UA124606U - ADAPTIVE REOPLETISMOGRAPHY THERAPY SYSTEM - Google Patents

Abstract

Adaptive Reoplethysmograph Therapy System contains a series-connected high frequency current generator, electrode system, high frequency amplifier, detector and integrator, control units, comparison, sound and light alarm and temperature meter, high frequency current generator executed control, output dependent control which is inversely proportional to the magnitude of the control signal, and the input of the control of the generator of high frequency current is connected to the output of the integrator whose input is connected to the output m of the detector, and the control unit is connected to the control generator of current, units of comparison and sound and light alarm, as well as to the temperature meter, which is connected to the second input of the unit of comparison, and the output of this block is connected to the block of sound and light signaling device which is connected to the output of the detector and has a system of ultrasound therapy as part of an electronic unit of ultrasonic therapy connected to an ultrasonic emitter, and the control unit is connected to the electronic unit of ultrasonic therapy. Additionally contains a laser therapy system in the laser power supply unit and linear laser emitters that are connected to the laser power supply unit, the control unit is connected to the laser power supply unit.

Description

The useful model belongs to medical technology and can be used in physiotherapy and functional diagnostics for rheographic studies.

The closest technical solution to what is claimed is a combined rheoplatysmograph (Patent for a useful model Mo 90189, МИК АбИ1В 5/0295, АБИМ 2/00

Combined rheoplethysmograph /M.F. Tereshchenko, A.G. Mysyura, O.V. Tereshchenko. Bul. Mo 9, published on 12.05.2014), containing series-connected high-frequency current generator, electrode system, high-frequency amplifier, detector and integrator, control units, comparison, sound and light signaling and temperature meter, high-frequency current generator made by the controller , the dependence of the value of the output signal is inversely proportional to the value of the control signal, and the control input of the high-frequency current generator is connected to the output of the integrator, the input of which is connected to the output of the detector, and the control unit is connected to the control current generator, comparison units, and sound and light alarm, as well as with a temperature meter, which is connected to the second input of the comparison unit, and the output of this unit is connected to the sound and light alarm unit, which is connected to the output of the detector, and it additionally contains an ultrasound therapy system as part of an electronic block of ultrasound therapy, connected to the ultrasound probe exchanger, while the control unit is connected to the electronic unit of ultrasound therapy.

The disadvantage of this technical solution is limited functionality and the inability to take into account the dependence of the values of the measured impedance parameters of parts of the biological tissue on the real conditions of the influence of external factors.

Thus, under the influence of external factors, changes in the parameters of physical fields (electromagnetic, magnetic, optical-laser) on the same part of biological tissue and other measurement conditions remaining unchanged, the impedance parameters will be different.

The task of this useful model is the formation of an adaptive system of therapy with increased accuracy of impedance determination during rheographic measurements in real conditions of the influence of external factors and expansion of functional capabilities, through the combined action of both ultrasound and optical-laser radiation before and during measurement, which increases the objective assessment of the state of biological tissue or organ and elimination of the influence of external and

From hardware obstacles and provides control over the flow of physiotherapeutic procedures.

The task is solved by additional introduction of the laser therapy system as part of the laser power supply unit connected to the linear laser emitter, and the control unit is connected to the laser power supply unit.

An adaptive therapy system with a rheoplethysmograph, containing a series-connected high-frequency current generator, an electrode system, a high-frequency amplifier, a detector and an integrator, control units, comparison, sound and light alarms and a temperature meter, a high-frequency current generator made by the controller, the dependence of the magnitude the output signal of which is inversely proportional to the value of the control signal, and the control input of the high-frequency current generator is connected to the output of the integrator, the input of which is connected to the output of the detector, and the control unit is connected to the control current generator, comparison units, and sound and light signaling, as well as with a temperature meter, which is connected to the second input of the comparison unit, and the output of this unit is connected to the sound and light signaling unit, which is connected to the detector output and has an ultrasound therapy system as part of an electronic ultrasound therapy unit connected to ultrasonic emitter, and the control unit is connected to the electronic unit of ultrasound therapy, while additionally having a laser therapy system consisting of a laser power supply unit and linear laser emitters, which are connected to the laser power supply unit, and the control unit is connected to the laser power supply unit.

An adaptive system of therapy with a rheoplethysmograph can work as a therapeutic system with ultrasound and laser effects on biological tissues and with the full range of changes in the physiological value of impedance, ensures stability and reliability of the measurement, takes into account the influence of external factors of the object of research through the action of ultrasound or laser radiation and their combined action before and during the measurement, which increases the objective assessment of the state of the biological tissue or organ and the elimination of uncharacteristic factors of the influence of external and hardware interference, due to the introduction of additional units of the laser therapy system.

