RU2089239C1 - Biological electrostimulator of internal organs (variants) - Google Patents

Abstract

FIELD: medicine, in particular, electrotherapeutics, intended for stimulation mainly of the gastroenteric tract. SUBSTANCE: each variant of the electrostimulator uses a case of the olive or oval-cylindrical shape, in which at least two opposite hemispheres are made current- conducting and make up electrodes, as well as a pulse generator and a power supply located inside the above case. The electrostimulator of the first variant uses a means for cyclic reversal of pulse polarity at the above electrodes. The electrostimulator of the second variant uses an additional electrode located on the case between the above electrodes. The latter electrodes are connected to one lead of the generator, and the additional electrode - to the other lead of the generator. The electrostimulator of the third variant uses an additional electrode and a means for cyclic reversal of pulse polarity at the electrodes; the additional electrode is located on the electrostimulator case between the electrodes located on the mentioned hemispheres. The latter electrodes are connected to one lead of the generator, and the additional electrode is connected to the other lead of the pulse generator. EFFECT: enhanced effectiveness of stimulation and higher corrosion resistance. 7 cl, 5 dwg

Description

 The invention relates to medicine, namely to electrotherapy, and is intended for electrical stimulation of internal organs, mainly of the gastrointestinal tract.

 There is a problem of restoring the oppressed functions of internal organs. Electrical stimulation is one of the ways to solve this problem and has more than a century of development history.

 Known gastroenterostimulator "Endoton-1" [1] is designed to enhance the motor activity of the gastrointestinal tract for therapeutic and prophylactic purposes in acute and chronic hypodynamia and intestinal adynamia. The apparatus contains a generator of rectangular electrical pulses generated in continuous or intermittent modes, one type of passive electrode in the form of a plate 40x100 mm, which is applied to the patient’s body, and three types of active electrodes: a gastric probe in the form of a flexible tube with an olive-shaped electrically conductive tip, rectal and anal electrodes. Using the apparatus, transcutaneous, transduodenal and transrectal electrical stimulation of the gastrointestinal tract, as well as stimulation of the anal pulp can be performed. The disadvantages of the apparatus are the restriction of its use only in a clinic or outpatient setting and the discomfort of its use for patients, especially at the stage of introduction and removal of active electrodes.

 Known electrical stimulator [2] of the gastrointestinal tract, made in the form of a swallowed capsule streamlined, inside which is located a pulse generator and its power source. The stimulator electrodes are made in the form of two electrically isolated parts of this capsule. Electrical impulses, acting on the wall of the intestine, cause the appearance of a response in the form of a wave of peristalsis, which promotes the electrostimulator and the contents of the intestine in its distal sections. Thus, the electrostimulator, passing through the intestine, is supposed to locally stimulate all its parts. At the same time, the use of an electric stimulator shows that the effectiveness of electrical stimulation is not reliable: in some cases, the passage of the stimulator through the intestines, the stimulation effect may be reduced or even completely absent. It was found that this is due to the equally probable random orientations of the stimulator relative to the intestinal walls. In addition, the long-term presence of an electric stimulator in an aggressive environment of the gastrointestinal tract (up to 48 hours or more) leads to significant corrosion of the electrodes until they break and the capsule is depressurized, therefore, there is a risk of poisoning by corrosion products.

 Known for the closest to the achieved result stimulator [3] of the gastrointestinal tract according to ed. St. N 936931, the set of features of which is described above and in [2] characterized in that, in order to ensure the possibility of introducing therapeutic agents into the stimulation region, one of the electrodes is equipped with a fitting in the form of a hollow cylinder with holes on the side surface for connection with a drainage tube. Such a stimulator is intended for use with a drainage tube, which additionally provides it with the possibility of some spatial orientation. However, such a stimulant can only be used in a limited part of the gastrointestinal tract (stomach, duodenum or rectum). It is also not corrosion resistant enough.

