RU2316363C2 - Automatic external defibrillator device - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has means for producing defibrillation pulse having electric current source, capacitive electric energy storage, high voltage commutator, control unit and control system having patient electrophysical parameter control means and high voltage pulses control means and at least two therapeutic electrodes. The device also has means for compressing human body chest manufactured for instance as elastic cuff having a built-in ultrasonic radiator.

EFFECT: high reliability in delivering defibrillation pulse at given address.

5 cl, 1 dwg

Description

The invention relates to medicine and can be used for resuscitation and electropulse therapy of patients.

Known defibrillator [1], containing a power source, capacitor, diode, command device, first and second chokes, first, second, third and fourth switches, a voltage reference, a matching circuit, a driver, a resistor, a first comparator, therapeutic electrodes and a second comparator.

A disadvantage of the known device is the use of a comparator to set the energy of the defibrillation pulse, since with a low resistance of the patient's body close to the boundary value, the detection error doubles and, therefore, the patient has a real opportunity to get a defibrillation pulse twice that of the safe level.

The closest in technical essence and the achieved result is an automatic external defibrillator [2], the design of which is adopted as a prototype. The prototype device contains one storage capacitor having a first and second electrodes, a charging circuit connected to a storage capacitor and designed to charge a storage capacitor, an energy transfer circuit connected to a storage capacitor having a first output terminal and a second output terminal and configured to selectively electrical connection of the first and second electrodes of the storage capacitor with the first and second output terminal, and a control circuit connected to the circuit Charging and power transmission circuitry and configured to perform a charging circuit charging the storage capacitor to a predetermined level and when the storage capacitor is charged, the power transmission control circuit for connecting the capacitor electrodes to the output terminals.

The disadvantage of the prototype is that its design does not provide reproducible coordination of the value of the energy of the defibrillation pulse selected by the impedance of the patient’s body with the energy of the defibrillation pulse that actually affects the patient’s heart for a weighty continuum of real patients,

The objective of the present invention is to eliminate the possibility of sending a patient a defibrillation pulse that goes beyond the upper limit of the allowable energy values without reducing the effectiveness of the actual cardiac resuscitation procedure.

The technical result of the application of the present invention is to increase the targeting level of the delivery of the defibrillation pulse sent to the patient’s body.

The indicated technical result is achieved in that an automatic external defibrillator comprising a defibrillation pulse generating means consisting of an electric power source, a capacitive electric energy storage device, a high voltage switch, a control unit and a control system including means for monitoring the patient’s electrical characteristics and means for controlling the parameters of high voltage pulses, and at least two therapeutic electrodes further comprises compression means eating man in his chest, equipped with built-in power ultrasonic pulses.

It is advisable that the integrated source of ultrasonic pulses was made in the form of an ultrasonic emitter.

It is desirable that a magnetostrictive or piezoceramic element be used as an ultrasonic emitter.

It matters that the means of compressing the human body in the area of his chest is made in the form of an elastic cuff.

Preferably, channels are provided in the elastic cuff for supplying high voltage pulses to the therapeutic electrodes and for passing the interconnects of the monitoring system.

The above distinguishing features are necessary and sufficient to achieve the claimed technical result. From the prior art investigated by the author, the fame of technical solutions containing features equivalent to the distinguishing features of the present invention, which would determine the receipt (achievement) of the claimed or similar technical result, i.e. a result reflecting the solution of a long-known problem (the problem of fibrillation of the heart muscle) with the concomitant achievement of particularly good properties by an object of technology, which gives reason to assert that the claimed new technical solution meets the criterion of "inventive step".

The drawing schematically shows a cross section of the patient's body with a positioned automatic external defibrillator.

