RU218158U1 - Animal electrocardiography electrode - Google Patents

Abstract

The utility model relates to the field of veterinary medicine, in particular for performing electrocardiography in animals. An electrode for conducting electrocardiography in animals includes two rectangular curved plates made of electrically conductive material, fastened together in the form of a "clothespin" by a steel spring. On the inside of the plate, they are covered with studded conductive rubber, the studs of which, in contact with the skin of the animal's limbs, provide conduction of electrical potentials to the electrocardiograph. The use of the inventive electrode reduces the complexity and significantly reduces the time for conducting electrocardiography in animals.

Description

The utility model relates to the field of veterinary medicine, in particular to devices for conducting electrocardiography in animals.

Currently, the design of electrodes for taking an electrocardiogram is known, which include a rubber "pear" with a suction cup and an electrode made of metal. Inside the suction cup there is a magnetoelectric sensor, from the body of which two electrodes are brought out to send a signal about the potentials of electromagnetic oscillations of the heart to the amplifying and fixing devices (RF patent No. 2523356, author Bichurin M.I. and others - 2014).

Disposable and reusable electrodes for electrocardiography are known, manufactured by various companies both in Russia and abroad (MIRGO med, Russia; Mederen Neotech LTd, Israel; Beurer, Germany, etc.), which are widely used in medical practice.

A common disadvantage of the above electrodes is that they are intended for electrocardiography in humans. When conducting electrocardiography in animals, it is necessary to cut and shave the hair in the places where the electrodes are applied, which significantly limits their use.

In veterinary practice, electrodes are used, made in the form of silver-plated metal plates, under which a napkin moistened with saline is placed before fixation. Such electrodes are fixed on the limbs of animals using rubber bandages. The disadvantage of these electrodes is the laboriousness of their use, namely, it is necessary to fix the animal, cut and shave the hair in the places where the electrodes are applied, fix the electrodes with gauze pads moistened with saline.

In veterinary medicine, crocodile clip electrodes (manufactured by OOO Zoomed, Russia) are also used, which are attached to the skin in the form of a clothespin-clip. However, these electrodes are designed for electrocardiography mainly in small animals, since in productive animals (horses, cattle, pigs) the fixation of these electrodes on the limbs is unreliable and they are often disconnected when the animal is moved.

The closest in technical characteristics to the proposed utility model and taken as a prototype are the electrodes of the company "FIAB" (made in Italy), which are made of electrically conductive material and fastened together with a steel spring in the form of a "clothespin".

The disadvantage of the prototype electrode is that when it is fixed on the limbs of the animal there is no close electrical contact with the skin due to the presence of hair.

The technical task of the proposed utility model is to create an electrode, the design of which provides reliable electrical contact with the skin and reduces the complexity of electrocardiography in animals.

The solution of the technical problem is achieved by including in the design of the prototype electrode two spacers made of studded conductive rubber, which provide electrical contact between the skin and the recording device of the electrocardiographic apparatus.

In FIG. 1 shows a general view of the electrode for conducting ECG in animals; in fig. 2 - the diagram of the electrode is presented (top view, side view); in fig. 3 illustrates the use of an electrode in an ECG in a dog; in fig. 4 - ECG in cattle.

The proposed electrode includes two rectangular curved plates of electrically conductive material 1 and 2, which are fastened together in the form of a "clothespin" with a steel spring 3. On the inside of the plate 1 and 2 are covered with electrically conductive studded rubber 4, which is attached to the plates 1 and 2 with bolts 5. The electrode is connected by an electrical wire 6 to an electrocardiograph (not shown).

A distinctive feature of the proposed electrode is the coating of the inner surface of its metal plates with studded conductive rubber. Rubber spikes are in contact with the skin of the animal and provide conduction of electrical potentials to the electrocardiograph. This does not require the removal of hair in the places where the electrodes are applied, which greatly facilitates the conduct of electrocardiography in animals.

An example of using the electrode of the developed design and the prototype electrode.

The inventive electrode was tested on cattle. For this purpose, an electrode was fixed on the limb of the experimental bull. The time spent on this manipulation was 0.5 min, and when the electrodes were fixed on four limbs, it was 2 min.

When using the prototype electrode, the timing showed that it takes 3 minutes to fix the bull in the machine, 5 minutes to cut the hairline on one limb, 6 minutes to apply the electrogel and fix the electrode with a rubber bandage. Thus, the total time spent on fixing one electrode is 11 minutes, and on 4 electrodes - 44 minutes, plus 3 minutes for the general fixation of the animal, in total - 47 minutes.

The difference in favor of the electrode of the developed design is 45 min.

The inventive electrode can be used in research work, as well as in the educational process when teaching courses in clinical diagnostics and therapy at the faculties of veterinary medicine.

Claims (1)

An electrode for conducting electrocardiography in animals, comprising two rectangular curved plates of electrically conductive material, fastened together by a steel spring in the form of a "clothespin", characterized in that the inner side of the plate is covered with studded electrically conductive rubber to ensure contact with the skin of the animal's limb and conduct electrical potentials to the electrocardiograph.

Images