 The objective of the invention is the creation of a biological stimulator of internal organs of autonomous action with stable (more reliable) effectiveness of stimulation and, therefore, treatment, as well as increased corrosion resistance and, therefore, reduced risk of harmful side effects due to its use.

 In accordance with the task and in the first embodiment, the proposed biological electrical stimulator of internal organs, as a prototype, contains an olive-shaped or oval-cylindrical body in which at least part of its two opposite hemispheres are made electrically conductive and form electrodes, as well as a pulse generator and a power source, located inside the specified case. In contrast to the prototype, it introduced a means of cyclically changing the polarity of the pulses on the indicated electrodes.

 Due to the elongated shape of the body, the stimulator occupies a predominantly longitudinal position in the intestine and, unlike the prototype, regardless of the possible two opposite orientations, the stimulator acts on the intestinal wall with current pulses, the direction of the current of half of which coincides with the direction of peristalsis, that is, the efficiency of stimulation increases. In addition, a cyclic change in the polarity of the pulses on the electrodes reduces the effect of polarization of the electrodes and, therefore, significantly reduces the intensity of electrochemical corrosion.

 According to the second embodiment, the proposed electrical stimulator contains the characteristics shown in the first embodiment that are common with the prototype, and differs from it in that an additional electrode is inserted in it located on the housing between the above electrodes, while the additional electrode is connected to one generator electric output, and the above general with the prototype electrodes to another electrical output of the pulse generator. This circuit design solution also reduces the dependence of the efficiency of electrical stimulation on the two preferred orientations of the body of the electrical stimulator and, therefore, increases its effectiveness. Increasing the efficiency of electrical stimulation leads to a decrease in the time spent by the electrical stimulator inside the body (in particular, in the intestine) and, consequently, the level of corrosion of its electrodes is reduced.

 According to the third embodiment, the proposed electrical stimulator also contains the features described above in the first embodiment that are common with the prototype, and differs from it in that it introduces a means for cyclically changing the polarity of the pulses on the electrodes and an additional electrode located on the stimulator body between the electrodes shared with the prototype wherein the additional electrode is connected to one electrical output of the pulse generator, and the above electrodes, common with the prototype, are connected to another electrical output of the generator and pulses. This solution provides a combination of eliminating the dependence of stimulation efficiency on two equally probable longitudinal orientations of the stimulator body and at the same time reducing the intensity of electrochemical corrosion by reducing the effect of polarization of the electrodes.

 In a preferred embodiment of the electric stimulator, it is advisable to carry out the indicated means of cyclically changing the polarity of the pulses on these electrodes in the form of at least one pulse shaper and a switch controlled by this shaper. It was experimentally established that the most effective electrical stimulation periodically by the following pulse packets. Due to the switching of each successive packet of pulses on the electrodes in polarity opposite to the polarity of the previous packet and the random orientation of the electric stimulator case at each location point, a series of pulse packets of the polarity that is more effective for stimulating the internal organ is formed in time.

 It is preferable to perform an additional electrode annular, transversely covering the body of the electrical stimulator. This embodiment of the additional electrode makes it axisymmetric in the longitudinal direction of the housing, and, therefore, provides reliable electrical action in any radial (relative to the housing of the stimulator) direction.

 It is also preferable to perform these electrodes on the hemispheres of the olive-shaped or oval-cylindrical body of the stimulator equal to the additional electrode. This provides a greater identity of the conditions of electrical action on the tissue of the internal organ of each pair of electrodes formed from these electrodes and an additional electrode. In this case, it is advisable to perform the same specified electrodes at the hemispherical ends of the body of the electric stimulator. In this way, the degree of uniformity of the conditions of internal electric action on the tissues of the internal organ is optimized in the part in which these conditions are determined by the electric stimulator.

