RU2499549C1 - T-shaped monopolar needle electrode for registration of electric activity of gastrointestinal tract organs of animals - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical equipment. Monopolar needle electrode for registration of electric activity of GIT organs of animals contains needle (2), cable (3), case (1) and electrode fixer (4). Case (1) tightly envelopes needle (2), connected with cable (3). Electrode fixer (4) is made with possibility of putting up with tension on needle (2) tip, brought out of biological tissues. Case (1) is made in form of polymer bushing, which is filled with fixing substance with ratio of its length to its diameter being not less than 3:1. Working part of needle (2) projects from middle part of lateral surface of case (1). Cable (3) projects from one of case (1) butt ends.

EFFECT: application of the invention will make it possible to increase reliability of electrode fixation in wall of GIT organ.

3 cl, 3 dwg

Description

The invention mainly relates to experimental medicine, veterinary medicine and biology, and in particular, to devices for biomedical research on the organs of the gastrointestinal tract (GIT) in chronic experiments on rats, but can also be used on other small animals.

Known bipolar needle electrode according to the patent of the Russian Federation No. RU 2317000 C1 for implantation in the serous-muscular layer of the stomach and small intestine of rats for recording their electrical activity in chronic experiments, made in the form of two parallel needles isolated from each other and soldered to each of them isolated wires performing the functions of lead cables tightly covered by a fluoroplastic sleeve in the area of connection of needles with wires, as well as an electrode clamp for fixing a bipolar needle electrode on and the gastrointestinal tract, installed on the ends of the needles that are brought out from the biological tissues of the gastrointestinal tract.

This bipolar electrode provides a fairly reliable fixation to the walls of the stomach or intestines and, as a result, provides long-term reliable registration of bioelectric potentials due to the fact that its two adjacent needles after injections, on the one hand, provide double stability to the bipolar electrode, preventing it rotational and other displacement, and, on the other hand, the platform located between the needles serves as a good support, distributing the mechanical load so that bipo yarny electrode had no tendency to perforation biological tissues, where it is installed and put on the ends of the needles outwardly derived from biological tissues retainer prevents pull-out electrode of a bipolar electrode and a back support also provides a good platform for a set of bipolar electrode. However, a significant drawback of bipolar electrodes for conducting chronic studies and, in particular, the bipolar needle electrode according to the patent of the Russian Federation No. RU 2317000 C1 is the need to use two electrode wires coming from each bipolar electrode to realize bipolar lead of biological potentials, as well as double trauma to biological tissues of the studied section of the gastrointestinal organ, due to the need for two injections when installing a bipolar needle electrode.

An advantage of a monopolar bioelectric potential removal circuit is that a monopolar circuit removes the difference in bioelectric potentials between a section of a biological object located in the electric field of the organ under investigation (GIT), where a monopolar electrode (potential electrode) is installed, and a section in which the electric field potential of the studied body tends to zero, where a zero electrode is installed (GOST 24878-81 Electrodes for removing bioelectric potentials terms and definitions). Consequently, the waveform will reflect changes in the electric field generated by the area of the organ under study located under the potential electrode. When registering the electrical activity of the organs of the gastrointestinal tract of rats, a monopolar needle electrode can be used as potential, and a needle electrode of a traditional design, injected mainly into the tail of a rat, can be used as a zero electrode.

The unipolar assignment of the bioelectric potential allows you to simultaneously remove the potentials of actually two times more of the studied sections of the gastrointestinal tract of the biological object than the bipolar one, due to the fact that the number of wires coming from the monopolar electrodes is half as much compared to the bipolar connection scheme. This is especially true when removing wires coming from the electrodes through the tail of a laboratory animal, since there are severe anatomical restrictions on the free space that can be occupied by wires coming from the electrodes.

