RU2005460C1 - Device for diagnosis by biologically active points - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: portable device for measuring resistance of patient's skin portions for plurality of biologically active points and processing measurement results for detecting asymmetry of biologically active points in central nervous system, storing measurement results and recording them read-only storage for statically and analytically processing of measurement data is characterized by the use of a control unit including clock generator clocking microprocessor and all the ports of the portable device through frequency divider connected in parallel to it through address, data and control buses by drivers for transmitting address, data and control signals to external bus, read-only storage comprising system and application programs, serial port for connecting to cassette-type magnetic tape store, parallel port for connecting to key-board, control unit on-line storage, on-line storage for display in which together with microprocessor a display control circuit operates and which is connected to the display, decoder for performing selection of the all said devices of the control unit, parallel connected through external address, data and control buses to the control unit memory unit including memory microcircuit selectable by the decoder and having a circuit for battery preservation of information at switching off mains power supply, and measuring unit including a two-port on-line storage into which information from analogue-digital converter is cyclically written and information measured by analogue-digital converter through serially connected measuring sensors, switching unit, optronic converters and matching amplifiers is read by the control unit. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to medical equipment and is intended for the diagnosis of diseases and conditions of the body by electrophysiological studies of biologically active points.

 The closest in technical essence to the claimed is a device for automated analysis of reencephalograms, selected as a prototype. This device contains a series-connected sensor, a threshold element and a control unit, as well as an analog-to-digital converter, the first input of which is connected to the sensor input, and an indicator in which the accumulating adder and the area analysis unit are connected in series, the first, second, third and the fourth outputs of the control unit are connected respectively to the second input of the analog-to-digital converter, to the first input of the counter, to the second input of the comparison element and to the second input of the counter, the first input is analog an og-digital converter is connected to the first input of the accumulating adder and to the third input of the comparison element, the second output to the second inputs of the accumulating adder and control unit, the output of the comparison element is connected to the third inputs of the accumulating adder and indication unit, the second input of which is connected to the output of the analysis unit area.

 The prototype has a number of significant drawbacks: it does not allow you to connect more electrodes for measurement, it does not allow you to process your measurements according to a predetermined algorithm, it does not allow you to measure the resistance of a part of the human body, it does not contain a unit that allows you to perform measurements at a given time interval, this device is not portable allows you to keep statistics on measurements based on patient data.

 The aim of the invention is the creation of a portable device that measures the resistance of human skin for a large number of biologically active points, processes the measurement results to detect the asymmetry of biologically active points in the central nervous system, stores the measurement results, writes to a permanent memory for static and analytical data processing measurements.

 The drawing shows a structural electrical diagram of the device.

 A device for diagnosing biologically active points contains a microprocessor unit 1, a battery unit 2 memory, unit 3 measurements, unit 4 power. The microprocessor unit 1 contains a clock generator 5, a microprocessor 6, a read-only memory 7, a frequency divider 8, a serial port 9 to a tape drive on a magnetic tape, buffer amplifiers - address shapers 10, service register 11, buffer amplifiers - data shapers 12, parallel port 13, buffer amplifiers - shapers 14, random access memory 15, 16, a control circuit 17 with a display connected to each other, a cassette drive 18 on a magnetic tape connected to the serial mu port 9, the keyboard 19 is connected to the parallel port 13, display 20 is connected to the control circuit 17. The power supply 4 serves to power the digital circuits through the stabilizer 21, the analog-to-digital converter through the stabilizers 22 and 23, the sensor circuits through the stabilizer 24. All power circuits in the power supply 4 are made with double galvanic isolation in order to ensure complete safety of the patient. The memory unit 2 serves to store the results of the application program and save this information when the device is turned off from the network. It contains a decoder 25, which connects the corresponding memory chips 26 through the battery connection circuit 28 to the battery 28, through the buffer amplifiers - shapers 29, the memory unit 2 is connected to the unit 1 by the measurement unit 3.

