RU2543293C2 - Individual's physiological parameters control device - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine and medical equipment, and can be used for an individual's physiological parameters control and correction. An individual's physiological parameters control device comprises a physiological parameters control sensor unit, a physiological parameters measurement unit, a control unit presented in the form of a multi-channel signal processor, a display and a memory unit. The physiological parameters control sensor unit is connected to an input of the physiological parameters measurement unit. The device is additionally provided with a therapeutic intervention unit, a physiological parameters control type selection box, a physiological parameters standard value unit, a patient's information data unit, and a measured physiological parameters analysis unit.

EFFECT: using the invention enables improving the accuracy of the individual's physiological parameters control.

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Description

The invention relates to the field of medicine and medical equipment and can be used to control and adjust the physiological parameters of a person, such as biochemical parameters of blood and urine, the state of the cardiovascular, autonomic system, etc.

A device for monitoring and controlling physiological parameters of a person, comprising a computer with a program for automatic processing of medical data, a control board, a pairing unit, syringe dispensers for entering an anesthetic relaxant, antipsychotic and hypnotic and a registration unit (patent for PM No. 88963 according to class A61M 19 / 00 dated 11/27/2009).

This device has limited control over physiological parameters, as it is intended for conducting only during surgical interventions in intensive care units.

It is also known a device for monitoring and adjusting the physiological parameters of a person, which is essentially a device for diagnosis and treatment, which contains a diagnostic unit, a block of wave characteristics, a therapeutic effect unit, a data acquisition and transmission unit (RF patent No. 2130765 according to class A61H 39 / 00 dated May 27, 1999).

This device provides work in several modes, while ensuring the expansion of functionality due to diagnostics and selection of direct impact.

The disadvantage of this device is the relatively low functionality and accuracy of control of physiological parameters of a person. In addition, it does not allow to individualize and independently control, taking into account the individual characteristics of a particular organism.

Diagnostic complexes “Lotus” and “Omega-Home” are known for diagnostic purposes based on a neurodynamic analysis of heart rate variability.

The Remeg diagnostic complex is also known TU U 33.1-012035573.001-2002, which allows a general assessment of the state of the human body and the selection of biologically active points for the correction of revealed functional disorders.

The Lira-100 diagnostic complex is also known, which allows measurements to be made in the form of graphs and to automatically obtain conclusions from the measurement results.

The disadvantage of the above diagnostic complexes is their lack of functionality due to the use of a limited type of elements for the analysis of physiological parameters, the relatively low accuracy of parameter control and the individualization of the therapeutic effect on the body.

The closest technical solution for the combination of essential features is a device for monitoring physiological parameters, containing sensors for measuring physiological parameters, a unit for measuring physiological parameters and a control unit in the form of a multi-channel signal processing processor, a display and a memory unit (utility model patent No. 104436, class. АВВ 5/00 dated 05/20/2011).

The disadvantage of this device is the limited functionality and relatively low accuracy of measuring the parameters of cardiac activity, the inability to assess the patient’s condition based on complaints and the individual patient’s condition.

The problem to which the claimed invention is directed, is to expand the functionality of the device, increasing the efficiency and accuracy of monitoring the physiological parameters of a person.

The problem is solved due to the fact that the device for monitoring the physiological parameters of a person, containing a block of sensors for monitoring physiological parameters, a block for measuring physiological parameters, a control unit in the form of a multi-channel signal processing processor, a display and a memory unit, while the block of sensors for monitoring physiological parameters is connected to the input of the unit for measuring physiological parameters, is equipped with a unit of therapeutic effect, a unit for selecting the type of control of physiological parameters, a unit reference values of physiological parameters, a patient information block, an analysis block of measured physiological parameters, one output of the physiological parameter control type selection block being connected to an input of a physiological parameter monitoring sensor block, and another output to a first input of a multi-channel signal processing processor, another block input sensors for monitoring physiological parameters connected to the first output of a multi-channel signal processing processor, the output of the physiological measurement unit their parameters are connected to the input of the physiological parameters analysis unit, the other input of the physiological parameters measurement unit is connected to the second input of the multi-channel signal processing processor, the other input of the physiological parameters analysis unit is connected to the output of the reference values unit, the third input of the analysis unit is connected to the third input of the multi-channel signal processing processor , the input of the block of reference values - with the fourth output of a multi-channel processor signal processing, the fifth output of a multi-channel processor and the signal processing is connected to the input of the therapeutic effect unit, the output of which is connected to the fifth input of the multi-channel signal processing processor, the input of the patient information data block is connected to the output of the physiological parameters control type selection block, and the output is connected to the fourth input of the multi-channel signal processing processor, the input of the memory unit connected to the seventh output of the multi-channel signal processor, the sixth output of which is connected to the display.

The device comprises a unit for selecting the type of control of physiological parameters 1, sensors for monitoring physiological parameters 2, a unit for measuring physiological parameters 3, a unit for information about the patient 4, a multi-channel signal processor 5, an unit for analyzing the measured physiological parameters 6, a unit for reference values of physiological parameters 7, a unit therapeutic effect 8, a display 9 and a memory unit 10, while one output of the unit for selecting the type of control of physiological parameters is connected to the input of the block of control sensors I have physiological parameters, and the other output is with the first input of the multi-channel processor for signal processing, the other input of the sensor unit for monitoring physiological parameters is connected to the first output of the multi-channel processor for signal processing, the output of the unit for measuring physiological parameters is connected to the input of the unit for analyzing physiological parameters, another input for the unit for measuring physiological parameters connected to the second input of a multi-channel signal processor. The other input of the physiological parameters analysis unit is connected to the output of the reference value block, the third input of the analysis block is connected to the third input of the multi-channel signal processing processor, the input of the reference value block to the fourth output of the multi-channel signal processing processor, and the fifth output of the multi-channel signal processing processor is connected to the input of the therapeutic unit exposure, the output of which is connected to the fifth input of a multi-channel signal processing processor, the input of the patient information data block connected to the output of the unit for selecting the type of control of physiological parameters, and the output to the fourth input of the multi-channel signal processor, the input of the memory unit is connected to the seventh output of the multi-channel signal processor, the sixth output of which is connected to the display.

