RU2067846C1 - Device for removing potentials - Google Patents

Abstract

FIELD: medical equipment; cardiology; resuscitation. SUBSTANCE: device has rigid dielectric case, inside which spring-loaded rods are disposed. Flat electrodes are attached to the case by means of the rods. Such design permits to follow configuration of thorax when the device is applied onto it and provides maximal contact with patient's body. Electrodes are mounted equidistantly from each other; the distance is equal to 1/5 average length of thorax. The case has non-operating part made for orientation along longitudinal lines of patient's body. EFFECT: accelerated process of registration of cardiogram; improved quality of standardization curves. 1 dwg

Description

 The invention relates to the field of medical equipment and can be used in cardiology and resuscitation to lead potentials in electrocardiology.

 An analogue of the proposed device can be an electrode connected to a rubber balloon, which has found wide application for registration of chest leads of an electrocardiogram [1]. The electrode has one surface of contact with the patient’s body and is mounted on the chest at standard points. The device is fixed on the patient's body with the help of negative pressure created in a rubber balloon. To divert the potentials of the electrocardiogram during electrocardiotography, it is necessary to use 6 such electrodes, which are installed at standard points on the surface of the chest at the same time.

 The main disadvantage of the described electrode with a rubber balloon is that it is not tightly fixed to the surface of the chest. And taking into account the fact that the electrocardiotogram contains 48 to 72 leads, and all 6 electrodes need to be rearranged from 8 to 12 times on the surface of the chest, it becomes clear that loose fixation of the electrodes on the patient’s body significantly slows down the process of registering the electrocardiogram less than 20 minutes. Due to the insufficient contact of the electrodes with the patient’s body, interference often occurs, which significantly reduces the quality of the curves. In a second study, the installation of electrodes at the same points is difficult, which creates additional difficulties for standardizing the data obtained.

 The prototype of the proposed device is a device for installing electrodes necessary for recording precardial leads of an electrocardiogram [2] This device, connected to an electrocardiograph, is designed to simultaneously install a large number of electrodes that can be used to divert potentials during electrocardiotography. The device comprises a rigid dielectric housing with a flat working surface, in which spring-loaded rods are mounted with flat electrodes attached to them, connected with current leads. This device provides a fastening system in the form of spring plates and a neck strap. The device takes time to install and adjust the size of the mounting system and does not re-install all the electrodes at the same points. In addition, when the lesion is located outside the standard ECG lead points, an erroneous diagnosis is possible.

 The technical result of the invention is to increase comfort, reduce measurement time, increase reliability during repeated measurement and more complete coverage of the measured area during diagnosis.

 To do this, in a device containing a rigid dielectric housing with a flat working surface, in which spring-loaded rods are mounted with flat electrodes fixed to them and connected to current leads, the electrodes are located on the same axis at the same distance from each other, equal to 1/5 of the average chest length human cells, and the non-working surface of the body is configured to orient the axis of the location of the electrodes along the longitudinal lines of the human body.

 The invention is illustrated graphic material. In FIG. 1 shows a general view of a device for diverting potentials of an electrocardiogram. The device contains a dielectric housing (1) with a flat working surface, electrodes (2), sockets for connecting the electrocardiograph current leads (3), electrode rod (4), spring (5), sleeve for electrode rod (6), locking screw (7 ), housing cover (8).

 Flat electrodes (2) with the number 6 are made of electrically conductive material (brass) in the form of a circle with a diameter of 20 mm and contain sockets (3) for connecting the conductors of the electrocardiograph. These electrodes (2) are located along one line at a certain distance from each other, equal to 1/5 of the average length of the chest, comprising 28-33 cm and are connected to the body (1) by means of rods (4) included in the bushings (6), fixed in the housing (1). Springs (5) are mounted on rods (4).

 The device operates as follows: the electrodes (2) are connected via cable (not shown) to a multi-channel electrocardiograph through sockets (3) for connecting conductors. The operator is located to the right of the patient lying on his back and, by sequentially installing the device along the longitudinal lines of the human body passing through standard points on the chest, registers an electrocardiogram. At the same time, he holds the device by the housing (1) and presses it against the chest of the subject with little effort so that all the spring-loaded electrodes come into contact with the patient's body. Moreover, due to the presence of springs (5) and rods (4), which move freely in the bushings (6), the electrodes (2) repeat the configuration of the chest. This ensures maximum contact of the electrodes (2) with the patient’s body, which ensures good quality of the obtained curves. Since the points of abduction of the potentials of the heart are standard and do not depend on the size of the chest, with repeated studies, it is possible to accurately install the device at the same points. When installing the device, they orient the edge of the body along the collarbone, which allows further installation of the device more precisely at the same points during repeated measurements.

Claims (1)

 A device for potential removal during electrocardiotography, comprising a rigid dielectric body with a flat working surface, in which spring-loaded rods are mounted with flat electrodes fixed to them and connected to current leads, characterized in that the electrodes are located along the same axis at the same distance from each other, equal to 1/5 of the average length of the human chest, and the non-working surface of the body is made with the possibility of orientation of the axis of the electrodes along the longitudinal lines of the human body.