 Using the logic circuit 30 in the measurement unit 3, data is cyclically read into a random access memory (RAM 31 from an analog-to-digital converter (ADC) 32. RAM 31 is selected using a decoder 33 using a microprocessor unit 1, while the ADC 32 only works for writing RAM 31, and block 1 - only for reading RAM 31. The ADC 32 also receives a signal from the block 35 of the key elements of the switching unit connected to the outputs of the matching amplifiers 35-59, and the ADC 32 is connected to the RAM 31 through the galvanic isolation unit, flashed on optocouplers 60-83. Dip switches 84-107 switch the corresponding electrodes 108-155 of monopolar and bipolar measurement installed on measurement object 156 (human). Generator 5 serves to clock microprocessor 6 and through frequency divider 8, serial port 9 and circuit devices 30 in the measurement unit 3. The microprocessor 6 operates according to the program recorded in the read-only memory 7 containing system and application programs; all operational variable information is contained in the operational memory ayuschem device 16. The system program is a program - a monitor that allows you to use apparaturnymy means of this device, regardless of the destination machine. The application program defines the main function of the device as an apparatus for acupuncture diagnostics at biologically active points. The application program allows you to find the arithmetic mean of the sensors, plot the measurement, plot the “physiological corridor” on the grid, draw the Ryodoraku graph, determine the asymmetry in each pair of “left-right” indicating the side of the accent, determine the asymmetry by the sum of the indicators left and right with indicating the emphasis side, determine the arithmetic mean of the asymmetry for one pair, select the group by age, gender, diagnosis, interval, time of day in which the study was conducted, inter alu date of the study, the ordinal number of studies, special notes, the position of the electrodes, compare the performance of the same test, repeated studies to print lists of research groups with digital and graphic performance scales to find statistically significant differences in digital and graphic images between indicators of research groups. Recording the results of the application program can be carried out in a magnetic tape cassette drive 18 through the serial port 9 or into the battery memory 2 through the drivers (amplifiers-shapers) 10, 12 and 14. The operator-machine dialogue is through the keyboard 19 connected to the parallel port 13 and a display 20, which operates with a display control circuit 17 and a random access memory 15, to which information for display is recorded by the microprocessor 6. (56) Collection. Theory and practice of reflexology. Biomedical and physical-technical aspects. Ed. Saratov University, 1981, p. 233.

Claims (1)

 DEVICE FOR DIAGNOSTICS BY BIOLOGICALLY ACTIVE POINTS, containing an electrode system, through a switching unit connected to a measuring unit including an analog-to-digital converter, a power supply unit and a microprocessor unit, characterized in that a battery memory unit is inserted into it, and the electrode system includes includes bipolar measurement electrodes and monopolar measurement electrodes, the switching unit includes on-off switches, the number of which is equal to the number of certain electrodes, and to one one of the movable contacts of each of the switches is connected to the corresponding bipolar measurement electrode, and to the other is the corresponding electrode of monopolar measurement, and the fixed contacts of the switches are connected via outputs to the outputs of the key element block, the output of which is the output of the switching unit, the measurement unit also contains random access memory, which through the galvanic isolation unit, and the decoder and the electronic circuit are directly connected to the first, second and the four inputs of the analog-to-digital converter, respectively, the fourth input of which is the first input of the measuring unit, the second, third, fourth and fifth inputs of which are connected respectively to the fifth input of the analog-digital converter, the input of the decoder, the first input of random access memory, the second input of which is connected to the second output of the decoder, and the output with the output of the measurement unit, and to the input of the electronic circuit, moreover, the microprocessor unit includes a clock pulse generator, through the micro a processor connected to a read-only memory containing system and application programs, a serial port connected to a magnetic storage device, buffer amplifiers-address generators, the output of which is the first output of the unit, with a service register with buffer amplifiers-data generators, the input of which is the input of the unit with a parallel port, the input of which is connected to the keyboard, with buffer amplifiers-drivers of control signals, the second input of which is connected through a frequency divider s to the clock generator, and the output is the second output of the block with the first and second random access memory, one of which is connected to the display via the display control circuit, and with a decoder, while the battery memory unit includes a memory chip block, the output through the circuit connected to the battery of the batteries, and the first, second and third inputs, respectively, through a decoder with the first and second inputs of the unit, directly - with the second input-output of the unit and through buffer amplifiers-form ovateli - a third input-output unit, the input-outputs and inputs of the battery storage unit are connected through corresponding buses to a microprocessor unit and a measurement unit.