RU31944U1 - Electroencephalographic helmet, elastic cap for the installation of electrodes and an electrode for the removal of brain biopotentials - Google Patents

Description

An electroencephalographic helmet, an elastic cap for installing electrodes and an electrode for removing the brain's biopotentials.

Utility models relate to medical technology, in particular to devices for electroencephalography, and can be used in the study of bioelectric activity of the brain.

From the description of the author's certificate of the USSR No. 1734687, IPC 5 A 61 B 5/04, publ. 1992, an electroencephalographic helmet is known, the case of which is made of shielding material and inside which electrodes for removing biopotentials are installed, combined with amplifiers, an information conversion unit, an electromagnetic signal transmitter with an emitter, and an autonomous power source. The electrodes are mounted on the head using standard means, such as rubber bands attached to the helmet. Such a helmet is not convenient in operation, since the installation and replacement of electrodes is too difficult and this helmet cannot be used in studies of the biological activity of the brain during sleep.

The electroencephalographic helmet, containing an elastic cap of longitudinal and transverse elastic bands, in the crosshairs of which electrodes are installed (see description to USSR author's certificate No. 676273 IPC A 61 V 5/04, publ. 1979), is fixed with a chin strap. Such a helmet is also inconvenient in operation. The chin strap prevents the patient from talking and making swallowing movements, and preparing places for installing electrodes and their placement is very difficult with a dense hairline.

US patent No. 4083739, IPC A 61 5/04, publ. 1978 an electroencephalographic helmet is protected, containing an elastic cap on which electrodes are fixed rigidly and which is fixed with elastic straps connecting proMPC 7 A 61 V 5/0476

Ears of a cap with an axillary belt. The electrodes have holes in the center for insertion into the cavity between the current collector and the skin of the electrically conductive gel using a syringe with a blunt needle. Such a helmet is more comfortable for the patient in comparison with the ones described above, but has significant drawbacks - access to the contact points of the electrode with the skin is difficult, because of which preparation takes a long time, reliability and maintainability are relatively low, since if the contact of the lead-in wire with the current collector is broken it is necessary to remove the cap and destroy the electrode, and the treatment with disinfectant solutions of the cap with fixed electrodes violates the surface of the current collector and reduces the service life of the helmet. In addition, attaching the cap to the axillary belt creates inconvenience for the patient due to the slipping of the belt.

An electroencephalographic helmet, protected by the patent of the Russian Federation No. 2071721, IPC 6 A 61 V 5/0476, publ. 1997 This helmet contains an elastic cap of elastic interwoven flagella, in the nodes of which electrodes are placed, as well as headphones, a longitudinal frame, a head restraint and nodes for its connection with headphones, while the longitudinal frame is fixed to the head restraint with the possibility of changing its length. The design of such a helmet provides easy access to the electrodes, which facilitates the installation and replacement of the electrodes. However, this helmet is also not very suitable for studying the bioelectric activity of the brain during sleep. The presence of interwoven rubber flagella with a dense hairline creates inconvenience for the patient during the installation of electrodes or their replacement.

The technical result, the achievement of which is aimed at creating a utility model - improving ease of use by simplifying the monitoring and preparation of the installation sites of the electrodes, simplifying the installation and replacement of the electrodes, as well as increasing the reliability and maintainability.

The specified technical result is achieved by the fact that in an electroencephalographic helmet containing an elastic cap and an electrode device, the electrode device is removable and consists of two bundles mounted on an elastic cap symmetrically to the sagittal plane, while the nests into which the electrodes are mounted are made in the form of cylindrical eyelets , the bases of which with a height exceeding the thickness of the hairline are placed inside the elastic cap, and the liners are outside and equipped with a fixing elec odes collet.

The elastic cap used in the electroencephalographic helmet is a new technical solution and an independent object of protection as a utility model.

The technical result from the use of the utility model is to increase the usability by simplifying the disinfection process.

