RU2290883C1 - Method for suturing electromyographic electrodes to smooth muscles of gastrointestinal tract in experiment - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves forming subserous pocket. An electrode is introduced and fixed. The animal is immobilized after having subjected to fastening the whole day long. The stomach is brought out into the wound through incision in abdominal wall under anesthesia and wrapped with sterile napkins wetted with warm physiologic saline. Serous membrane is separated from longitudinal muscle layer on 5 mm long segment through 5 mm long longitudinal incision in the serous membrane. Closed mouse-tooth forceps branches are introduced into subserous pocket. The branches are drawn apart and electrode base plate with electrodes are introduced into the arisen space and fixed with three separate seromusculoserous sutures coming through holes in the base plate. Flexible copper wire with fluoroplastic coating is brought by applying trocar from electrodes through abdominal wall towards back region and soldered standard socket fixed in advanced by means of silver clamps in lumbar zone of the vertebral column. Biopotentials are recorded under free animal behavior conditions 7-10 days later after the operation.

EFFECT: high reliability of electrode to muscle contact.

2 cl, 1 dwg

Description

The invention relates to medicine, namely to physiology.

To record electrical activity from the smooth muscles of the gastrointestinal tract in chronic experiments, implanted electromyographic electrodes are most often used. The high quality of the recorded biopotentials is largely limited by methodological difficulties due to the unreliability of the electrode contact with the underlying tissues during muscle contractions, as well as artifacts that occur during movement. In this regard, the method of suturing electrodes to smooth muscles is of particular relevance, providing constant reliable contact between the electrode and the muscle membrane, which allows artifact-free registration of action potentials in a chronic experiment without limiting the locomotor activity of animals.

As an analogue, the authors propose a method for implanting electromyographic electrodes stitched to the outer surface of the serous layer of the smooth muscle organs of the gastrointestinal tract (Bedi BS, Code CF Pathway of coordination of postprandial antral and duodenal action potentials // Am. J.Physiol. - 1972 . - Vol.225, No. 5. - P.1295-1298).

A definite disadvantage of the analogue is that the electrode is not hemmed to the muscle membrane, but to the serous layer of the stomach, which increases the transition resistance, due to which the electrocardiogram is simultaneously recorded on the electromyogram.

The prototype of the claimed method, the authors propose a method of implanting electromyographic electrodes into smooth muscles under the serous membrane of the stomach (M. Papazova. Electrophysiological study of the motor activity of the stomach. - Sofia: Publishing House Bol.AN., 1970, 192 p).

The operation of implanting electrodes into the stomach was performed on dogs under chloralose anesthesia. The stomach was removed through a longitudinal section along the midline of the abdomen. In a portion of the stomach, which was defined for hemming the electrode, a small serose incision was made along the longitudinal muscle layer, and the electrode was inserted into the formed pocket with balls facing the muscle layer. The pocket hole was sutured using a single seam. The fistula, with the radio connector inserted into it, was removed through an additional incision to the left of the white line of the abdomen and was strengthened in the abdominal wall using a purse string muscle suture.

A significant disadvantage of the prototype is the unreliable contact between the electrode and the underlying muscle layer, which makes it possible to displace the electrode during intense contractions of the stomach, as well as motor activity of animals.

The authors propose their own way of hemming electromyographic electrodes to the smooth muscles of the gastrointestinal tract in an experiment.

The operation of hemming an electromyographic electrode to the smooth muscles of the stomach is performed on rabbits that are not fed for 24 hours. Then the rabbits are subjected to soft immobilization in a special machine with the help of bindings, mounted on the legs of animals. The hair on the skin of the abdominal wall is cut off and then shaved, after which the skin is treated with 5% alcohol solution of iodine. The operation is performed under sterile conditions under oxygen-fluorotan anesthesia.

