CS273659B1 - Connection of virus bioenergetical activity monitor - Google Patents

Abstract

The solution concerns the connection arrangement of the monitor. The sensor, receiver and amplifier are connected in series via standard inputs and outputs. Sampling and standard outputs of the amplifier are connected with corresponding inputs of frequency integrator and registration and signalling device. The basic connection arrangement can be completed by connection of external antenna to the antenna terminal of the sensing unit and by connection of generator to the sensor input. According to the selected mode the connection arrangement measures bioactivity of the sample in the sensing unit, bioactivity of viruses in organism, interaction between a standard and the examined sample and effect of electromagnetic waves on increase or decrease in bioactivity. It can be utilized in health care.<IMAGE>

Description

The invention relates to a monitor for sensing the bioenergy activity of viruses for diagnosis and therapy in microbiology.

Devices for sensing the bioelectric activity of cells and tissues are known. In these devices, the electromagnetic field produced by the cell or tissue is measured directly. Bioelectric activity is measured in the areas of infrared radiation, X-rays, ultraviolet radiation and in some bands of electromagnetic waves. The measurement is carried out by directly placing the sensor of the respective radiation on the measured object and determining its intensity. These devices are suitable for measuring the bioelectric activity of those objects where direct contact of the sensor with the measured object is possible. These devices cannot be used to measure the bioenergy activity of viruses and other microorganisms that are stored in tissues, for example, in the human or animal body.

The problem is solved by the connection of the virus bioenergy activity monitor according to the invention, which is based on the fact that the sensor output of the sensor is connected to the sampling input of the receiver and the standard sensor output is connected to the standard receiver input. The sampling output of the receiver is connected to the sampling input of the amplifier and the standard output of the receiver is connected to the standard input of the amplifier. The sampling output of the amplifier is coupled to the sampling input of the frequency integrator and to the sampling input of the recording and signaling device. The standard output of the amplifier is connected to the standard input of the frequency integrator and the standard input of the recording and signaling equipment. The efficiency of the invention is enhanced when a generator is connected to the sensor input and an external antenna is connected to the antenna terminal of the sensor.

The advantage of the present invention is that it makes it possible to detect the bioenergetic activity of the virus and other microorganisms over a distance of tens of millimeters. Using the resonance between the test sample and the standard sample, it allows to determine the type of virus in the test sample. It makes it possible to assess the effect and efficacy of a particular drug on a test sample by comparing bioenergy activity before and after interaction. By connecting an external antenna, it is possible to scan the bioenergy activity of viruses in different parts of the body. By connecting a generator, it is possible to generate an electromagnetic field for both activation and damping of bioenergy activity. The electromagnetic field can be applied via an external antenna to viruses in the body, or through an internal antenna in the sensor to the samples under investigation. The circuit is simple and inexpensive and is made of commercially available components.

An example of an arrangement according to the invention is shown in the block diagram of the drawing.

Individual wiring blocks can be characterized as follows. Generator J1 is a transistor electromagnetic wave generator, which is formed from a resonant circuit and an operational amplifier, in a known circuit, for generating electromagnetic waves in the approximately 29 MHz band and in the approximately 67 MHz band with a frequency tuning of ± ³ MHz ⁱⁿ both bands. Generator 2 is not a necessary part of the basic wiring. Sensor 2 comprises at least one standard cuvette for a standard sample, which is a drug or a known viral vaccine. It further comprises at least one comparative cuvette for the sample to be examined, which is blood, serum, urine and the like.