None of FIG. 1 shows a first embodiment of an electric stimulator in accordance with the invention and in a preferred embodiment;
figure 2 is an electrical diagram of a first embodiment of the invention in a preferred embodiment;
in FIG. 3 is a second embodiment of the proposed electrical stimulator in a preferred embodiment; however, the third embodiment does not require a separate drawing and is also illustrated in figure 3;
figure 4 is an electrical diagram of a second variant of the invention, where the electrodes are presented in the shape and arrangement shown in figure 3;
in FIG. 5 is an electrical diagram of a third embodiment of the present invention, wherein the electrodes are in the shape and arrangement shown in FIG.

 For each embodiment, the proposed electrical stimulator in the preferred embodiment contains the following features: an oval-cylindrical housing 1 (Figs. 1, 3) made hermetically closed, the hemispherical ends of the housing 1 are electrically conductive and form a pair of electrodes 2 and 3, a source 4 is located inside the housing 1 (Fig. .2, 4, 5) power supply in the form of series-connected galvanic cells 5 (Figs. 1, 3) and a pulse generator 6 connected to them.

 According to the first embodiment of the invention, the electric stimulator, in addition to the indicated general features, comprises means 7 for cyclic polarity reversal of the indicated pulses on the electrodes 2 and 3 (FIG. 2), made in a single hybrid-integrated design with the generator 6, and placed in the housing 1 (FIG. 1) .

 According to the second embodiment of the invention (Figs. 3, 4), in addition to the indicated common features, the housing 1 of the proposed electric stimulator contains an additional electrode 8 located on the housing 1 between the electrodes 2 and 3 and made annular, transversely covering the housing 1 of the electrical stimulator (Fig. 3), when this, as shown in figure 4, the additional electrode 8 is connected to one electrical output of the pulse generator 6, and these electrodes 2 and 3 are connected to another electrical output.

 According to a third embodiment of the invention, the electric stimulator, in addition to the indicated general features, comprises an additional electrode 8 made and arranged as described above and shown in FIG. 3, and said means 7 for cyclic polarity reversal of said pulses on the electrodes 2, 3 and 8, of which the electrodes 2 and 3 are electrically closed.

 In a preferred embodiment, the means 7 for cyclic change of the polarity of the pulses of the generator 6 is made in the form of series-connected shapers 9 and 10 of the pulse packets and the switch 11. The shaper 9 of the pulse packets is made in the form of series-connected pulse counter 12 and a combination circuit 13, as well as connected to its control input the output of the last electronic key 14. In this case, the high-order output of the counter 12 and the output of the electronic key 14 form the outputs of the pulse shaper 9. The generator 10 of the pulse packets is made similar to the generator 9 in the form of a series-connected counter 15 and the combination circuit 16, as well as an electronic key 17 connected by its control input to the output of the combination circuit 16. The counter 15 contains an additional, that is, not connected to the combination circuit 16 high order the direct and inverse outputs of which are connected to the control inputs of the switch 11. The switch 11 contains four transistors 18, 19, 20 and 21 connected by a bridge circuit. The signal input of the switch 11 is formed by connecting the collectors of transistors 18 and 19, as well as connecting the emitters of transistors 20 and 21, and the output by connecting the emitter and collector of transistors 18 and 20, as well as transistors 19 and 21. The output of the switch is connected to electrodes 2, 3 (Fig. 2) or to a pair of electrodes formed by the electrode 8 and electrically closed electrodes 2, 3. The control inputs of the switch 11 are formed by pairing the bases of transistors 18 and 21 and transistors 19 and 20, and are connected respectively to the indicated inverse and direct output m counter 15.

 All variants of the proposed electric stimulator function the same in the following part: under the influence of the voltage of the source 4, the generator 6 generates pulses of a given duration (for example, 5 ms) and a given repetition frequency (for example, 40 Hz). These pulses are supplied to the electrodes 2, 3 (the first version of the electric stimulator) or to a pair of electrodes formed by the electrodes 2, 3 and the electrode 8 electrically closed between themselves (the second and third options). Through these electrodes, the pulses act on the surrounding tissue with an electric current pulse, which causes a stimulated response. Due to the longitudinal axisymmetry of the housing 1, the mutual identity of the shape and size of the electrodes 2 and 3, as well as the annular shape of the additional electrode 8 and the same distances at which the electrodes 2 and 3 are located from the electrode 8, the electric current pulses excited by the electric stimulator in the surrounding tissues are the same each interelectrode gap and around the entire circumference of the housing 1. Differences are possible only due to the contact conditions of the electrodes 2, 3 and 8 with tissues of the internal organ.