The specified technical result is achieved by the fact that the elastic cap for installing the electrodes is made of high-strength and chemically stable polymer fabric, for example polycaprolactam fabric of the nylon type, round holes with a mutual arrangement corresponding to the standard system of electroencephalogram leads are made in the elastic cap, mounting holes are fixed in the holes, made of electrical insulation material, each of the mounting sockets contains a hollow base and a hollow liner, the edges of a round miles in the elastic cap are clamped between the outer surface of the liner and the inner surface of the base, wherein the liner is placed on the outside of the elastic cap and the base - on the inside, and has a height exceeding the thickness of the hair.

As a prototype, a medical electrode was selected, known from the description of the copyright certificate No. 1690675, IPC 5 A 61 V 5/04, publ. 1991, coinciding with the declared purpose. This electrode contains a current collector, in the center of which there is a recess for applying electrically conductive paste, a discharge conductor connected to the current collector, the current collector is made in the form of a disk with a groove for biological glue located along the perimeter between the two shoulders, and the height of the outer bead is lower than the height of the inner one. For ease of use, the current collector can be placed in an elastic case.

Common signs of the claimed medical electrode with the prototype are: the presence of a flat current collector, the presence of a discharge conductor connected to the current collector, the presence in the housing of a cavity for filling with gel, which provides contact of one plane of the current collector with the surface of the body.

The disadvantage of the prototype is the inconvenience in operation due to the difficulty of dispensing an electrically conductive gel, as a result of which it is impossible to control the contact area of the electrode with the body.

The technical result to which the invention is directed is to increase ease of use by clearly dosing the electrically conductive gel in the cavity between the surface of the current collector and the surface of the body.

The specified technical result is achieved by the fact that in the electrode for collecting the biopotentials of the brain, containing a flat current collector, enclosed in a housing with a cavity for filling with an electrically conductive gel, providing contact of at least one surface of the current collector with the surface of the head, while the current collector has an opening through which the conductive gel is supplied into the cavity between the current collector and the surface of the head, the body is cylindrical and covers the current collector around the perimeter, in the case there is a second cavity, open ayuschaya second plane current collector connects through an opening in the current collector with a cavity for filling the electrically conductive gel and having an inlet opening with a diameter equal to the diameter of the spout of the disposable syringe.

Utility models are illustrated by drawings. In Fig.1 shows the design of the helmet electroencephalographic, Fig.2 - shows an elastic cap, Fig.Z - the design of the mounting socket, Fig.4 - the design of the electrode.

In FIG. 1 .. .4 digits denote:

1- elastic cap;

2- eye of elastic cap;

3- longitudinal holes in the eyes 2;

4- round holes in the cap 1;

5- installation sockets;

6 - the base of the installation socket 5;

7 - insert of the installation socket 5;

8- flange of the liner 7; 9- outlet wires; 10-electrodes;

11- tourniquet;

12-output connector;

13 junction box;

14- miniature nests;

15- guide rails;

16- current collector;

17 is a cylindrical body of the electrode 10;

18 - a cavity for filling with an electrically conductive gel;

21-technology pin;

22 - a collet of an insert 7;

23- shoulder on the electrode housing 10;

24 - emphasis on the basis of 6 mounting socket 5;

25 - end of the housing 17;

26 - end face 6;

27- hinge fasteners 1.