Both cuvettes are adjustable relative to each other, or they are electromagnetically shielded from each other. The first internal antenna is assigned to the standard cuvette and the second internal antenna is assigned to the comparison cuvette. The sensor 2 is further provided with an input 11 for connecting the generator 2 and an antenna terminal 24 for connecting the external antenna 2. The external antenna 3 has a spiral shape and is provided with a shielding cover. The external antenna 2 is not a necessary part of the basic connection. Receiver 2 ^e j formed of a tunable frequency selector and the related circuits in the known circuit. Amplifier 2 j ^e composed of operational amplifiers. The frequency integrator 2 also includes an analyzer made of oscilloscopes. It can also be equipped with contact circuits for a computer or a printer to record the detected results. The recording and signaling device 7 comprises measuring instruments for measuring bioenergetic activity, optionally optical or audible signaling for rapid control of the interaction and resonance of the examined and standard samples. Frequency integrator 6 and recording and signaling devices 7

CS 273659 B1 can also be formed as one unit. The wiring of the individual monitor blocks is done as follows: The power input 01 of the wiring is connected to the input 11 of the generator 2 · The output 12 of the generator 2 is connected to the input 21 of the sensor 2 ^. The sampling output 22 of the sensor 2 is connected to the sampling input 41 of the receiver 4. The standard output 23 of the sensor 2 is connected to the standard input 42 of the receiver. The antenna terminal 24 of the sensor 2 is connected to the external antenna 2. The sampling output 43 of the receiver 5 is connected to the sampling input 51 of the amplifier 5. The standard output 44 of the receiver 6 is connected to the standard input 52 of the amplifier 2. The standard output 54 of the amplifier 5 is coupled to the standard input 62 of the frequency integrator 2 and to the standard input 72 of the recording and signaling apparatus T.

The monitor can operate in the following modes:

Direct measurement of the bioactivity of the sample in the cuvette, direct measurement of the bioactivity of the virus in the organism, measurement of the interaction between the sample and the standard sample, detection of the interaction of the sample and the drug, approx. 29 MHz to attenuate the bioactivity of viruses.

By directly measuring the bioactivity of the virus in the cuvette, it is determined whether there is a virus present in the sample to be examined in the comparison cuvette. In this measurement, the generator 2 and the external antenna 2 are disabled. The sample to be examined is placed in a comparison cuvette. The standard cuvette is empty. If the virus is present in the sample under investigation, the internal antenna senses its bioactivity in the comparison cuvette. The signal corresponding to bioactivity passes through the sampling output 22 of the sensor 2 to the sampling input 41 of the receiver 4. ·

In the receiver 6, the signal is adjusted and passed to the sampling input 51 of the amplifier 2. ^{In the} amplifier 2 ^{, the} signal is adjusted to a measurable level and passed amplified to the sampling input 61 of the frequency integrator 2 and to the sampling input 71 of the recording and signaling device. records. The amount of viruses can be judged by the amplitude of the signal and the type of viruses by the frequency. If viruses are not present in the measured sample, then the internal antenna does not send a signal.

For direct measurement of the bioactivity of the virus in the body, the external antenna 2 is connected to the antenna terminal 24 of the sensor 2. The generator 2 is not operating. Of the activities are also excluded in the sensor internal antenna 2. The antenna terminal 24 of the sensor ³ and 2 in this measurement an internal configuration associated with the sampling outlet 22 of sensor 2. The external antenna 2 ^is applied to the site of the human or animal organism where the presence of viruses is suspected. If viruses are present at this location, it generates an electromagnetic field in the high frequency range. The more viruses are present in the deposit, the higher their bioenergy activity. The external antenna 2 senses both the intensity of bioenergy activity and its spectrum. The spectrum varies according to the type of virus. The signals from the external antenna 2 arrive via the antenna terminal 24 of the sensor 2 at its sampling output 22 and proceed as before.

