RU2400180C2 - Method of contractile stomach function recovery in animals - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to veterinary medicine, particularly to physiotherapy. The method includes electric stimulation of an animal organism. Herewith, the opioid systems are activated by transcranial electric stimulation. At first, an organism is exposed to direct current supplied on the electrodes within the frontal (cathode) and occipital (anode) bones to be smoothly increasing within two minutes from 0 to 6.0-7.0 mA, and then in the same polarity, rectangular pulses of frequency 70-90 Hz and duration 3-4 ms with their amplitude slowly increasing within two minutes to 3.0-3.5 mA are supplied to the electrodes. Electric stimulation is continued for 30-35 minutes every second day. The course of treatment takes 3-5 sessions.

EFFECT: method allows improving the general condition of animals, increasing their activity, restoring appetite.

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Description

The invention relates to the field of veterinary medicine, in particular to physiotherapy.

Known pharmacological agents (morphine, proserin, galantamine) that increase the secretory and contractile function of the stomach, and which are used to stimulate its activity (Subbotin V.M., Subbotina S.G., Aleksandrov I.D. "Modern medicines in veterinary medicine" , - Rostov-Don, publishing house "Phoenix". - 2000, - 591 p.). However, when using these drugs, the response of the muscle layer of the stomach to the recommended doses is not always adequate, sometimes the drugs have side effects.

As a prototype, the method of regulation of the contractile function of the stomach in humans was chosen (Ilyasova EB, Dmitriev Yu.Y. "Method of stimulation of gastric motility", - Bulletin of radiology and radiobiology. - 1986, No. 2, - P.19-23) by effects on the muscles of the stomach with dynamic currents (DT) through electrodes located in the area of the projection of the stomach: on the anterior abdominal wall (negative pole) and lumbar region (positive pole). The source of dynamic currents is the device "SNIM-1".

The disadvantage of this method is that after exposure to DT, in the recommended mode, there are active muscle contractions of the stomach, the magnitude of which is not always possible to regulate using the “SNIM-1” apparatus. Therefore, this method of stimulation cannot be used after surgical interventions on the stomach, since active muscle contractions have a negative effect on the healing of the stomach wall and the restoration of its functional activity.

The aim of the invention is to restore the contractile function of the stomach in animals by acting on the opioid systems of the body using transcranial electrical stimulation (TCES).

This goal is achieved by the fact that as a stimulator of contractile function of the stomach transcranial electrical stimulation is used, which is carried out by a special apparatus "Transair-2". To do this, the hair is cut off in the animal in the area of the frontal and occipital bones and electrodes with hydrophilic pads are applied, which are fixed on the head with a special rubber retainer. At the same time, a negative electrode is located in the forehead, and a positive electrode in the nape of the neck.

After that, direct and pulsed current is supplied to the electrodes. Direct current is supplied by a smooth rise over two minutes from 0 to 6.0-7.0 mA. Then, in the same polarity, rectangular pulses with a frequency of 70-90 Hz and a duration of 3-4 ms are applied to the electrodes, the amplitude of which is slowly increased over two minutes to 3.0-3.5 mA, which is 2 in relation to direct current: one. TKES is carried out within 30-35 minutes every other day, the course of electrical stimulation includes 3-5 sessions.

When sessions are reduced to 1-2, the effectiveness of TKES decreases; when sessions are increased to 6, the efficiency remains the same.

The combination of direct current with pulsed, unlike dynamic currents, affects the muscles of the stomach not directly, but through the opioid systems of the body, which is accompanied by the production and "release" of neuropeptides (beta-endorphin, enkephalins, serotonin, etc.) into the cerebrospinal fluid and, involved in the regulation of internal organs, including motility of the muscles of the stomach.

Thus, unlike the prototype, TKES affects the stomach by including its own capabilities, as a result, the contractile activity of the stomach is not forced, but is restored gradually, which is of great importance for the use of this method in the postoperative period. At the same time, TKES has a pronounced homeostatic nature, that is, its normalizing effect is manifested mainly with impaired functions.

Figure 1 shows the experimental animal with a fistula in the cavity of the stomach.

Figure 2 shows the location of the electrodes with hydrophilic pads on the head of a pig.

Figure 3 presents fragments of gastrograms in a pig after exposure to transcranial electrical stimulation and exposure to dynamic currents.

Example 1. To compare the proposed method and prototype, experiments were conducted in the conditions of the veterinary clinic of the Kursk State Agricultural Academy named after Professor I.I. Ivanov. The object of research was repair pigs of large white breed.

In compliance with all the rules of surgical intervention, a fistula was inserted into the stomach cavity of each experimental animal (Fig. 1), through which a rubber balloon was inserted into the stomach, connected by a tube system to a recording device.

To conduct TCES, electrodes with hydrophilic pads fixed in the frontal (cathode) and occipital (anode) bones with a special rubber clamp (Fig.2) were supplied with direct and pulse current using the Transair-2 device. In this case, a direct current was supplied by a smooth rise for two minutes from 0 to 7.0 mA. Then, in the same polarity, rectangular pulses were applied to the electrodes with a frequency of 85 Hz and a duration of 3 ms, the amplitude of which was slowly increased over two minutes to 3.5 mA, which in the ratio to direct current was 2: 1. The duration of the TKES session was 30 minutes.

