SU936905A1 - Microelectrode holder - Google Patents

Description

(54) MICROELECTRODE HOLDER

one

The invention relates to medicine, in particular to apparatus for research in the field of brain neurophysiology, and can advantageously be used in craniosurgery for the purpose of studying microputations of neurons of the central nervous system.

A microelectrode holder is known, comprising a threaded sleeve equipped with a shaped washer, inside which a removable sleeve is installed, and a housing with a microelectrode fixed by screws to the shaped washer 1.

The drawback of the device is the injury of the brain tissue in the study due to the fact that the threaded sleeve screwed into the trepan hole, was a foreign body, when it comes into contact with the living brain, causes pathological changes in it, which results in the tenth to tenth day after operations that it is impossible to continue experiments on the experimental animal without deterioration of the state of the studied cortical tissue by this time due to the formation of a dense connective tissue film under the sleeve, preventing the passage of the microelectrode. In addition, the microelectrode holder is mounted on a threaded bushing that is screwed into the burr hole, since, due to its design, it cannot be re-mounted — without special surgery performed under sterile conditions — over another part of the brain. In this case, the sealing of the old trepanation hole is impossible without injury to the brain or its membranes.

10 Because of this, such a microelectrode holder can be mounted on the head of an experimental animal only once, i.e. without reinstalling it over other parts of the brain.

The purpose of the invention is to reduce the trauma of the brain during electrophysiological studies.

The goal is achieved by the fact that the microelectrode holder containing a threaded sleeve equipped with a shaped washer, inside which a removable sleeve is installed, and a housing with a microelectrode fixed by screws to the shaped washer, is provided with a plate with tapered holes, the plate and the threaded sleeve are made of magnetically hard material , and removable sleeve is made conical.

In addition, the threaded sleeve is flanged.

FIG. 1 shows the microelectrode holder; general view; in fig. 2 shows section A-A in FIG. one.

The microelectrode holder consists of a threaded sleeve 1 equipped with a shaped washer 2, inside the sleeve 1 a removable conical sleeve 3 is installed, the housing 4 with a microelectrode 5 fixed to the shaped plate 2 with screws 6, a plate 7 with conical holes 8. The threaded sleeve 1 is fitted with a flange 9 .

The threaded sleeve 1 and plate 7 are made of a hard magnetic metal and have the inscription: "C (north) and" S (south), as a result of which their detachable connection is provided by the magnetic field.

The device works as follows.

The perforated plate 7 is screwed with screws 10 to the layer of self-hardening plastic 11 and to the scoop 12. The threaded sleeve 1 with the screw-on fastener 2 screwed onto it is placed on the perforated plate 7 with their opposite magnetic poles and so that the opening of the threaded sleeve 1 coincides with the hole 8 of the 7 plate a brain site selected for the study 13. The threaded sleeve 1 is kept from disconnecting from the plate 7 by the magnetic field. And from lateral displacements the threaded sleeve 1 holds the removable sleeve 3 with a tapered end, with which these two holes are centered, inserting it all the way into the hole of the threaded sleeve 1. After that, a skull hole is made in the skull through the removable sleeve 3. 4 screws 6 and microelectrode 5 are inserted into the brain using a micromanipulator (not shown).

 The multiplicity of the holes in the plate 7 allows the permutation of the microelectrode holder over different parts of the brain. To do this, first remove the housing 4 with the microelectrode 5, remove the removable sleeve 3 with the tapered end, grabbing it by its thickened upper part - the flange, and remove the threaded sleeve 1 from the perforated plate 7. For this purpose, you need to move the threaded sleeve 1 perforated plate 7 until the magnetic poles of the same name are combined, with the result that they are pushed away from each other and separated. To seal the old trephination hole in its bony walls, tap the thread and

screwed into it a threaded plug with a slit, made, for example, of fluoroplastic, and coated with self-hardening plastic, which consists of a layer. Next, install the threaded sleeve over

 another hole 8 of plate 7 over another part of the brain with the aid of a removable sleeve 3 with a conical end. Then a new trepanning hole is drilled through it in the skull.

0 If the burr hole needs to be closed temporarily in order to remove the microelectrode and provide the animal with feeding or rest, the cork screwed into it can be sealed with wax coating.

5 The proposed device reduces the trauma of the brain during electrophysiological studies of the central nervous system. This is achieved due to the fact that the proposed design prevents the contact of the brain with the threaded sleeve. In addition, the invention provides the speed and ease of installation intracerebral electrode. The proposed device allows the microelectrode to detect the activity of brain neurons through

5 a single burr hole, as in the well-known, and alternately through a new burr hole with a preliminary painless sealing of the old burr hole. At this time, the design suggests that the position of the m-microelectrode in the brain is not only vertical but also in the horizontal direction, which greatly expands the possibilities of studying the brain.

Claims (2)

1. A microelectrode holder containing a threaded sleeve equipped with a shaped tongue, inside which a removable sleeve is installed, and a housing with a microelectrode fixed by screws to the shaped fitting, characterized in that, in order to reduce the trauma of the brain during electrophysiological studies, , moreover, the plate and the threaded sleeve is made of a hard magnetic material, and the removable sleeve is made conical. 2. A holder according to claim 1, characterized in that the threaded bushing is provided with a flange. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 234605, cl. A 6LB 5/04, 1967.