When measuring the interaction between the sample to be examined and the standard sample, it is ascertained whether there are viruses in the sample and of what type, or whether there are antibodies in the sample or whether there are no viruses or antibodies in the sample. In this measurement, the generator 2 and the external antenna 2 are disabled. A sample of interest is placed in a comparison cell in sensor 2 and a sample of a known virus is inserted in a standard cell. Both cells are separated and electromagnetically shielded. In this state, the bioenergetic activity of both the sample and the known virus is measured. The electromagnetic shielding is then removed and the two cuvettes are brought close together by the contact of the two cuvettes. After 15 seconds, the bioenergetic activity of the sample and the standard virus is measured again. If the sample is identical to the standard sample, the bioactivity of both samples will increase with respect to the electromagnetic resonance of the signals of both samples. If they're in rehearsal

Only the antibodies and viruses are not present in the sample, then the bioenergetic activity of the standard sample decreases. If neither the antibodies nor the viruses are in the sample, then the bioenergy activity of the standard sample does not change. The signals corresponding to the bioenergetic activity of the sample under test pass through the respective sampling outputs and sampling inputs of the individual blocks. The signals corresponding to the bioenergy activity of the standard sample pass through the corresponding standard inputs and outputs of the respective blocks.

To determine how the drug acts on the test sample, both the external antenna 2 and the generator 2 are disabled. The test sample is inserted into the comparison cuvette and the drug is inserted into the standard cuvette. Both cells are separated and electromagnetically shielded. In this state, the bioenergetic activity of the sample is measured. The electromagnetic shielding is then removed and the two cuvettes approach each other. After about 15 seconds, the bioenergetic activity of the sample is measured. If the bioelectric activity of the test sample decreases when the two cells are brought closer together, the drug is effective for the test sample. If the bioenergy activity of the test sample does not change after interaction with the drug, the drug is ineffective.

To investigate the effects of electromagnetic waves at a frequency of about 67 MHz on increasing or decreasing the bioenergetic activity of the sample, standard sample or viruses in the organism, a generator 2 is active. , with the switch not shown in the drawing, switches the generator output 12 and sensor input 21 either to the internal antenna of the sample cell or to the internal antenna of the sample cell or to the external antenna 2, which is at a site where the presence or presence of viruses in the body is suspected. First, the bioactivity of the sample or organism is determined before the generator 2 is turned on, ^and then the bioactivity is measured after 15 to 30 seconds of electromagnetic waves. The comparative values determine whether the electromagnetic field has a positive or negative effect on viruses and antibodies.

When overriding bioenergetic activity of viruses is in operation ^and the generator 2 is also operated either with internal antenna comparative cuvette, or the external antenna 2 when exposed to viruses in the organism. In this case, the measurement before the generator 2 ^and P ° operation is indicative. The generator 2 transmits signals which are transmitted to an appropriate antenna which emits electromagnetic waves at a frequency of about 29 MHz. If the frequency affects the virus for up to 15 seconds, there will be a transient attenuation of the bioenergy activity of the viruses. Their bioenergy activity resumes after a few minutes. If the treatment lasts longer than 3 minutes, the structure of the viruses is destroyed and their bioenergetic activity decreases. This decline is permanent. At this frequency, the bioenergy activity of gamaglobulin and other antibodies is not impaired.

The invention will be used in healthcare for both diagnosis and therapy in both fixed and mobile healthcare facilities.

Claims (3)

Wiring of a virus bioenergy activity monitor, characterized in that the sampling input (51) of the amplifier (5) is connected to the sampling output (43) of the receiver (4), whose sampling input (41) is connected to the sampling output (22) of the sensor (2), whose standard output (23) is coupled to the standard input (42) of the receiver (4), whose standard output (44) is coupled to the standard input (52) of the amplifier (5), whose sampling output (53) is coupled a sampling input (61) of the frequency integrator (6) and a sampling input (71) of the recording and signaling device (7), the standard input (72) of which is coupled to the standard input (62) of the frequency integrator (6) and CS 273659 B1 4 with a standard output (54) of an amplifier (5), the sensor (2) having an antenna terminal (24) and an input (21). Wiring according to claim 1, characterized in that the input (21) of the sensor (2) is connected to the output (12) of the generator (1), whose input (11) is connected to the power input (01) of the wiring. Connection according to claim 1, characterized in that the antenna terminal (24) of the sensor (2) is connected to an external antenna (3).