SU1456161A1 - Apparatus for respiration with hypoxia mixtures - Google Patents

Abstract

The invention relates to medical technology, in particular to devices for breathing hypoxic mixtures, intended for radiation therapy in oncological diseases. The purpose of the invention is to maintain the composition of the hypoxic mixture when changing the mode and volume of ventilation. This is ensured by supplying a device made in the form of a closed reversing circuit, a control unit with a concentration unit, controlling the signal from the gas analyzer to inject atmospheric air into the expiratory line and suction of the hypoxic mixture from the inspiratory line using blowers that work from a common drive with different performance set by throttle located in the suction line of the blower, depending on the oxygen consumption of the patient's body during breathing. The invention improves the accuracy of maintaining a given oxygen concentration in a hypoxic breathing mixture and extends the range of set values of oxygen concentration in the mixture (including below 10%). 1 il. with (L d

Description

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 The invention relates to medical technology, in particular to devices for breathing hypoxic mixtures and can be used in radiation therapy for cancer, as well as in the treatment of various diseases of the respiratory system.

The chain of the invention is to maintain the composition of the hypoxic mixture when the ventilation parameters change.

The drawing shows a block diagram of the device.

The device contains a line 1 breath with valve 2 breath and gas analyzer /

 rum 3 to oxygen (for example, with an electron ical measuring transducer), line 4 outputs with an exhalation valve 5 and an adsorber 6, a connecting element 7 (for example, a mouthpiece) and a sealed elastic container 8 (fur), connecting hot lines

1 and 4.

With lines 4 and 1 pneumatically connected, the discharge line 9 of the injection unit 10 of the injection unit and the suction line 11 of the suction unit 12, respectively. In line 11 of the suction unit 12 is set variable pneumatic

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choke 13, which serves for a relative change in the performance of blocks 10 and 12 and has a scale calibrated in terms of oxygen consumption by the patient's body. The electrical output of the gas analyzer 3 is connected to the input of the control unit 1A, to the second input of which

ten

15

control unit 15 is connected, and a common drive 16 of blocks 10 and 12 is connected to the output.

The gas analyzer 3 converts the oxygen concentration in the gas mixture into an electrical signal used to indicate and control the composition of the breathing gas, and contains a sensitive transducer, such as an electrochemical oxygen-measuring transducer and a recorder, such as a digital voltmeter. The main element of the sensitive converter of the gas analyzer 3 is a galvanic (fuel) cell using the complete electrical regeneration of oxygen. In this case, the current of the electrode reaction in the electrolyte is a measure of the oxygen content in

gas mixture.

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The units of injection 10 and suction 12 in the form of blowers serve respectively for supplying atmospheric air to the breathing circuit and removing from it a hypoxic breathing mixture, ensuring the maintenance of a given composition of the mixture. Each of the blocks 10 and 12 is made, for example, in the form of two paired membrane microcompressors, manufactured by industry, connected in parallel, and their vibrodrives are connected in parallel to a common actuator 16 connected to the output of the control unit 14 .45

The control unit 14 serves to generate an electrical signal proportional to the oxygen concentration in the breathing mixture and includes a common drive 16 of the blocks 10 and 12 50 when the oxygen concentration reaches the value set at the setting unit 15.

The control unit 14 comprises a series-connected differential amplifier, a comparator and an actuating element.

Differential DC amplifier provides power

1456161

The signal level from the gas analyzer 3, proportional to the value of the oxygen concentration in the mixture, is made on the basis of an operational amplifier switched on according to the inverter circuit. The gain is determined by two resistors, one of which eliminates the influence of the input bias current.

The comparator provides a comparison of the signal from the amplifier with the signal from the setting device 15 (threshold) and is made on the basis of an operational amplifier connected in the comparator circuit with positive feedback. In this case, one (inverting) input of the amplifier is connected to the output of the amplifier, and the other is connected to the output of the setpoint generator 15.

The actuator, which provides the signal from the comparator to switch the output signal of the control unit 14 and supply voltage to the common drive 16, is made, for example, on transistors, a diode and a voltage divider on three resistors.

Unit 15 serves to set the selected value of the oxygen concentration in the hypoxic breathing mixture and is designed as a reference voltage source, built on a potentiometer, a resistor and two zener diodes.

The power supply of the operational amplifiers and the setting device is supplied from a stabilized voltage source of ± 15 V.

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The device works as follows.

On the setpoint scale 15, the required oxygen concentration in the breathing mix is set, and on the throttle scale 13, the oxygen consumption value previously measured for this patient.