List of items

1. Means of forming a defibrillation pulse

2. Electrical power source

3. Capacitive storage of electrical energy

4. High voltage switch

5. The control unit

6. Means of monitoring the electrophysical characteristics of the patient

7. Means for controlling the parameters of high voltage pulses

8. The first therapeutic electrode

9. The second therapeutic electrode

10. The body of the patient

11. Elastic cuff

12. Elasticated cuff lock

13. The generator of ultrasonic pulses

14. Ultrasonic emitter

15. Heart

The automatic external defibrillator comprises a defibrillation pulse generating means 1, consisting of an electric power source 2, a capacitive storage of electric energy 3, a high-voltage switch 4, a control unit 5 and a control system including means for monitoring the electrophysical characteristics of the patient 6 and means for controlling the parameters of the high-voltage pulses 7, and at least two therapeutic electrodes 8 and 9, mounted on the patient’s body 10. In addition, the device includes a compress of the human body in the area of his chest, for example, made in the form of an elastic cuff 11, equipped with a lock 12. The ultrasonic pulse generator 13 is electrically connected to the built-in ultrasonic emitter 14, the solid angle of radiation of which is directed to the region of the heart 15.

Automatic external defibrillator works as follows.

On the patient’s body 10 in the chest area with an effort of 5-8 kg, an elastic cuff 11 is fixed by means of an elastic cuff lock 12. Before this operation, the first 8 and second 9 therapeutic electrodes, as well as an ultrasonic transducer, are installed on the elastic cuff 11 from the side of the patient’s body 10. 14. When you turn on the electric power source 3, the start of the operation of the means for forming the defibrillation pulse 1 is ensured. In the event that the means for monitoring the electrophysical characteristics of the patient 6 is automatically determined need effects on the heart 15 of the patient 10 defibrillating pulse, the control unit 5 calculates the parameters. At the same time, through the communication channel "A", made, for example, in the form of transceiver infrared ports, the control unit sets the operation mode of the ultrasonic pulse generator 13, which correlates with the parameters of the defibrillating pulse. After charging under control of the power supply unit 5 of the capacitive electric energy storage device 3 (essentially representing a high-voltage capacitor), the defibrillation discharge is applied to the therapeutic electrodes 8 and 9 by closing the corresponding conductive channels in the high-voltage switch 4. With a small time advance to the ultrasonic emitter 14 s generator of ultrasonic pulses 13 serves an ultrasonic pulse, exceeding the duration of 25-30% defibrillation pulse. The parameters of the defibrillation pulse during its passage to the therapeutic electrodes 8 and 9 are controlled by means of a control 7.

Thus, the possibility of an almost ultrasonic and current (defibrillating) impulse that is almost combined in time, but distributed in space, affects the fibrillating heart of 15 patients with 10 ultrasonic and current (defibrillating) pulses, which makes it possible to reduce the energy of the latter by an order of magnitude due to the targeted delivery of the latter to the fibrillating heart muscle.

INFORMATION SOURCES

1. RF patent No. 2196616 of 07.23.2001, IPC ⁷ A61N 1/39, "Defibrillator", the authors A. Vereshchagin and etc.

2. RF Application No. 2001112772, publ. 02/20/2003, IPC ⁷ A61N 1/39, "Device for external pacing and biphasic defibrillation", authors L. Borshchova and etc.

Claims (5)

1. Automatic external defibrillator, characterized in that it contains at least two therapeutic electrodes, a system for monitoring the electrophysical characteristics of the patient and the parameters of the defibrillation pulse, and a means for compressing the patient’s body, made with the possibility of fixing it in the chest area and equipped with an integrated ultrasound source pulses. 2. The automatic external defibrillator according to claim 1, characterized in that the integrated source of ultrasonic pulses is made in the form of an ultrasonic emitter. 3. The automatic external defibrillator according to claim 2, characterized in that a magnetostrictive or piezoceramic element is used as an ultrasonic emitter. 4. The automatic external defibrillator according to claim 1, characterized in that the means of compression of the patient’s body in the area of his chest is made in the form of an elastic cuff. 5. The automatic external defibrillator according to claim 4, characterized in that in the elastic cuff channels are provided for supplying high-voltage pulses to therapeutic electrodes and for passing the interconnects of control systems.