 According to the first and third variants of the invention, the pulses of the generator 6 are supplied respectively to the electrodes 2, 3 and 8 with a cyclic change in polarity, carried out using means 7 to perform this function. This is preferably done by obtaining from the pulse train of the generator 6 pulse packets with a predetermined number (for example, 16 pulses per packet) using shapers 9 and 10 and controlling the transmission of these pulse packets in opposite polarity to electrodes 2 and 3 (Figs. 1, 2 ) or to the electrodes 2, 3 and 8 (Figs. 3, 4, 5) by the switch 11.

 In the given particular embodiment of the formers 9 and 10, which are not the only possible ones, the pulses of the generator 6 are supplied to the signal input of the electronic key 14 and to the counting input of the counter 12, where they are used as counting pulses. The counter 12 and the combination circuit 13 connected to its output form a control pulse, the duration of which is equal to the duration of a given number (for example, 16) of the pulses of the generator 6. Under the action of this control pulse, the electronic switch 14 commutes the specified number of pulses of the generator 6 to its output, then there is a packet of impulses. In this case, the conversion factor of the counter 12 determines the repetition period of this burst of pulses.

 The pulse packet generator 10 functions similarly and allows one to form a group of pulse packets formed by the pulse generator 9, that is, a packet of packets. In this case, pulses are received at the input of the counter 15, each of which captures the formation of a separate packet of pulses at the output of the shaper 9.

 The additional high-order bit of the counter 15, which is not connected to the input of the combinational circuit 16, controls the switch 11 with its direct and inverse outputs. At the indicated outputs of the counter 15, pulses with a voltage of logical 1 and pauses with a voltage of logical 0 alternate in time, while the pulse duration and pause equal to the duration of the specified group of pulse packets. When a logic 1 voltage is applied to the bases of transistors 18 and 21, and a logic 0 voltage is applied to the bases of transistors 19, 20, then a group of positive pulse packets arrives at electrode 2 (Fig. 2) or electrode 8 (Fig. 5) through an open transistor 18 polarity relative to the electrode 3 (Fig. 3) or relative to the electrodes 2 and 3 (Fig. 5) connected through an open transistor 21 with a common wire. When a logic 0 voltage is applied to the bases of transistors 18 and 21, and a logical 1 voltage is applied to the bases of transistors 19, 20, a group of pulses is supplied to the electrode 3 (Fig. 2) or to the electrodes 2 and 3 (Fig. 5) through an open transistor 19 positive polarity with respect to the electrode 2 (Fig. 2) or relative to the electrode 8 (in Fig. 5) connected through an open transistor 20 with a common wire. Thus, the polarity of the electrical pulses at the indicated electrodes changes.

 The given example of the execution of the means 7 for cyclic change in the polarity of the pulses on the indicated electrodes makes it possible to carry out a temporary sequence of groups of pulse packets with any given number of pulses in a packet, with a given repetition period of packets and with a given number of packets in a packet group. Therefore, a cyclic change in polarity can be carried out taking into account the temporal nature of the physiological activity of the reaction of the internal organ to electrical stimulation. The use of a single shaper 9 and 10 pulse packets is minimally sufficient to increase the efficiency of electrical stimulation and reduce electrochemical corrosion of the electrodes.

 Other circuit design solutions of the shaper 9 and 10 of the pulse packets and the switch 11 are possible, as well as the means 7 of cyclic change in the polarity of the pulses on the electrodes, which do not go beyond the declared community of signs.

 The following are examples of clinical applications of the proposed electrical stimulator.

