RU184788U1 - DEVICE FOR RESTORING THE SINUS RHYTHM OF THE HEART BY THE CARDIAC STIMULATION AND ELECTRIC PULSE DEFIBRILLATION METHOD EXCITED BY A MAGNETIC FIELD - Google Patents

Abstract

The technical solution relates to medicine, namely to means for treating various forms of cardiac arrhythmias, in particular to means for restoring normal sinus rhythm of the heart. The technical result of the above task is achieved by creating a device for restoring sinus rhythm, which includes electrodes for fixing the heart rhythm connected by connecting cables to the generator and control device, inductor, providing a pulsed magnetic flux passing through the chest glue patient’s tissue and inducing electromotive force and characterized in that the inductor is a flat coil consisting of two sections located in the same plane in close proximity to each other, where each of the sections is an annular D-shaped element, while the sections are connected in series so that the currents in the middle of the coil are directed to one side.

Description

FIELD OF TECHNOLOGY

The technical solution relates to medicine, namely to means for treating various forms of cardiac arrhythmias, in particular to means for restoring normal sinus rhythm of the heart.

BACKGROUND

To date, many heart diseases are known, leading to such a pathological phenomenon as arrhythmia. Depending on the cause and type of arrhythmia, cardiac surgeons use various methods of treatment, among which there are methods to restore the normal sinus rhythm by applying electric pulses to the heart using pacemakers.

It is known that treatment of arrhythmia remains a very difficult and urgent task and, if not treated, along with atrial flutter and atrial fibrillation, it leads to an increase in mortality by 1.5–2 times in patients with organic heart pathology [V.A. Lyusov, E.V. Kolpakov “Arrhythmias of the heart. Therapeutic and surgical aspects ”, Moscow 5]. The following conservative method for restoring sinus rhythm in arrhythmias is known: electrical defibrillation of the heart. The latter is performed on an empty stomach under anesthesia, by applying high-voltage defibrillator electrodes to the skin, which causes the passage of electric current all the way from the electrodes to the patient's heart. For anesthesia, short-acting or sedative drugs are used that do not completely turn off consciousness so as not to conduct pulmonary ventilation.

The disadvantage of electric defibrillation is the occurrence of pain shock and other sensations associated with the presence of anesthetic risk (vomiting, bronchospasm, cardiac and respiratory arrest) and the possibility of a number of other complications [E.I. Chazov, V.M. Bogolyubov “Heart rhythm disturbances”, Moscow “Medicine”]. The likelihood of such dangerous complications significantly limits the application of this technique, despite its effectiveness. Moreover, if the patient is overweight, the use of higher discharge energies is required, which increases the trauma of the process and affects the effectiveness of providing safe care to the patient.

A known method of restoring the sinus rhythm of arrhythmia, including the use of drug therapy [All-Russian Scientific Society of Specialists in Clinical Electrophysiology, Arrhythmology and Cardiac Stimulation "Arrhythmology: Clinical Recommendations for Electrophysiological Studies, Catheter Ablation and the Use of Implantable Antiarrhythmic Devices"; Moscow: GEOTAR-Media, 2010].

The disadvantage of this method is the efficiency that is consistent with the literature is low enough. The effect works the first 48 hours [Richard N. Fogors "Antiarrhythmic drugs." 2nd Edition. Translation from English edited by prof. Yu.M. Pozdnyakova, A.V. Tarasova. - Moscow: “BINOM Publishing House”], which is not very convenient for patients with a problem of rhythm disturbance in the heart muscle.

A known method of generating a pulsed electric field for painless endocardial cardioversion (RU 2609276), which consists in the following: a catheter having two electrodes is inserted into the heart region through the patient’s venous system. Connect the contacts of the electrodes to the output of the electric pulse generator. An electric pulse of the generator is applied to the electrodes, forming an electric field between the electrodes. The pulse is synchronized with a given segment of the patient's electrocardiogram. One electrode is positioned in the center of the chamber of the right, and the other in the center of the chamber of the left atrium so that the electrodes are removed from the myocardium and have no direct contact with it. Zones of high gradients of the electric field, which are formed upon the action of the discharge current of the generator’s electric pulse near the electrodes, are insensitive to blood pain. The method provides a reduction in pain when using relatively high energies in the pulse due to the fact that the zones of high gradients of the electric field are located at the maximum distance from the myocardial tissue.