Closest to the proposed in the invention T-shaped monopolar needle electrode is a monopolar electrode device according to the patent of the Russian Federation No. RU 2102005 C1 (in essence being a monopolar needle bioelectric electrode), containing one needle bioelectric electrode connected to a wire coated with electrical insulation, acting as a lead cable mounted in the housing in the form of a plate of dielectric material. This monopolar electrode device has a number of significant drawbacks. When conducting chronic experiments using rats, it was found that the device according to RF patent No. RU 2102005 C1 could migrate from the place of its initial installation. So, it was found that this device led, for example, to deformation of injection sites, which disrupts contact between its current-collecting surface and biological tissues, and as a result to perforation of the intestinal wall at the site of electrode implantation and its migration inside the intestine, which made it impossible to obtain reliable signal. Based on a thorough study of all circumstances, it was also found that the device according to RF patent No.RF 2102005 C1 does not have a sufficient support surface for biological tissues, where it is installed. In addition, the disadvantage of this monopolar electrode device is that the electrode retainer rests only on soft biological tissues and has one single point of interaction with the electrode in the region of the end of the needle brought out from the biological tissues, due to which the rotation of the electrode retainer relative to the electrode is possible, which does not contribute , as a stable fixing connection between the electrode itself and the electrode retainer, and a stable fixing connection with soft biological tissues, where it is installed.

The technical result of the invention is to increase the reliability of fixation of the electrode in the wall of the organ of the gastrointestinal tract and, as a result, increase the reliability of the recorded signal. Another technical result is the improvement of the electrode engraftment to biological tissues due to the more gentle mechanical impact exerted on biological tissues.

The technical result is achieved by the fact that in the proposed monopolar needle electrode for recording the electrical activity of the organs of the gastrointestinal tract of animals, containing a needle, a wire, a housing tightly covering the needle connected to the wire, and an electrode fixture made with the possibility of donning with an interference fit to the outward biological tissue end of the needle, according to the invention, the housing is made in the form of a polymer sleeve filled with a fixing substance and having a ratio of its length to its diameter of at least 3: 1, the working part of the needle is high upaet from middle part of a side surface of the housing at an angle close to a right angle with respect to the most lateral surface of the housing, and a wire coming out of one of the housing ends.

In addition, the electrode retainer is L-shaped with the possibility of supporting one part of it on a wire extending from the end of the body, hereinafter referred to as the transverse part, when donning with an interference fit to the outward end of the biological tissues the needle end with its other part adjacent to the body through the biological tissue, hereinafter referred to as the longitudinal portion.

In addition, the working part of the needle is preferably coated with a dielectric coating on the portion located inside the electrode retainer and protruding above its surface, and on the portion protruding above the surface of the body, while these sections protrude to a height sufficient to isolate the open current collector surface of the needle from the surface of the organ Gastrointestinal tract.

The T-shaped design of a monopolar needle electrode proposed in this invention prevents the possible deformation (for example, overstretching) of biological tissues in the place of its installation, arising from the application of various pulling and pushing loads to the site of the injection of the electrode. Such deformation is prevented due to the greater capture of biological tissues between the electrode retainer and the electrode body, due to the increase in the area of support of the electrode body and the retainer on biological tissues, and also due to the fact that the transverse part of the retainer, relying on the electrode wire, prevents its rotation and other offsets.

Figure 1 shows the proposed T-shaped monopolar needle electrode without electrode retainer.

In Fig.2 - T-shaped monopolar needle electrode shown in Fig.1, with the electrode clamp put on it.

Figure 3 is a section along aa in figure 2.

A T-shaped monopolar needle electrode for recording the electrical activity of the gastrointestinal tract of animals contains a housing 1, tightly covering the needle 2, connected to an insulated wire 3 in such a way that bioelectric currents created by the difference in biological potentials are provided through this connection. The housing 1 is made in the form of a polymer fluoroplastic sleeve filled with a fixing substance that is indifferent to body tissues, for example, epoxy glue. The working part of the needle 2 protrudes from the middle part of the side surface of the housing 1 at an angle close to a right angle with respect to the very side surface of the housing 1, and the wire 3 comes out of one of the ends of the housing 1.

The sleeve has a length of 3-4 mm, usually 3.4-3.5 mm, a diameter of 0.9-1.2 mm, usually 1.1 mm. The working part of the needle 2 has a length of 1.8-2.2 mm

When fixing the working part of the needle 2 in the wall of the intestine of the rat, the lateral surface of the sleeve provides support for the biological tissues surrounding the injection site and thereby prevents its further passage into the hole formed as a result of the puncture of the intestinal wall with the needle 2.

