RU2075980C1 - Electrostimulator of gastrointestinal tract - Google Patents

Abstract

FIELD: medicine, medicinal technique, post-operational therapy under outpatient and clinic conditions. SUBSTANCE: electrostimulator contains a capsule in which a control block for environmental status and impulse former are in series situated and connected to a supply unit. Electrodes are designed upon external surface of capsule, the total number being 2+n, where n= 0,1,2. .. and is estimated by the degree of curative effect for this or that disease and technological possibility to install electrodes. Electrodes are connected to impulse former output and control block input. In the case of multi-electrode variant only two electrodes are simultaneously connected with control block and impulse former. EFFECT: higher efficiency to prevent GASTROINTESTINAL diseases. 3 cl, 5 dwg

Description

 The invention relates to medical equipment and can be used, for example, in post-surgical therapy both in outpatient and in clinical settings, as well as in the prevention of gastrointestinal diseases.

 Known electrical stimulator of the gastrointestinal tract, containing drainage tubes on which electrodes are placed (ed. Certificate. USSR N 1389776, A 61 B 5/04, 1988).

 A disadvantage of the known electrical stimulator is the relatively high trauma of patients due to the need to remove the electrodes along with the tubes through the throat.

 Closest to the invention is an electrostimulator of the gastrointestinal tract containing a capsule in which a power source is located, two electrodes are made on the outer surface of the capsule (ed. Certificate of the USSR N 936931, A 61 N 1/36, 1982). In this case, a generator is located in the capsule, and the capsule body is made in the form of two electrically isolated parts serving as electrodes and in contact with the intestinal wall.

 However, the known electrical stimulator has a relatively low electrical stimulation efficiency, due to the partial coordination of the electric field of the two electrodes with the morphology of the muscle tissue of the gastrointestinal tract, stimulating pulses of constant magnitude and shape, and low operational reliability.

 The lack of effectiveness of electrical stimulation carried out by the analogue is explained by the following.

 Muscle tissue contains an external longitudinal and internal circular layer, the effective electrical action on which requires the presence of an electric field with variable parameters and / or electric field intensities orthogonally directed relative to each other. The electric field of the mentioned analogue does not possess such signs.

 The low reliability of the known electrical stimulator is explained by the impossibility of minimizing energy consumption in storage mode, since the known electrical stimulator is in a continuous mode of operation.

 The aim of the invention is the creation of an electric stimulator, providing the presence of an electric field with variable parameters, as well as electric fields, the intensity vectors of which are directed orthogonally relative to each other, as well as minimizing energy consumption in storage mode.

 This is achieved by the fact that in the electrostimulator of the gastrointestinal tract containing the capsule in which the power source is located, and two electrodes are made on the outer surface of the capsule, the environmental monitoring unit and the pulse shaper placed in the capsule are inserted in series, n electrodes, where n 0, 1, 2 and is determined by the degree of therapeutic effect for a particular disease and the technological feasibility of manufacturing electrodes, moreover, the electrodes are connected to the outputs of the pulse shaper, and two ele A cathode of the total number of electrodes is also connected to the inputs of the environmental monitoring unit, while all the electrodes are located on the outer surface of the capsule.

 In addition, the capsule can be made in the form of a tubular element with covers, at the opposite ends of which electrodes are located on a cylindrical surface.

 In addition, the capsule can be made in the form of two connected caps, on each of which electrodes are located on the generatrix surface.

 From the technical essence of the invention it follows that the electrostimulator can be performed both in a two-electrode and in a multi-electrode version.

 The introduction of the environmental monitoring unit, connected to the pulse shaper and electrodes, provides feedback in the power supply circuit of the electric stimulator.

 At the same time, in the storage mode, the environmental monitoring unit determines the resistance between the electrodes, which is close to infinity, and with its output signal blocks the clock frequency that determines the operation mode of the pulse shaper, i.e. in this case, the pacemaker is inoperative with minimal power consumption. When an electric stimulator enters the gastrointestinal tract, anus or vagina, the resistance value between the electrodes decreases to the level of several kOhm, while the output signal of the environmental monitoring unit, supplied to the control input of the pulse shaper, allows it to be launched and put into electrical stimulation operating mode.

 The pulse shaper provides a series of pulses with the necessary parameters depending on the pH of the external environment.

 The functions of the pulse shaper can be performed by a microprocessor, in the memory of which several groups of stimulating parameters are stored.

 In the operating mode, with the two-electrode and multi-electrode version, two electrodes are used not only for electrical stimulation, but in the pause between series of pulses to measure the resistance between them.

 The multielectrode option allows the pulse shaper for each series to create such an electrode switching, in which the electrostimulating pairs are formed simultaneously or alternately, the directions of the electric field intensities are mutually orthogonal, which ensures the excitation of both longitudinal and circular layers of muscle tissue.

 In addition, it allows you to save the functionality of the stimulator in case of failure of individual electrodes, i.e. increase operational reliability.