On the chair. block diagram of an adaptive therapy system with a rheoplethysmograph is shown, where 1 is a control current generator (CGE), 2 is a system of electrodes (CE), C is a high-frequency amplifier (HFA), 4 is a detector (D), 5 is an integrator (I) , 6 - control unit (BC), 7 - body temperature meter (BT), 8 - comparison unit (BP), 9 - sound and light alarm unit (BZSS), 10 - electronic unit of ultrasound therapy (EB UZT), 11 - ultrasonic emitter (UZV), 12 - laser power supply unit (BZHL), 13 - line of laser emitters (LLV). The electronic unit 10 of ultrasound therapy (EB UZT) and ultrasound 11 emitters (UZV) form an ultrasound therapy system (USZT). The laser power unit 12 (BZHL) and the line 13 of laser emitters (LLV) represent a system of laser therapy (SLT).

The adaptive system of therapy with a rheoplethysmograph works as follows.

The control unit sends a signal to start the impedance and temperature measurement process.

The change in the electrical resistance of the biological object connected to the electrode system 2 modulates the amplitude of the high-frequency signal from the control high-frequency current generator 1. The signal is then amplified by the high-frequency amplifier C and detected by the detector 4. This signal is the output signal of the rheoplethysmograph, which is proportional to the value of the measured impedance and is displayed on the BZSS indicators. The feedback circuit is formed by the integrator 5 and the control high-frequency current generator 1. The output signal is integrated with the time constant t and enters the input of the control high-frequency current generator. The current value of the high-frequency control current generator is inversely proportional to the control signal.

As a result of the feedback action, the high-frequency current value provides compensation for high-frequency bending voltage signals on the electrode system 2. The compensation will be greater, the longer the period of the bending signal exceeds the time constant t of the integrator 5.

Bending signals with a shorter period of constant time will be amplified and, after detection, form the output signal of the rheoplethysmograph, which is proportional to the value of the measured impedance and is output to the BZSS indicators. At the same time, the signal from the temperature meter 7 is proportional to the value of the current temperature t and enters the comparison block 8, where it is compared with the sample value at a temperature of 20 "C. When they differ, a correction signal is sent from the control block to the BZSS block 9, which determines the actual value of the measured impedance , in which the temperature component of the measurement error is eliminated.The total resistance of a biological object is a function of temperature.

The first stage measures the value of the reoplerismogram without the influence of an external factor.

The second stage measures the value of the reoplerismogram during the action of ultrasound, by sending a command from the control unit b to the electronic unit of ultrasound therapy 10, and from it to

From the ultrasonic emitter 11, which emits ultrasonic vibrations in the zone of the measured part of the biological tissue. Then these values are compared and when they differ, the average value of the rheoplethysmogram is chosen. In this way, the effect of an external factor is taken into account and the effectiveness of ultrasound therapy in treatment with effective rheographic control is evaluated.

The next step is to measure the value of the reoplerismogram during the action of laser radiation, by sending a command from the control unit 6 to the laser power supply unit 12, and from it to the line of laser emitters 13, which generates laser radiation to the area of the measured part of the biological tissue. Then these values are compared and when they differ, the average value of the rheoplethysmogram is chosen. In this way, the effect of an external factor is taken into account and the effectiveness of laser therapy in treatment with effective rheographic control is evaluated.

A combined combination of simultaneous action of both ultrasound and laser irradiation of the rheographic control and measurement zone is possible.

In this way, the formation of an adaptive system of therapy with increased accuracy of impedance determination during rheographic measurements in real conditions of the influence of external factors and expansion of functional capabilities is ensured by the combined action of both ultrasound and optical-laser radiation before and during the measurement, which increases the objective assessment of the state of biological tissue or organ and elimination of the influence of external and hardware obstacles and provides control over the course of physiotherapeutic procedures. And in rheoplethysmographic measurements, a significant increase in the accuracy of the measured rheograph signal is achieved, due to the reduction of the component error due to the action of external factors and the objective assessment of the effectiveness of physiotherapeutic procedures.

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Claims (1)

USEFUL MODEL FORMULA An adaptive therapy system with a rheoplethysmograph containing a series-connected high-frequency current generator, an electrode system, a high-frequency amplifier, a detector and an integrator, control units, comparators, sound and light alarms and a temperature meter, the high-frequency current generator is made by the controller , the dependence of the value of the output signal is inversely proportional to the value of the control signal, and the control input of the high-frequency current generator is connected to the output of the integrator, the input of which is connected to the output of the detector, and the control unit is connected to the control current generator, comparison units, and sound and light alarm and also with a temperature meter, which is connected to the second input of the comparison unit, and the output of this unit is connected to the sound and light alarm unit, which is connected to the output of the detector and has an ultrasound therapy system as part of an electronic ultrasound therapy unit, connected with ultra sound emitter, and the control unit is connected to the electronic unit of ultrasound therapy, which is characterized by the fact that it additionally has a laser therapy system consisting of a laser power supply unit and linear laser emitters, which are connected to the laser power supply unit, and the control unit is connected to the laser power supply unit.