The disadvantages of the above technical solution is the need for surgery to implant a catheter in the heart. The need for surgery eliminates the possibility of using this method as a method of emergency care for the patient.

There is also known a method of biatrial electrostimulation of the heart (RU 2167682), which is the detection of native atrial activity and applying an electrical impulse to the atrial myocardium using an pacemaker and electrodes. The moment of application of an electrical stimulus synchronized with the atrial activity on the left atrium is determined by the external electronic switch by the skin, then after a period of time corresponding to the interval of the atrial excitation, an electric pulse is transmitted to the electronic input of the trigger pacemaker, which is the trigger signal for the generation and application of the left myocardium atrial transesophageal by electrical impulse electronic circuitry trig ernogo pacemaker. This allows you to increase the effectiveness of stimulation and simplify the method. The method is performed as follows: in a patient with atrial sinus rhythm, impaired atrial excitation, an implanted single-chamber atrial biocontrolled pacemaker, a cardiac electrical stimulation program is established using a regulating device (programmer): mode is inhibited, sensitivity to spontaneous atrial biopotential is 0.5-1 , the amplitude of the pulse - by an amount exceeding the threshold of excitation of the atrial myocardium by 75%, the polarity pulse - unipolar, refractory period - 400 milliseconds, the base frequency of cardiac electrical stimulation - 60-70 imp / min. A biocontrolled atrial pacemaker applies an electrical stimulus via an implanted electrode to the right atrium. Two cutaneous electrodes are fixed on the patient’s skin with an adhesive tape, one in the area of the subcutaneous bed of the implanted atrial biocontrol pacemaker, the second in the projection of the contact head of the atrial electrode (in the IV-VI intercostal space 1 cm outward from the right midclavicular line). The dermal electrodes by means of connecting electrodes are connected to the terminals of the atrial channel of the external electronic switch, which is used as a two-chamber pacemaker, for example, an implantable pacemaker EKS-444 manufactured by Elestim CJSC (Moscow, Russia) or model 3070 manufactured by the Peissetter-SentJood Medical company (USA) .

The disadvantages of the above technical solution is the need for surgery to implant electrodes in the heart. The need for surgery eliminates the possibility of using this method as a method of emergency care for the patient.

According to its technical characteristics, the prototype is a device for restoring sinus rhythm (DE 3904254 A1 from 09/06/1990), which includes electrodes for fixing the rhythm of the heart, connected by connecting cables to the generator and control device. In this case, the effect is produced using an inductor that creates a powerful pulsed magnetic field flux passing through the patient’s chest and inducing electromotive force. Sufficient for electrical stimulation and defibrillation of the heart.

The disadvantages of the above technical solution is the inability to provide the desired direction of the stimulating current due to the claimed design of the inductor, where the latter is a solenoid with a cylindrical or G-shaped magnetic circuit between the poles of which the patient’s body is placed. With this design of the inductor, the stimulating current induced in the patient’s body will be directed along a circular path around the axis passing through the axis of the core. Moreover, the current density may be insufficient to create a stimulating effect, which affects the effectiveness of providing safe care to the patient.

The objective of the proposed technical solution is to create a device for restoring the sinus rhythm of the heart by pacemaking and defibrillation with an electric pulse excited by a magnetic field, which provides safe and instant help to the patient with heart rhythm problems.

DISCLOSURE OF THE ESSENCE OF THE TECHNICAL SOLUTION

The technical result of the above task is achieved by creating a device for restoring sinus rhythm, which includes electrodes for fixing the heart rhythm, connected via connecting cables to the generator and control device, an inductor that provides a pulsed magnetic field flow through the patient’s chest and induces electromotive force and characterized in that the inductor is a flat coil consisting of two sections located in the same plane in a short dstvennoy proximity to each other, wherein each of the sections represents a D-shaped ring member, wherein the sections are connected in series such that the currents in the secondary coil portion are directed in the same direction. The indicated feature provides safer care for the patient with problems with the heart rhythm, due to the ability not only to set the desired direction of the generated current by orienting the coil, but also to localize the current of the required density in the zone of its maximum effect, which will reduce the required discharge energy.

There is a possible development of a technical solution to the device, the inductor is fixed with a special device, for example a flexible corset. This symptom allows you to help the patient in safe, gentle ways for problems with heart rhythm.

A possible development of the technical solution of the device, where the inductor is fixed together with a special device, such as sensors. This symptom allows you to provide assistance to the patient as soon as possible.