The claimed helmet electroencephalographic (figure 1) contains an elastic cap 1 of a strong and chemically resistant fabric made of polymer fibers such as nylon, silon, used for the manufacture of elastic hosiery. The cap 1 (Fig. 2) has eyes 2 in which longitudinal holes 3 can be made under the ears, which provides a more snug fit of the cap 1 in the region of the mastodal processes, where reference electrodes can be installed. In a cap 1, with a mutual arrangement corresponding to the standard electroencephalogram lead system, for example 10-20, round holes 4 are made for the mounting sockets 5. The mounting socket 5 (Fig. 3) is made in the form of a grommet of an insulating material, for example polyamide plastic, and contains hollow the base 6 and the insert 7 with the flange S. The inner diameter of the base 6 is aligned with the outer diameter of the insert 7 so that the insert 7 is inserted into the base 6 with an interference fit when placing the edges of the hole 4 between them, while of 6 is set on the inner side and the insert cap 1. 7 - with outer and abuts against the base end of the flange 8. The second element of the helmet 1 (figure 1) is an electrode device comprising two flat harness 11, mounted on the cap 1 symmetrically sagittal plane. Each of the bundles 11 contains 12 stranded insulated wires 9. Of the 24 wires 9, twenty one on one side end with scalp electrodes, two with reference electrodes and one with a neutral electrode. On the other hand, the wires 9 of each of the harnesses And are sealed in a junction box 13, which may additionally contain miniature sockets 14 for connecting electrodes for taking electromyograms and / or electrooculograms (not shown in Figs. 1 ... 4). The junction box 13 is fixed on the eyes 2 with the possibility of removal, for example, in a spring clip or Velcro. The position of each of the wires 9 in the bundle 11 corresponds to the location of the socket 5 in which it should be installed. To ensure error-free installation of the electrodes 10 in the mounting sockets 5, the wires 9 have different lengths and are combined into groups by guide bars 15. The electrode 10 (Fig. 4) contains a flat current collector 16 enclosed in a hollow cylindrical body 17 with a cavity 18 for filling with an electrically conductive gel through the hole 19 in the current collector 16. The input cavity 20 of the housing 17 is made under the nozzle of a disposable syringe (not shown in FIGS. 1 ... 4), which allows the conductive gel to be metered into the cavity 18 between the surface of the current collector 16 and the skin. The current collector 16 is connected to the wire 9 using a technological pin 21, which facilitates the replacement of the wire 9 or the electrode 10. The cylindrical housing 17 covers the current collector 16 around the perimeter, and the hole 19 connects the cavities 18 and 20. To fix the electrode 10 in the socket 5 inside the insert 7 there is collet 22 (Fig. H), the inner diameter of which is equal to the outer diameter of the housing 17, and the housing 17 may have a fixing flange 23. Inside the base 6 there is a stop 24, which abuts the protrusion on the housing 17, which ensures alignment in one plane of the ends 25 and 26 buildings 17 and base 6 in contact with the scalp. The helmet 1 is held on the head using fasteners 27 (FIG. 2) on the eyes 2. The fastening can be carried out using elastic straps to the collar or torso frame of a dense fabric or chin (not shown in FIGS. 1 ... 4). It is also possible to mount using a rigid frame, for example, arcs of headphones with pads pressed into the pits under the mastoidal processes.

The electroencephalographic helmet 1 is used as follows. An elastic cap 1 without an electrode device is put on the head so that the mounting sockets 5 are at the points corresponding to the standard lead system. It is not difficult to accomplish this, since the elastic cap 1 of a nylon-type polymer fabric is uniformly stretched in different directions, and the absence of an electrode device greatly simplifies installation. Ears are threaded into holes 3 and eyelets 2 are fastened with elastic straps to a collar or torso frame. The frame can be made of dense tissue, fixed on the figure of the patient with Velcro. Further, through the holes in the mounting sockets 5, the contact surface of the electrode 10 with the skin is prepared - the hair is moved apart and pressed down. Since the holes of nests 5 have a diameter of 9 ... 11 mm, such an operation does not create inconvenience to the patient and takes a short time. Then the junction boxes 13 are fixed on the eyes 2 and the electrodes 10 are installed in the mounting sockets 5. And this procedure does not cause any inconvenience to the patient, since the electrode 10 is installed in the socket 5 with a light pressure and fixed automatically. After installing the electrodes 10, the cavities 18 are filled with an electrically conductive gel. An electrically conductive gel is drawn into a disposable syringe, the syringe nozzle is inserted into the cavity 20 and the required amount of gel is introduced into the cavity 18. After that, a protective cover made of thin cotton fabric with rubber around the perimeter can be put on top of cap 1. Junction boxes 13 are connected by cables to the output connector 12 (Fig. 1), which can be mounted on a collar or hummock frame.

causes the patient unpleasant pain, preparation of the installation sites of the electrodes 10 is easy and freely controlled, the installation of the electrodes 10 is significantly simplified and eliminates errors, the possibility of separate disinfection of the cap 1 and the electrodes 10 increases the reliability of these elements, the design of the electrodes 10 and bundles 11 provide quick and easy their replacement and thereby increase the maintainability of the helmet. Such a helmet can be worn by the patient for a long time and can even be used to study the biological activity of the brain during sleep.