The experiments showed that when the ratio of the length of the sleeve to its diameter is from 3: 1 or more (preferably up to 4: 1, since the sleeve is longer than 4: 1 is excessive), there was no perforation of the walls of the digestive tract with a T-shaped electrode. While in 40% of cases, monopolar electrode devices according to the patent of the Russian Federation No. RU 2102005 C1 were detected in the intestinal cavity.

The electrode retainer 4 has a L-shaped (mainly rectangular cross-section). When fixing the needle 2 in the wall of the organ of the gastrointestinal tract, the electrode retainer 4 is installed on the end of the needle 2 brought out from the biological tissues so that its longitudinal part, worn on the needle and adjacent to the body 1 through the biological tissue, presses the biological tissues of the wall of the gastrointestinal tract captured by the needle 2 to the side surface of the housing 1, and its transverse part rests on a wire 3 emerging from the end of the housing 1, holding them. That is, the electrode retainer 4, unlike the electrode retainer according to RF patent No. RU 2102005 C1, has two points of interaction with the electrode body 1, as a result of which the electrode retainer 4 relies not only on the soft biological tissues of the gastrointestinal organ wall, but also has a rigid support on the wire 3 coming from the end of the housing 1. In turn, the proposed needle electrode is limited in the possibility of rotation relative to the electrode retainer 4, which improves the locking connection between the housing 1 and the electrode retainer 4, as well as between the needle m electrode and biological tissues gastrointestinal organ.

The electrode retainer 4 on its transverse part has a recess for accommodating the wire 3 (as shown in FIG. 2), which makes it possible to align the supporting surfaces of the housing 1 and the electrode retainer 4 in contact with biological tissues, as well as to place the electrode retainer 4 flush with the housing one.

For the stability of the contact spot between the current-collecting surface of the needle electrode with biological tissues, the current-collecting surface of the needle 2 can be limited (for example, ring-shaped) by a dielectric coating 5 (as shown in Fig. 3) in the region of the base of the working part of the needle (at the place of its exit from the housing 1) and a dielectric coating 6 in the region of the end of the needle 2 located inside the electrode retainer 4, so that the dielectric coating 6 slightly protrudes from the surface of the electrode retainer 4. Moreover, free from The electrical coating remains only the part of the working part of the needle 2, which is arranged in biological tissues inside the body of the gastrointestinal wall. Thus, the current-collecting surface of the needle 2 is located only in biological tissues inside the wall of the gastrointestinal tract without the possibility of electrical contact with both the surface of the gastrointestinal tract and biological conductive fluids (for example, such as serous fluid, exudate, transudate, spilled blood, etc. n.) located on the surface of the gastrointestinal tract. The dielectric coating may be, for example, an electrically insulating varnish or Teflon. In addition to the insulating properties, the dielectric coating, in particular, can improve the properties of the fixing connection between the needle electrode (or rather, the tip of the needle 2 exiting from the biological tissues having a dielectric coating) and the electrode retainer 4. The above-described design of the current-collecting surface of the needle is also applicable to bipolar needle electrodes .

Thus, the proposed T-shaped monopolar needle electrode combines the advantages of reliable fixation inherent in bipolar needle electrodes with less trauma to biological tissues characteristic of monopolar needle electrodes.

Claims (3)

1. Monopolar needle electrode for recording the electrical activity of the digestive tract of animals, containing a needle, a wire, a housing tightly covering the needle connected to the wire, and an electrode clamp made with the possibility of putting on an interference fit to the outward from the biological tissues of the needle end, characterized in that the body is made in the form of a polymer sleeve filled with a fixing substance and having a ratio of its length to its diameter of at least 3: 1, the working part of the needle protrudes from the middle part of the side surface of the body, and od comes from one of the housing ends. 2. The electrode according to claim 1, characterized in that the electrode retainer is L-shaped with the possibility of supporting the transverse part on a wire exiting the end of the body when donning the longitudinal part on the end of the needle that is brought out from biological tissues. 3. The electrode according to claim 1, characterized in that the working part of the needle is coated with a dielectric coating on a portion located inside the electrode retainer and protruding above its surface, and on a portion protruding above the surface of the housing, while these sections protrude to a height sufficient to isolating the open current-collecting surface of the needle from the surface of the gastrointestinal tract.

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