RU2036671C1 - Gastroenteric tract electric stimulator - Google Patents

Abstract

FIELD: medical engineering; veterinary. SUBSTANCE: this gastroenteric tract electric stimulator includes dielectric bushing 1, electrodes 2 and 3, pulse generator, power source including units 5, 6 and 7, spring 8, coating 9 applied to electrode-anode. EFFECT: promising results. 1 dwg

Description

 The invention relates to medicine and veterinary medicine, namely to stimulants of the gastrointestinal tract (GIT).

 A known gastrointestinal electrostimulator in the form of a medicinal capsule, which is two electrically isolated parts and contains a generator, a power source and electrodes. An electrical stimulator is used to relieve atony and intestinal paresis.

 The disadvantage of the electric stimulator is the lack of requirements for the material of the electrodes according to its microelement composition. It is well known that during electrostimulation of the gastrointestinal tract, the positive electrode will dissolve, and all trace elements contained in the anode material will be ionized into the environment of the gastrointestinal tract and then absorbed through the intestinal wall into the blood. As a result, there may be a violation of the metabolism of trace elements in the form of their accumulation in the body (hypermicroelementosis). For example, it was found that the accumulation of copper in the body occurs with atherosclerosis and cataracts, and the accumulation of zinc in the tissues is carcinogenic, the scarring stage in myocardial infarction corresponds to an increase in nickel and chromium in the blood, etc.

 The aim of the invention is the elimination of hypermicroelementosis in the human or animal body during electrical stimulation of the gastrointestinal tract.

 This goal is achieved by the fact that in the electric stimulator of the gastrointestinal tract, including a pulse generator, a power source and electrodes representing two electrically isolated parts of the drug capsule, and a pulse generator and a power source are placed inside the capsule, the surface of the anode electrode is equipped with a continuous conductive film with a thickness not less than 10 microns from a number of trace elements necessary for the body of a biological object.

 A film containing a predetermined mass of a certain trace element located on the surface of the anode electrode prevents the dissolution of the anode electrode in the gastrointestinal tract and, as a result, the accumulation of trace elements in the body, leading to hypermicroelementosis.

 By making an electrode anode with a certain predetermined content of trace elements, you can adjust the balance of trace elements in the body and purposefully treat some diseases. For example, it was found that zinc deficiency in atherosclerosis is a specific disorder, and in experimental and clinical observations, the deficiency replenishment has a normalizing effect on lipid metabolism and is accompanied by a pronounced therapeutic effect.

 The drawing shows a diagram of the design of the proposed electrical stimulator of the gastrointestinal tract. The pacemaker consists of a capsule body 1, which is made in the form of two electrically isolated parts serving as electrodes 2 and 3 in contact with the intestinal walls. A pulse generator 4 and a power source of galvanic cells 5, 6 and 7, a spring 8, providing electrical contact between the elements, films of trace element 9 are placed inside the housing. A plus is supplied to electrode 2 and minus from the pulse generator 4 to electrode 2. On the electrode surface -anode 2 a film with a thickness of at least 10 μm is applied either from zinc, or from nickel, or from chromium, or from another microelement, i.e. that trace element that the body needs. The size of the gastrointestinal electrical stimulator is limited by the possibility of introducing it into the gastrointestinal tract of a patient or animal by swallowing.

Electrical stimulator of the digestive tract works as follows. An electrical stimulator is introduced into the gastrointestinal tract of a patient or animal by swallowing or casting it through the throat with a special tool. A series of rectangular pulses of a given characteristic comes from the pulse generator 4 to the electrodes 2 and 3 of the electrostimulator, which act on the intestinal wall both directly in contact with it and directly through the conductive medium of the gastrointestinal tract. The intestinal response in the form of a peristaltic wave propels the contents of the intestine and electrostimulator into the distal intestines, where the process repeats. Dissolving trace elements from the anode electrode enter the gastrointestinal tract and are absorbed by the intestinal walls in ionized form. In this case, the main material of the anode electrode is completely protected from its dissolution in the gastrointestinal tract. This follows from the law of Faraday, where the mass of dissolved trace element:
m K ˙ I ˙ t, where K is the electrochemical equivalent of a substance;
I amperage;
t travel time. A numerical estimate shows that for nuclear power plants ZhKT 11MO 089.331. TU modification electrostimulator-01 with a maximum stimulation time of 50 hours from the surface of the anode electrode, a film of material less than 10 microns thick will dissolve.

 The proposed gastrointestinal electrostimulator is experimentally performed on the basis of a commercially available autonomous gastrointestinal electrostimulator (GIT nuclear power plant) 1MO. 089.331 TU, in which the electrode-anode made of stainless steel was covered with a continuous film of zinc, nickel, chromium with a thickness of at least 10 μm.

 The method of applying trace elements to the anode of an electrostimulator was used electrochemical.

 The study found that after the electrostimulator was in a medium simulating gastric juice for 50 hours, zinc was found in it 18.0 mg, chromium 4.2 mg, nickel 3.06 mg, which corresponds to the calculated data.

 By setting a specific current and stimulation time, it is possible to strictly dose the trace elements introduced into the human or animal body.

 The use of the proposed gastrointestinal electrical stimulator allows eliminating hypermicroelementosis in the human or animal organism, controlled by the introduction of microelements (Zn, Cr, Cj, Ni, etc.), which will make it possible to treat certain diseases, and in animal husbandry it will also ensure reproduction of higher weight gain of animals.

Claims (1)

 ELECTRIC STIMULATOR OF THE GASTROINTESTINAL TRACT, including a pulse generator, a power source and electrodes made in the form of two electrically isolated parts of the drug capsule, and a pulse generator and a power source are placed inside the capsule, characterized in that, in order to exclude hypermicroelementosis in the body of a biological object, it contains a coating deposited on the electrode-anode in the form of a continuous conductive film of a number of trace elements with a thickness of at least 10 microns.