RU2097073C1 - Electrostimulation device for treating gastrointestinal tract - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has cylindric electrode capsules with double bottom. Medicine is introduced into the cavity between the outer and inner bottom. The outer bottom has openings. Internally filled electrodes are coated with indifferent insulating material dissociating in some medium within the gastrointestinal tract. The device of this kind only starts operating after the electrode insulating coating being dissolved and medicine delivery starts acting concurrently with electrostimulation. Medicine assimilation is enhanced due to electrostimulation. In moving through the gastrointestinal tract, such electrostimulation device delivers medicine to any part of the tract. When passing the oral cavity, danger arises of being jammed in upper portion of the esophagus or of acute asphyxia to take place. EFFECT: enhanced effectiveness of treatment. 7 cl, 1 dwg

Description

 The invention relates to medical electronics, namely, to stand-alone electrical stimulators of the gastrointestinal tract (GIT).

 Autonomous gastrointestinal electrostimulators are known, which are a sealed capsule consisting of two electrodes isolated from each other, inside of which are placed, connected to the electrodes, a stimulating pulse generator and a power source for it [1] When an electrostimulator enters the gastrointestinal tract, a circuit is closed generator through the wall of the tract, irritation of the latter by electric pulses and its contraction. Reducing the walls of the gastrointestinal tract promotes the promotion of an electrical stimulator throughout the gastrointestinal tract.

 However, with the oral administration of an electric stimulator in the digestive tract, the latter first of all enters the oral cavity and esophagus. As you know, the upper part of the human esophagus contains sensitive receptors that are associated with controlled striated muscles, namely the cricopharyngeal muscle, the muscles of the bottom of the mouth, the muscles of the sphincter of the esophagus, etc. Upon contact with the oral mucosa arising in the generator circuit, an electrical impulse causes contraction of the striated and smooth muscles, which can lead to spasm of the upper pharyngeal sphincter and stuck stimulator in the upper esophagus. If the cryopharyngeal muscle and epiglottis are reduced, then there is a threat of acute asphyxiation.

 To facilitate the introduction of an electric stimulator into the GLC, the present invention proposes to cover at least one of its electrodes with an indifferent insulating material that disintegrates only in a specific gastrointestinal tract. An example of such a material is gelatin known in pharmacy [2]. Coating the capsule electrode with gelatin can be accomplished, for example, by simply immersing it in a gelatin mass (dipping) [2] It is also possible to place the electric stimulator completely in a separate gelatin capsule, as a container made by known technology [2] Gelatin capsules and coatings, in turn, can have coatings and protection against exposure to certain digestive tract environments. Gelodurate, or glutoid, capsules are known [2], which differ from gelatin capsules in that they are not able to dissolve in acids, dissolving in alkaline liquids. Such capsules pass through the stomach unchanged and disintegrate in the alkaline contents of the intestine (intestinal capsules). Instead of glutoid capsules, which are more applicable in pharmacy production, acid-resistant film coatings are used, for which gelatin coatings or capsules, for example, are treated with a 5% solution of cellulose acetate phtholate in a mixture of acetone with alcohol 3: 1 or acetoptholate is added to the gelatinous mass. To obtain gelatin coatings and moisture resistant capsules, films are prepared, for example, from stearic acid, polyvinyl acetate, acetylated monoglycerides.

 The insulation coating on at least one of the stimulator electrodes leaves the stimulator pulse generator circuit open until this coating disintegrates under the influence of a certain gastrointestinal tract. This provides the opportunity to avoid unwanted stimulation and dangerous spasmodic contraction of certain muscles. In particular, the oral administration of such stimulants becomes unobstructed.

 In addition to eliminating the above-described negative aspects inherent in the use of known electrical stimulants, the placement of the capsule of an electrical stimulator in an insulating sheath that breaks down in a specific section of the ZHTK makes it possible to make its therapeutic effect more effective due to the simultaneous electrical stimulation of the administration of drugs, for example, salazosulfoperidosin.

 As already mentioned above, the body of the electrical stimulator is a capsule consisting of two electrodes that are electrically isolated from each other. In this case, the electrodes in the general case can be described as closing short cylinders on one side of the bottom. If the bottom of such cylinders is made double, i.e., consisting of the inner and outer bottoms, and the necessary medicine is placed in the cavity formed between them, making at the same time aspiration openings in the outer bottom, then, simultaneously with the onset of exposure to electrical stimulation (when gelatin the coating breaks up), the drug will begin to flow and its effective absorption through electrostimulation. Moving along the gastrointestinal tract, an electrostimulator can deliver a medicine to any of its departments and increase the effectiveness of its effect by improving absorption. In fact, the electrostimulator in this case acts as a new dosage form of drugs for the treatment of not only the gastrointestinal tract, but also other organs.

 The drawing shows an example of the design of the proposed electrical stimulator for the case of electrodes 1 with a flat inner bottom 2 and a hemispherical outer bottom 3. The gelatin coating is not shown in the drawing. In the outer hemispherical bottom 3 there are suction holes 4. In the outer hemispherical bottom 3 there are suction holes 4. In the cavity formed by the double bottom there is a medicine 5. 6 insulation that separates the two electrodes of the capsule.

 Literature.

 1. Pekarsky V.V. Agafonnikov V.F. Dambaev G.Ts. Kobzev V.I. Popov O.S. Gastrointestinal Electrostimulator, ed. St. N 936931, cl. A 61 N 1/36 (prototype).

 2. Muravyov I.A. Technology of drugs. Medicine, 1980, Volume II, p. 583-592.

Claims (7)

 1. The stimulator of the gastrointestinal tract, having a body in the form of a sealed capsule, consisting of two electrodes isolated from each other in the form of cylinders closed on one side, a stimulating pulse generator connected to the electrodes and a power source for it inside the capsule, characterized in that at least one of the electrodes is coated with indifferent insulating material that breaks down in the gastrointestinal tract.  2. The pacemaker according to claim 1, characterized in that the capsule of the pacemaker is placed in a capsule of indifferent insulating material, disintegrating in the environment of the gastrointestinal tract.  3. Electrical stimulator according to claims 1 and 2, characterized in that the indifferent insulating material is gelatin.  4. Electrical stimulator according to claims 1 and 2, characterized in that the indifferent insulating material is glutin.  5. Electrical stimulator according to paragraphs. 1 and 2, characterized in that the insulating coating of the capsule of the stimulator is protected by a moisture-resistant film.  6. Electrical stimulator according to paragraphs. 1 and 2, characterized in that the insulating coating of the capsule of the stimulator is protected by an acid-resistant film.  7. An electrical stimulator according to claims 1 to 6, characterized in that at least one of the electrodes has a double bottom, consisting of an inner and an outer bottom, a drug is placed between the bottoms and holes are made in the outer bottom.