For a treatment session, the patient’s airway is connected to the mouthpiece 7. At the same time, gas exhaled from the lungs passes through line 4 through valve 5 to the adsorber 6, where carbon dioxide is absorbed and then into elastic container 8. When you inhale the gas from tank 8 through line I through the concentration converter gas analyzer 3 and the inhalation valve 2 enters the patient's lungs.

The device works as follows.

On the setpoint scale 15, the required oxygen concentration in the breathing mix is set, and on the throttle scale 13, the oxygen consumption value previously measured for this patient.

For a treatment session, the patient’s airway is connected to the mouthpiece 7. At the same time, gas exhaled from the lungs passes through line 4 through valve 5 to the adsorber 6, where carbon dioxide is absorbed and then into elastic container 8. When you inhale the gas from tank 8 through line I through the concentration converter gas analyzer 3 and the inhalation valve 2 enters the patient's lungs.

In the process of breathing, the capacitance 8, which is elastic, changes its volume in time with the breathing, stretching upon exiting and compressing upon entering, whereby the resistance to breathing does not change. At the same time, the total volume of gas in a closed breathing circuit (including a gas seal tank 8) decreases with breathing due to a decrease in the amount of oxygen associated with its consumption by the patient’s body and absorption of exhaled carbon dioxide in the adsorber 6. This decrease in oxygen concentration in a closed loop occurs constantly. until the signal from the amplifier becomes equal to the threshold signal set by the driver

15.

The gas analyzer 3 measures the oxygen concentration, converting the concentration value into proportional electrical signals. Proportional to the concentration of oxygen in the breathing circuit, the electrical signal at the output of the measuring transducer of gas analyzer 3 provides an indication of the concentration on the scale of its digital voltmeter and is fed to the input of control unit 14, where, amplified by a differential amplifier, is fed to the input of a comparator that compares it with a threshold value of the signal from the setting unit 15 concentrations.

When the value of the signal at the output of the amplifier is greater than the threshold value (voltage at the output of the setpoint generator 15, corresponding to the specified value of oxygen concentration), the signal at the output of the comparator (for example, +12 B) blocks the transistors of the actuator and at the output of the control unit 14 the voltage value

equals O.

In this case, the drive 16 and blocks 10 and 12 do not work.

When the oxygen concentration in the breathing circuit decreases during breathing, the value at which the output voltage of the amplifier becomes equal to the threshold value corresponding to the concentration value set on the sensor 15, the polarity of the signal at the output of the comparator changes (-12 V transistors). open at the exit

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The control unit 14 receives an electrical signal that turns on the common drive 16 of the blocks 10 and 12. At the same time, the block 10 pumps the atmospheric air into the breathing circuit (line 4), and the block 12 sucks the hypoxic mixture from the breath line 1. The capacity of the nagi-etak unit 10 exceeds the capacity of the ossygeania unit 12 by the amount of oxygen consumption by the patient's body. This value is preliminarily set by means of variable pneumatic throttles 13 by reducing the flow area of the suction line 11 of the unit 12.

Thus, after switching on the common drive 16, the achieved oxygen concentration is continuously maintained at a predetermined level, since the amount of oxygen output by suction unit 12 from the breathing circuit (taking into account its consumption by the patient's body) is equal to the amount of oxygen supplied to the circuit with atmospheric air by unit 10 pumping. At the same time, the accuracy of maintaining the oxygen concentration does not depend on the patient's minute ventilation and is determined only by the sensitivity of the concentration analyzer of the gas analyzer 3, and the volume of the elastic tank 8 after switching on the drive 16 is kept at the level reached for a given concentration value (the volume of the tank varies in proportion to breathing middle position), which ensures the stability of the value of the resistance to breathing and its compliance with the permissible level.

The use of the device allows 45 to increase the efficiency of radiation tertiary therapy while ensuring patient safety during the hypoxia breathing process. mixtures with the minimum permissible oxygen concentration.

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Claims (1)

Invention Formula A hypoxic breathing device for breathing, containing a connecting element, an inlet line with an inhalation valve and a gas analyzer, an exhalation line with an exhalation valve and an adsorber, both of which are connected to 7 Capacities, characterized in that, in order to maintain the composition of the hypoxic mixture when the ventilation parameters change, it is equipped with an oxygen concentration sensor, discharge and suction units and a control unit, the first input of which is connected to the gas analyzer output, the second input is connected to the output / rm jLJJ 1618 unit of oxygen concentration, and the output is connected to the drive, guided by one output through the injection unit, not with the expiratory line, and the other output through the series-connected suction unit and pneumatic choke, with the inspiration line, while the container is made elastic and airtight, jLJJ and