A possible development of the technical solution of the device, where the inductor is fixed with a special device, for example, duct tape, which is an adhesive plaster. This symptom allows you to provide assistance to the patient as soon as possible.

A possible development option is a technical solution to the device where the device itself is made mobile. This feature allows you to carry the device with you.

BRIEF DESCRIPTION OF THE DRAWINGS

In FIG. 1 shows a diagram of a device for restoring the sinus rhythm of the heart by pacing and defibrillation with an electric pulse excited by a magnetic field.

In FIG. 2 shows the design of inductor 4.

pos. 1 - electrodes for fixing the rhythm of the heart;

pos. 2 - chest of the patient;

pos. 3 - inductor;

pos. 4 - generator;

pos. 5 - control device;

pos. 6 - section 1;

pos. 7 - section 2.

↑ - current direction.

IMPLEMENTATION OF THE TECHNICAL SOLUTION

The purpose of the work described here is to create a device for restoring the sinus rhythm of the heart by pacing and defibrillation with an electric pulse excited by a magnetic field, which allows providing a safe and instant help to the patient with heart rhythm problems.

The essence of the proposed technical solution is as follows:

The device consists of a generator (4) and a control device (5), which are portable electronic devices, then these devices, for the convenience of the patient, are mobile, the dimensions of which allow these devices (generator (4) and control device (5)) to be carried . The electrodes (1) and inductor (4) of the claimed device are fixed on the chest (2) of the patient with a special device that can be performed, but not limited to corset, sensors, adhesive tape (adhesive tape) and connected via connecting cables to the generator ( 4) and the control device (5). Using the electrodes (1), the patient’s heart muscle is continuously detected in order to fix sinus rhythm disturbances; when a disturbance occurs, the device creates a corrective effect on the heart using an inductor (4), the design of which allows directing currents in one direction. Next, the device analyzes the result of the adjustment. In the event of a repeated violation, the cycle “detection-exposure-analysis of the result” is repeated with the changed characteristics of the impact pulse (duration, amplitude, shape of the pulse).

Corrective action on the heart occurs by the inductor (4) generating a powerful pulsed magnetic field flux passing through the patient's heart. Moreover, the inductor (4), which is part of the device, is a flat coil consisting of two sections (6 and 7) located in the same plane in close proximity to each other, where each of the sections (6 and 7) is an annular A D-shaped element, while sections (6 and 7) are connected in series so that the currents in the middle part of the inductor coil (4) are directed to one side, and the currents flow along the edges of the inductor (4) in the opposite direction.

Using the design of the inductor (4) provides safer assistance to the patient in case of problems with the heart rhythm, due to the ability not only to set the desired direction of the generated current by orienting the inductor coil (4), but also to localize the current of the required density in the zone of its maximum effect, which will reduce required discharge energy.

It should be noted that the heart has a relatively high conductivity, sufficient for the magnetic field to induce an electromotive force in it, which will create a current pulse to generate the action potential and pacemaker. All the energy of a powerful pulse from the inductor (4) acts directly on the patient’s heart, which eliminates the need for electric current to pass through the whole patient’s body. In addition, in the case of an increase in pulse energy, it is possible to create a pulse whose energy will be sufficient to defibrillate the patient's heart. This technical effect allows you to provide emergency (instant) care to the patient with problems with the heart rhythm. In addition, such an effect is safer and more gentle than its counterparts.

The inventive device for restoring sinus rhythm of the heart by the method of pacing and defibrillation by an electric pulse excited by a magnetic field provides the ability to provide safe, sparing emergency (instant) care to the patient in case of heart rhythm problems.

Claims (6)

1. A device for restoring sinus rhythm, including electrodes for fixing the rhythm of the heart, connected via connecting cables to the generator and control device, an inductor that provides a pulsed magnetic field flow passing through the patient’s chest and inducing electromotive force, and characterized in that the inductor is a flat coil consisting of two sections located in the same plane in close proximity to each other, where each of the sections is a count a ring D-shaped element, while the sections are connected in series so that the currents in the middle part of the coil are directed to one side. 2. The device according to claim 1, characterized in that the inductor is fixed with a flexible corset. 3. The device according to claim 1, characterized in that the inductor is fixed together with the sensors. 4. The device according to claim 1, characterized in that the inductor is fixed with adhesive. 5. The device according to p. 4, characterized in that the adhesive tape is an adhesive plaster. 6. The device according to claim 1, characterized in that the device is mobile.

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