 The invention is illustrated by drawings, where in FIG. 1 shows a functional electric circuit (for a two-electrode version); in FIG. 2 design of an electric stimulator with one embodiment of a capsule in the form of a tubular element with caps, at the opposite ends of which one electrode is located on a cylindrical surface; in FIG. 3 - design of an electrostimulator with a capsule in the form of two connected caps, on each of which electrodes are located along the generatrix (for a multi-electrode version); in FIG. 4 is an electrical diagram of a unit for monitoring the state of the external environment, an example implementation for a two-electrode version; in FIG. 5 is an electrical diagram of a pulse shaper, an example implementation for a multi-electrode version.

 The proposed electrical stimulator of the gastrointestinal tract contains a capsule 1, in which the electronic unit 2 and the power source 3 are located. On the outer surface of the capsule 1, electrodes 4 are made, the total number of which is (2 + n), where n 0, 1, 2. The electronic unit 2 consists of a series-connected unit 5 for monitoring the state of the external environment and a pulse shaper 6.

 The electrodes 4 (in the two-electrode version) are connected to the outputs of the pulse shaper 6 and to the inputs of the environmental monitoring unit 5, and in the multi-electrode version, only two electrodes are connected to the inputs of the unit 5.

 The capsule 1 can be made in the form of a tubular element 7 with covers 8, at the opposite ends of which along a cylindrical surface is located a group of electrodes 4 (not shown). In this case, the lids 8 may have a hemispherical, dome-shaped or other other shape.

 The capsule 1 can be made in the form of two connected caps 9, on each of which along the forming surface there is a group of electrodes 4. Moreover, the caps 9 can have a conical or other shape.

 Block 5 monitoring the state of the environment can be made in the form of a block for measuring the resistance of the electrodes 4 and contain a voltage divider 10 connected to the power source 3, the inputs of which are connected to a pair of unlike electrodes 4, and a comparator 11. In this case, the inverting input of the comparator 11 is connected through a resistor 12 with a power source 3, and non-inverting with the output of the voltage divider 10.

 The output of the comparator 11 is the control input of the pulse shaper 6.

 The pulse shaper 6 may contain linear switches 13 for three states, providing a supply of a + or or - signal level of a power source 4 to each electrode 4, as well as disconnecting them from the power circuit, a pulse distributor 14 in a series consisting of a counter 15 and encoder 16 and providing alternate switching of potential key inputs to the output of counter 15 and blocking unused keys 13, a controlled frequency divider 17, which provides the formation of a pulse sequence from the required number of pulses in series with the repetition of the series, close to the repetition rate of the natural wave of peristalsis, and the control synchronizer 18, which generates the frequency that is necessary for the formation of the required duration of stimulating pulses (6-10 ms).

 Electrical stimulator works as follows (for example, a multi-electrode option).

 An electrical stimulator is administered, for example, orally to the patient's gastrointestinal tract.

 In the initial state (before it enters the gastrointestinal tract) (GIT), the electrostimulator is in an idle state, in which the pulse shaper 6 is blocked by the potential of the voltage divider 10 through the environmental monitoring unit 5.

 After capsule 1 enters the gastrointestinal tract due to the influence of the external environment (saliva, gastric juice, etc.), the potential taken from the voltage divider 5 drops, and the environmental monitoring unit 5 goes into a state that allows the operation of the pulse shaper 6.

 A series of pulses of the selected characteristic is supplied from the pulse shaper 6 to the electrodes 4. In this case, the pulse shaper 6 provides for each pulse series such switching of the electrodes 4, in which, for example, pairs are formed from bipolar electrodes 4 both within each group and from electrodes of both groups. This formation of electrostimulating pairs of bipolar electrodes 4, the directions of the electric field strengths of which are mutually orthogonal, provides simultaneous or alternate excitation of both longitudinal and circular layers of muscle tissue, regardless of the orientation of the capsule in any part of the gastrointestinal tract, which significantly increases the efficiency of electrical stimulation. An electrical effect on muscle tissue causes a response in the form of a stable wave of peristalsis, which promotes the electrostimulator and the contents of the intestinal tract to its distal sections, to which another series of impulses is applied, and the process is repeated until the capsule exits naturally.

Claims (3)

 1. The stimulator of the gastrointestinal tract, containing the capsule in which the power source is located, two electrodes are made on the outer surface of the capsule, characterized in that serially connected environmental monitoring unit and a pulse shaper placed in the capsule are inserted into it, n electrodes, where n is 0,1,2. and is determined by the degree of therapeutic effect for a particular disease and the technological feasibility of manufacturing electrodes, moreover, the electrodes are connected to the outputs of the pulse shaper, and two electrodes from the total number of electrodes are also connected to the inputs of the environmental monitoring unit, while all the electrodes are located on the outer surface of the capsule .  2. The pacemaker according to claim 1, characterized in that the capsule is made in the form of a tubular element with caps, at the opposite ends of which along the cylindrical surface there is one group of electrodes.  3. The pacemaker according to claim 1, characterized in that the capsule is made in the form of two connected caps, on each of which along the forming surface there is one group of electrodes.

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