 Example 1, where the option of an electric stimulator, shown in Figs. 1, 2, was used. EXTRACT FROM THE HISTORY OF DISEASE N 81/16 of a patient S. 56 years old who was admitted to the clinic of the SSMU on January 3, 1996 with complaints of pain in the epigastric region, belching after eating, a feeling of fullness and expansion of the stomach. Sick for 7 years. The development of the disease is gradual with periodic exacerbations, especially after a diet violation. Over the past 2 months, treatment in a therapeutic hospital for diseases of the stomach and duodenum, as well as diseases of the biliary tract of opisthorchiasis etiology.

 Objective examination data: the skin is clean, dry, the sclera is slightly icteric, the mucous membranes are pale, the tongue is dry, covered with a white coating. Palpation of the abdomen: moderate soreness in the epigastrium and right upper quadrant, aortic pulsation at the level of the upper third of the midline of the abdomen is not determined.

KLA: HB 122g / l, Er. 3.8 • 10 ¹² , Leu. 7.2 • 10 ⁹ , E 8, P 1, S 0, M 2, Lim. 37, C 52, ESR 12 mm / hour.

 OAM: s / f, sl / mut. beats Weight 1024, Microscopy: Lei. 3-7 in n / a, pl / ep - 2-4 and n / a, mucus ++, ed.

 B / X blood: bill. 28 μmol / l, d / cr. 48 units about white 68 g / l - 0.17 μmol / L.

 FGDS: conclusion superficial distal erosive gastritis, catarrhal duodenitis, duodeno-gastric reflux.

 Ultrasound: conclusion of periductal fibrosis, expansion of the intrahepatic ducts, chronic cholecystitis, hypomotor dyskinesia of the gallbladder, diffuse changes in the pancreas.

 HLF: conclusion a significant decrease in the acid-producing function of the stomach.

 Radiography, scopy of the stomach and duodenum: Conclusion of the phenomenon of gastritis, duodenostasis, pyrophoric sphincter insufficiency.

 FDZ: eggs of opisthorchiasis were found in portions B and C.

 Based on the data obtained, the patient was diagnosed with opisthorchiasis, chronic hepato-cholangio-cholescytopancreatitis, duodenostasis, duodenitis, reflux gastritis.

 Given the inefficiency of the two-month conservative treatment, as well as the presence of direct indications for the restoration of the periodic activity of the organs of the hepatopancreatoduodenal zone, the patient was prescribed a biological stimulator.

 The patient took a biological electrical stimulator in the morning at 8.00 after a light breakfast. From 9.30 to 13.00, the patient felt periodic involuntary contractions of the muscles of the anterior abdominal wall in the projection of the output section of the stomach. Then these sensations disappeared and appeared episodic fibrillation of the lateral muscle group to the right of the navel. By 23.00, the patient felt the passage of a biological electrical stimulator in the left abdomen. The night was calm. On the morning of the next day, sensations of periodic “vibrations” of the anterior abdominal wall were noted in the projection of the cecum. By evening, these sensations moved to the left iliac region. A biological electrical stimulator was released during the act of defecation in the morning on the second day after its admission. Inspection of the body of the electric stimulator showed that there are no traces of electrochemical corrosion on the electrodes. In the coming days after taking the biological electrical stimulator, the patient noted the disappearance of belching, the feeling of fullness of the stomach, pressure in the epigastric region stopped.

 Two weeks later, according to ultrasound: the gallbladder contracted after choleretic breakfast by 2/3 of its volume. According to FGDS: the phenomena of distal gastritis were stopped, duodeno-gastric reflux was eliminated.

 Given the favorable background, the patient received a course of deworming due to opisthorchiasis invasion. The treatment went without complications. At the control examination, the condition is satisfactory.