For implantation of electrodes into the stomach, an abdominal wall is cut along the midline. After dissection of the skin, aponeurosis and peritoneum, the stomach is withdrawn into the wound and covered with sterile wipes moistened with warm saline. Through a longitudinal section of serosa, 5 mm long, using the eye scalpel, the serous membrane is separated from the longitudinal muscle layer over 5 mm. An electromyographic electrode is carefully inserted into the subserosal pocket, the balls of which are facing the muscle, and the silver plate is facing the serous membrane of the stomach. For this, closed branches of the eye anatomical tweezers are inserted into the subserous pocket, after which they are pushed apart and an electrode substrate is introduced into the formed space. Then, the electrode is strengthened with three single sero-muscular-serous sutures passing through holes in the substrate. To this end, the wires in the cambric region are captured by anatomical eye tweezers, which are pressed downwards so that the tip of the electrode substrate rises up and lies against the serous membrane, so that the hole in it can be clearly seen through serosa. Then the atraumatic needle is injected through the serous and muscle membranes at a distance of 1.5 mm from the substrate, and the puncture is made through an opening in the substrate and the serous membrane. After this, a single sero-muscular-serous suture is tied. Then, the cambric is captured with eye tweezers and the base of the electrode substrate is lifted up so that the holes in it are closely adjacent to the serous membrane and are clearly visible. After that, the atraumatic needle is injected through the serous and muscle membranes, and the puncture is made through the right hole in the substrate and the serous membrane. A similar action is performed on the left side. Then tie single sero-muscular-serous sutures. MGTF type wires from the electrodes are removed using a trocar through the abdominal wall to the back and soldered to a standard connector, previously strengthened with silver staples in the lumbar spine. The experiments begin 7-10 days after surgery. High quality registration of biopotentials in conditions of free behavior of animals (in the process of orienting research and exploratory activity, during meals) is guaranteed for 3-4 months.

This method of implanting an electromyographic electrode into the smooth muscles of the gastrointestinal tract facilitates and accelerates the operation, increases the reliability of the electrode’s contact with the muscle, which improves the quality of recorded biopotentials even at the highest motor activity of animals in conditions of free behavior.

The proposed method can be used for suturing electromyographic electrodes to the smooth muscles of the small and large intestine.

Scheme of the electrode substrate: at the top is a top view of the electrode substrate, at the bottom is a side view of the electrode substrate.

1) a hole for stitching the electrode substrate to tissues in the region of the top of the substrate (on the side opposite to the output of the wires);

2) openings for stitching the electrode substrate to the tissues in the region of the base of the substrate (the side of the substrate from which the wires exit);

3) silver ball electrodes;

4) silver reference plate;

5) MGTF type wires from active electrodes;

6) wires from a silver reference plate.

Claims (2)

1. A method of hemming electromyographic electrodes to smooth muscles of the gastrointestinal tract in an experiment, including removing the stomach through an abdominal wall incision along the midline of the abdomen, forming a subserous pocket, introducing and fixing the electrode, characterized in that the animal is immobilized after daily starvation under anesthesia through the abdominal wall incision is taken out of the stomach into the wound and covered with sterile napkins moistened with warm physiological saline, through a 5 mm lengthwise serosa incision, is separated the spinal membrane from the longitudinal muscle layer over 5 mm, the closed branches of the anatomical forceps are inserted into the suberosal pocket, they are pushed apart and the electrode substrate with electrodes is inserted and strengthened with three single sero-muscular-serous sutures passing through the holes in the substrate using MGTF type wires from the electrodes are brought out of the trocar through the abdominal wall into the back area and soldered to a standard connector, previously strengthened with silver staples in the lumbar spine ka, 7-10 days after the operation, biopotentials are recorded under conditions of free animal behavior. 2. The method according to claim 1, characterized in that for the application of sero-muscular-serous sutures, the wires in the cambric region are grasped with anatomical forceps, pressing downwards on the wires so that the top of the electrode substrate with the hole rises up and lies against the serous membrane, making the hole is visible, an atraumatic needle is injected through the serous and muscle membranes at a distance of 1.5 mm from the substrate, and a puncture is made through the hole in the substrate and the serous membrane, a single serous-muscular-serous suture is tied, then a tweezers ohm similarly lift the base of the electrode substrate, and puncture is performed vykoli knotted atraumatic needle and single serous-serous musculo-seams on either the right or left side.