A graphic recording of stomach contractions was performed before TKES, 15 minutes, 1.3 and 6 hours after the end of electrical stimulation.

After the equalization period (after 24 hours) in the same animals, the contractile activity of the stomach was stimulated using dynamic currents (prototype method). For this, the electrodes of the SNIM-1 apparatus were placed on the area of the projection of the stomach: on the anterior abdominal region (negative pole) and on the lumbar region on the left side of the spinous processes of the vertebrae (positive pole). After turning on the apparatus, the switch was first set to a 1-phase current and acted on it for 1 min, and then to a 2-phase current, which also acted for 1 min. The last included syncope rhythm for 2 minutes. A graphic recording of the contractions of the stomach was carried out in the same periods as when using TKES.

The research results showed (Table 1, figure 3) that after TKES contractile function of the stomach increased gradually, reaching a maximum after 3 hours, then it decreased. After stimulation with DT, the contractions were more pronounced. After 15 minutes, the peristalsis of the stomach increased significantly: the amplitude of contractions increased by 1.2; duration of reductions - 1.3; frequency of contractions - 2.7; the contracting index is 1.6 times higher than background indicators. After 60 minutes, these indicators reached maximum values and, accordingly, amounted to 1.3; 1.4; 3.7 and 1.8, after which they decreased.

Thus, the effect of TCES on the muscles of the stomach, in comparison with DT, was “softer” and longer, which had a positive effect on the restoration of contractile function of the stomach after surgery.

Example 2. The proposed method was used to restore contractile function of the stomach in dogs after undergoing operations on it. Under observation were 37 dogs of different breeds. Assessment of the condition of the animals was carried out according to the anamnesis and clinical indicators.

7 days after the operation, 11 dogs were subjected to TCES in the aforementioned mode, 12 dogs were stimulated using DT, 14 dogs were control and were not exposed to electrical effects.

Clinical observations showed that during TKES dogs behaved calmly, many were drowsy, some animals lay down. When using DT, the dogs initially behaved calmly, but after 10-15 minutes they showed increased activity, they tried to free themselves from the electrodes, whined.

Further observations showed that after 3-5 sessions of TCES in dogs the general condition improved, they became more active, their appetite increased, after 6-8 days they were transferred from a sparing diet to a general diet.

In most dogs exposed to DT, the general condition corresponded to that in control animals. Their full appetite was manifested only 10-15 days after surgery.

The proposed method can be included in a set of rehabilitation measures with the aim of restoring contractile function of the stomach in animals after surgical interventions performed on it, as well as with various stomach dysfunctions.

Table 1. Indices of contractile activity of the stomach in pigs after transcranial electrical stimulation and exposure to dynamic currents Stimulation method Research indicators Research time before stimulation after 15 min after 60 min after 180 min after 6 hours TKES amplitude reduction, mmHg 16.0 ± 1.2 17.0 ± 1.4 17.0 ± 1.3 18.0 ± 1.1 17.0 ± 2.0 duration of contractions, min 18.2 ± 1.2 20.6 ± 1.4 22.3 * ± 1.1 23.8 * ± 1.5 21.2 ± 2.1 cut rate 1.5 ± 0.2 2.2 ± 0.3 2.9 * ± 0.2 3.8 * ± 0.3 2.4 ± 0.3 contract index 291.2 ± 9.4 350.2 ± 14.2 379.1 * ± 10.7 428.4 * ± 12.0 360.4 * ± 10.5 DT amplitude of contractions, mmHg 15.0 ± 1.1 18.0 ± 1.2 19.0 * ± 1.3 16.0 ± 1.5 16.5 ± 2.0 duration of contractions, min 17.9 ± 1.2 24.1 * ± 1.4 25.4 * ± 1.3 18.4 ± 1.9 18.0 ± 2.3 cut rate 1.5 ± 0.2 4.1 * ± 0.3 5.5 * ± 0.2 1.6 ± 0.4 1.6 ± 0.5 contract index 268.5 ± 11.2 433.8 * ± 15.4 482.6 * ± 14.0 294.4 ± 12.0 297.0 ± 10.7 Note: * - at p <0.05, compared with the data obtained before stimulation

Claims (1)

A method of restoring contractile function of the stomach in animals, including electrical stimulation of the animal’s body, characterized in that the opioid systems of the body are activated by transcranial electrical stimulation, for which they are initially exposed to direct current, which is applied to the electrodes located in the frontal (cathode) and occipital (anode) bones , with a smooth increase over two minutes from 0 to 6.0-7.0 mA, and then in the same polarity, rectangular pulses with a frequency of 70-90 Hz and a duration of 3-4 ms, amplitudes are applied to the electrodes in which they slowly increase over two minutes to 3.0-3.5 mA, while electrical stimulation is continued for 30-35 minutes every other day, the course of which is 3-5 sessions.

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