 Example 2, where the variant of the electrostimulator shown in Figs. 3, 4 was used, which was equipped with a flexible lead made of polymer material, rigidly connected to the hemispherical end face of the body and having a stop collar at an adjustable distance from the body 1 of the electric stimulator. EXTRACT FROM THE HISTORY OF DISEASE N 258 of a patient P. 32 years old, who applied on December 4, 1995 to the center for the treatment of male genital diseases at the Research Institute of Balneology of the Ministry of Health of the Russian Federation, Tomsk. Complaints at admission: persistent, bursting, aching pain in the perineum, discomfort during urination, clear discharge after defecation from the urethra, weakening erection, disharmony in an intimate relationship. From the anamnesis it was found out: suffers from chronic prostatitis for 5 years. Repeatedly underwent long courses of treatment in the andrology departments, after which there was a decrease in pain and prostatea, but the violation of sexual function did not recover, but gradually continued to decline. Of the general-autotic disorders, increased fatigue, irritability, episodic increases in blood pressure were noted, cases of increased conflict at work and in the family appeared.

 An objective study noted: the external genitalia are developed correctly. Signs of chronic sexually transmitted diseases are not determined. Inguinal lymph nodes are not enlarged, painless, but somewhat dense.

 Manual examination of the prostate gland: evenly enlarged due to both lobes, elastic consistency, areas of seals are not determined, palpation is painful. At the end of the study, mucous discharge appeared from the urethra. The latter are taken for microscopic analysis.

 Ultrasound data: conclusion of chronic prostatitis, enlargement of the prostate gland up to stage III.

 Microscopy of prostate secretion: the number of leukocytes up to 3.5 thousand in 1 μl, a sharp decrease in lecithin bodies in the SC, epithelial cells in clusters, specific microflora was not found.

 On the part of the KLA, OAM, B / X blood, no abnormalities were found.

 Based on the data obtained, the patient is diagnosed with chronic continuously progressive prostatitis, impotence IIA degree. Considering the inefficiency of previous courses of conservative therapy, the patient is included in the complex treatment regimen with electrical stimulation of the prostate gland using a 3-electrode biological stimulator of its variant for transrectal use. In combination therapy, along with electrical stimulation, a generally accepted scheme of absorbable and anti-inflammatory treatment is prescribed. The patient performed transrectal electrical stimulation of the prostate gland independently at home in the evening. After a small cleansing enema, a biological 3-electrode electrostimulator adapted for use in the probe for this zone was introduced into the rectum. The depth of insertion is determined by a special cuff of the limiter located on the elastic probe at a distance of 8 cm from the electrical stimulator. At the end of the stimulation session, the electric stimulator was removed from the rectal cavity, treated with a soap solution, rubbed with alcohol and placed in a case from an insulating material.

 From the observation diary.

 The first "training" session of electrical stimulation was carried out in a hospital. The patient, under the guidance of the attending physician, worked out the method of transrectal administration of a biological stimulant. The optimal distance from the stimulator olive to the restrictive cuff was determined, a convenient position for the patient was selected during the electrical stimulation session.

 The first positive effect of the treatment was noted after the 3rd session. Against the background of electrical stimulation, a good penile erection was noted, which subsequently ended with a full-fledged sexual intercourse, which delivered satisfaction to both partners. In subsequent sessions, this effect is steadily entrenched.

 During the control examination after the 8th session, it was noted: a significant improvement in the psychosamotic state of the patient. In his opinion, for the first time he felt a truly effective result from the treatment. The pains stopped, prostaterhea stopped, the quality of sexual life improved, the general vitality increased. In a manual study, there is a decrease in the size of the prostate gland to the 1st degree, its painlessness, and very poor secretion of the juice of the prostate gland after its massage. It is recommended to continue the course of transrectal electrical stimulation for up to 15 sessions.

 Control examination after completion of the course of treatment. The positive dynamics in the patient's condition has steadily entrenched. Iron was reduced to almost normal sizes. Prostatorea is absent. Microscopy of the secretion of the prostate gland: a decrease in leukocytes to 2000 in 1 μl, a twofold increase in lecithin bodies in the field of view. The result of the treatment is good. The patient was left under dynamic observation with a recommendation for 3 years to come for a follow-up examination once a quarter.