The utility model formula. Electroencephalographic helmet, elastic cap

for the installation of electrodes and an electrode for the collection of brain biopotentials.

1. An electroencephalographic helmet containing an elastic cap and an electrode device, characterized in that the electrode device is removable and consists of two harnesses mounted on an elastic cap symmetrically to the sagittal plane, while the nests into which the electrodes are mounted are made in the form of cylindrical eyelets, a base which with a height exceeding the thickness of the hairline are placed inside the elastic cap, and the liners on the outside are equipped with a collet fixing electrodes.

2. An elastic cap for installing electrodes, characterized in that it is made of high-strength and chemically stable polymer fabric, for example, polycaprolactam fabric of the nylon type, round holes with a mutual arrangement corresponding to the standard system of electroencephalogram leads are made in the elastic cap, mounting holes are fixed in the holes, made of electrical insulating material, each of the mounting sockets contains a hollow base and a hollow liner, the edges of the round holes in the elastic cap ke clamped between the outer surface of the liner and the inner surface of the base, wherein the liner is placed on the outside of the elastic cap and the base - on the inside, and has a height exceeding the thickness of the hair.

3. An electrode for collecting biopotentials of the brain, containing a flat current collector, enclosed in a housing with a cavity for filling with an electrically conductive gel, providing contact of at least one surface of the current collector with the surface of the head, while the current collector has a hole through which the electrically conductive gel is fed into the cavity between the current collector and the surface heads, characterized in

that the case is made cylindrical and covers the current collector around the perimeter, the body has a second cavity that opens the second plane of the current collector, which connects through the hole in the current collector with a cavity for filling with an electrically conductive gel and has an inlet with a diameter equal to the diameter of the nozzle of a disposable syringe.

Electroencephalographic helmet,

an elastic cap for the installation of electroencephalographic electrodes and an electrode for collecting the biopotentials of the brain.

Claims (3)

1. An electroencephalographic helmet containing an elastic cap and an electrode device, characterized in that the electrode device is removable and consists of two harnesses mounted on an elastic cap symmetrically to the sagittal plane, while the nests into which the electrodes are mounted are made in the form of cylindrical eyelets, bases which with a height exceeding the thickness of the hairline are placed inside the elastic cap, and the liners are outside, and are equipped with a collet fixing electrodes. 2. An elastic cap for installation of electrodes, characterized in that it is made of high-strength and chemically stable polymer fabric, for example polycaprolactam fabric of the nylon type, in the elastic cap round holes are made with a mutual arrangement corresponding to the standard system of electroencephalogram leads, mounting holes are fixed in the holes, made of electrical insulation material, each of the mounting sockets contains a hollow base and a hollow liner, the edges of the round holes in the elastic cap the tab is sandwiched between the outer surface of the liner and the inner surface of the base, while the liner is placed on the outside of the elastic cap, and the base is on the inside, and has a height exceeding the thickness of the hairline. 3. An electrode for collecting biopotentials of the brain, comprising a flat current collector enclosed in a housing with a cavity for filling with an electrically conductive gel, providing contact of at least one surface of the current collector with the surface of the head, while the current collector has an opening through which the electrically conductive gel is supplied into the cavity between the current collector and a head surface, characterized in that the body is cylindrical and covers the current collector around the perimeter, in the body there is a second cavity opening the second current collector cavity ka, connects through the hole in the current collector with a cavity for filling the electrically conductive gel and having an inlet opening with a diameter equal to the diameter of the spout of the disposable syringe.