The control unit for the control of physiological parameters is made in the form of a switching unit that provides switching switching on the type of control of physiological parameters.

This device allows the inclusion of the following types of control: 1) “assessment of blood biochemical parameters”, 2) “assessment of the state of the cardiovascular system”, 3) “assessment of the condition based on complaints and the individual condition of the patient (gender, age, pain, sensitivity to loads, early diseases, heredity, etc.). ”

Assessment of blood biochemical parameters is carried out using photometric measurement of the reflection coefficient of blood read from the test strip.

Assessment of the state of the cardiovascular system is carried out by analyzing a pulse wave using a pulse wave sensor.

On the basis of complaints and the individual condition of the patient, an assessment of his condition is carried out using a data bank and recommendations.

The block of reference values is a memory block of the cardiovascular and autonomic vascular system in electronic form, while the values of these parameters are within the functional physiological delta.

The device operates as follows.

We describe the operation of the device using the example of assessing the state of the cardiovascular system.

When you turn on the power source (not shown conventionally on the block diagram) and the physiological parameters control selection block 1 in the position "assessment of the state of the cardiovascular system", the pulse wave sensor is connected to the physiological parameters measuring unit, the operation algorithm of which is set by a multi-channel microprocessor 5. By parameters pulse wave determined by the value of systolic and diastolic blood pressure, aortic valve closure, response of arterioles, response of capillaries, the end of the cardiocycle.

The signals of the pulse wave parameters are supplied to the analysis unit of the measured parameters 6. Signals from the block of reference signals are received in the same block. The values of the reference signals are within the functional physiological delta (physiological limits of norms).

The analyzed signals are sent to a multi-channel signal processor, which determines the necessary type of therapeutic effect with the supply of the corresponding signal to block 8, indicating the choice of the type of effect, element and mode of exposure.

When monitoring and adjusting the state of the cardiovascular system, the therapeutic effect is used by an electromagnetic field, coherent and non-coherent optical radiation, EHF and UHF radiation, a constant magnetic field and electrical stimulators, which allows not only monitoring, but also correction of physiological parameters. The parameters of these types of radiation are embedded in the memory block of a multi-channel signal processing processor.

This signal is fed to block 5, from the output of which the signal is sent to display 9, on which a picture is recorded showing the difference in physiological parameters before the therapeutic effect and after the therapeutic effect. The output of the same block 5 receives a signal in the memory block 10.

When evaluating the biochemical parameters of blood, a sensor is used in the form of a test strip inserted into the measuring unit, which records the change in biochemical parameters and their quantitative value.

When block 1 selects the position “assessment of biochemical parameters of blood”, the above-mentioned sensor is turned on with further transmission of the converted signal by analogy with the signal when evaluating the cardiovascular system and transferring it to the display and memory block, excluding the use of therapeutic block 8 and block 9 .

When assessing the state based on the patient’s complaints, block 1 is included in the “assessing the state based on complaints and individual state of the patient” position and, through the patient information block 4, data is entered into the patient block 5 (gender, age, and patient complaints).

The indicated data are displayed on display 10, which also displays recommendations for eliminating the causes of the patient's complaints.

This device can be used both by an individual user and in clinical settings.

The device allows you to monitor the results of therapeutic effects on the body in real time and, if necessary, adjust the treatment technique, achieving the fastest result. The device also allows automated assessment of the functional state of the body and the level of cellular immunity of a particular patient.

Claims (1)

A device for monitoring physiological parameters of a person, comprising a block of sensors for monitoring physiological parameters, a unit for measuring physiological parameters, a control unit in the form of a multi-channel signal processing processor, a display and a memory unit, wherein the block of sensors for monitoring physiological parameters is connected to the input of the unit for measuring physiological parameters, characterized in that it is equipped with a therapeutic effect unit, a unit for selecting the type of control of physiological parameters, a unit of reference values f of physiological parameters, a patient information block, an analysis of physiological parameters measured, one output of the physiological parameters control type selection block is connected to the input of the physiological parameters control sensors block, and the other output is the first input of the multi-channel signal processing processor, and the other input of the monitoring sensors block physiological parameters connected to the first output of a multi-channel processor signal processing, the output of the unit for measuring physiological parameters connected n with the input of the physiological parameters analysis unit, the other input of the physiological parameters measurement unit is connected to the second input of the multi-channel signal processing processor, the other input of the physiological parameters analysis unit is connected to the output of the reference values unit, the third input of the analysis unit is connected to the third input of the multi-channel signal processing processor, input block of reference values - with the fourth output of a multi-channel signal processor, the fifth output of a multi-channel signal processor connected to the input of the therapeutic effect unit, the output of which is connected to the fifth input of the multichannel signal processing processor, the input of the patient information data block is connected to the output of the physiological parameters control type selection unit, and the output is connected to the fourth input of the multichannel signal processing processor, the input of the memory unit is connected to the seventh the output of a multi-channel signal processor, the sixth output of which is connected to the display.

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