity between a living entity and a plurality of materials, comprising sequentially applying a plurality of electrical signals to the living entity, wherein the electrical signals correspond to the individual materials and the electrical signals are specific to each material. with appropriate electrical signals while applied to the living entity; and - sequentially monitoring the reactivity of the living entity under the influence of each of the electrical signals and materials used, while applying the electrical signals to the living entity. 18. The method of claim 17, further comprising electrically interacting the materials and the respective electrical signals by contacting each of the materials in electrical contact with an electrical conductor which transmits the corresponding electrical signal while the electrical signals preferably max. 20 micro amperes and max. 5 volt AC signals. Method according to claim 17 or 18, characterized in that the electrical material has a characteristic of each material being the frequency of the electrical signal selected to correspond to a frequency at which the reactivity of the respective materials is minimal or maximal. up. 20. The method of claim 19, wherein the frequencies are predetermined by applying an AC electrical signal to each material and measuring the reactance of the material while varying the frequency of the AC signal. Method according to claim 19 or 20, characterized in that the frequency of the electric signals is generally below 1 GHz, in particular between 1 kHz and 20 kHz. THE • " · Method according to any one of claims 17 to 21, characterized in that each electrical signal generated by the generator is pre-digitized, preferably converted to an ASCII binary code, in particular to a hololinguistic digital signal, before being applied to an animal. Method according to any one of claims 17 to 22, characterized in that the current applied to the electric signals does not exceed 20 amperes, preferably 10 amperes, preferably 5 amperes, in particular 1 amperes, and the voltage of the electric signals in general does not exceed 5 volts, preferably 2 volts, preferably 1 volts, in particular 0.5 volts. Method according to any one of claims 17 to 23, characterized in that the electrical signal is applied to the forehead of the living entity, preferably to the region near the center of the forehead. Method according to any one of claims 17 to 23, characterized in that the reactivity of the living entity under the influence of electrical signals and materials is examined at several points of the body, which may include all or part of the following locations: one or two wrists, one or two ankles, one or more head positions, ·· ·· · « - 23 - ....... i one or more places on the forehead, one or more places on one or more fingers. 26. The method of claim 25, wherein the measurement points on the forehead are equally spaced from the center of the forehead on both sides. A method according to any one of claims 17 to 26, characterized by comparing the reactances measured on the living entity and further determining the electrical signal and the material causing the maximum and / or minimum reactance, preferably determining more than one electrical signal and material. .