 Thus, in the preferred application for the gastrointestinal tract, the proposed electrical stimulator is characterized by a combination of increased electrical stimulation efficiency under conditions of free movement, due to a reduced dependence on various equally probable orientations of its body with respect to the direction of the peristaltic wave of the intestinal wall, and reduced electrochemical corrosion due to a decrease in the polarizability of the electrodes due to the cyclic polarity reversal on them and / or indicated th higher increased electrical stimulation efficiency. These qualities of the electric stimulator allow expanding the scope of its application. As shown above for the treatment of prostatitis, an electrostimulator can also be used in conditions of its introduction and a fixed location in a given area of a relatively inaccessible organ (prostate gland, uterus, appendages, etc.). To do this, the pacemaker can be equipped with a flexible leash, made rigid enough for the reciprocating movement of the pacemaker.

The results of a representative series of applications of the proposed electric stimulator showed that in this series the number of cases of ineffective use decreased by at least two times, compared with a number of uses of the analogue [2]
Information sources:
1. Gastroenterostimulator "Endoton-1", prospectus, compiled by A.I. Korobkov, Central Scientific and Research Institute of Medicine, Moscow, 1981, 16 pages;
2. "Electrical stimulator of the gastrointestinal tract", authors Pekarsky VV Dambaev G.Ts. et al. St. USSR N 936931, class A61N 1/36, 1982. Bull. N 23;
3. "Stimulator of the gastrointestinal tract", authors Pekarsky VV Agafonnikov V.F. Dambaev G. Ts. Glushchuk S.F. Martusevich A.G. author St. USSR N 1223922, class A 61 N 1/36, 1986. Bull. N 14.

Claims (8)

 1. Biological electrical stimulator of internal organs, containing an olive-shaped or oval-cylindrical body, in which at least part of its two opposite hemispheres are made electrically conductive and form electrodes, a pulse generator and an electrical power source located inside the specified body, characterized in that it is introduced into it means for cyclically changing the polarity of said pulses on said electrodes.  2. Biological electrical stimulator of internal organs, comprising an olive-shaped and oval-cylindrical casing, in which at least a part of its two opposite hemispheres is electrically conductive and form electrodes, a pulse generator and an electrical power source located inside the casing, characterized in that it is introduced into it an additional electrode located on the housing between the indicated electrodes, while the additional electrode is connected to one electrical output of the generator, and the indicated electrodes Odes to another electrical output.  3. Biological electrical stimulator of internal organs, comprising an olive-shaped or oval-cylindrical casing, in which at least a part of its two opposite hemispheres is made electrically conductive and form electrodes, a pulse generator and an electric power source located inside the casing, characterized in that an additional electrode located on the housing between the indicated electrodes, and a means for cyclically changing the polarity of the indicated pulses on the electrodes, while An additional electrode is connected to one electrical output, and said electrodes are connected to another electrical output of the pulse generator.  4. An electrical stimulator according to claim 1, characterized in that said means for cyclically changing the polarity of the pulses on the electrodes is made in the form of at least one pulse shaper and a switch controlled by this shaper.  5. An electrical stimulator according to claim 3, characterized in that said means for cyclically changing the polarity of the pulses on the electrodes is made in the form of at least one pulse shaper and a switch controlled by this shaper.  6. An electrical stimulator according to claims 2, 3 and 5, characterized in that said additional electrode is ring-shaped, transversely covering said olive-shaped or oval-cylindrical body.  7. An electrical stimulator according to claims 2, 3, 5 and 6, characterized in that said electrodes on hemispheres of an olive-shaped or oval-cylindrical body are made equally spaced from the additional electrode.  8. An electrical stimulator according to claims 1 to 7, characterized in that said electrodes on the hemispheres of an olive-shaped and oval-cylindrical body are made the same therein.

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