RU2103027C1 - Electrostimulator of gastroenteric tract - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: self-contained electrostimulator for treatment of gastroenteric tract is of improved construction. It is characterized by special safety in operation due to exclusion of its depressurization. EFFECT: higher results of treatment. 1 dwg

Description

 The invention relates to the field of biomedical electronics, and in particular to devices for treating organs and tissues using electrical stimulation, and more particularly, to the design of autonomous gastrointestinal electrical stimulators.

 Autonomous electric stimulants for treating organs and tissues are known, which are stimulating pulse generator and a power source for it, enclosed in a single sealed enclosure.

 Autonomous electrical stimulants are known for the treatment of the gastrointestinal tract. The housing of such electrical stimulators is made in the form of two cup-shaped metal electrodes connected by means of a cylindrical dielectric sleeve with the formation of a single geometrically enclosed space. Thanks to the transverse baffle in the sleeve, this enclosed space is divided into 2 compartments, one of which houses a stimulating pulse generator, and the other contains batteries. The connection of the electrodes with the sleeve is sealed. At the same time, in order to avoid backlash of the batteries inside the case, which can lead to an open circuit, the batteries in their compartment are pressed against the transverse baffle of the sleeve using a compressed conical spring resting against its base against the electrode, as shown in the electric stimulator [3] and electrical stimulator, taken as a prototype shown in p. 50 in [4].

 The disadvantage of the prototype stimulator is the ability to pull off the electrode from the side of the battery compartment from the sleeve due to the reaction force of the compressed spring directed towards the removal of the electrode against which it abuts. This probability is especially high when using a sliding electrode fit. To reduce the likelihood of removing the electrode from the sleeve during operation of the electric stimulator, you can increase the landing size of the electrode, thereby strengthening its connection with the sleeve. This can be done either by increasing the overall linear size of the stimulator, or by reducing the interelectrode distance. Both are undesirable. An increase in the overall linear size of the stimulator leads to difficulties with swallowing, and a decrease in the interelectrode distance reduces the volume of cells covered by the stimulation, while it is known that the more the number of control fibers is excited, the more they will be included in the work to perform the required movement [ 5].

 The aim of the invention is to prevent the removal of the electrode from the sleeve by a spring, pressing the batteries. This goal is achieved by creating such a design of the stimulator, in which the action of the reaction force of the compressed spring, pressing the batteries to the transverse baffle of the sleeve, is applied not to the electrode, but to the sleeve itself. A dielectric cylindrical part, which is tightly included in it, is inserted into the sleeve from the side of the battery compartment, on the side surface of which there is an annular protrusion. On the inner side surface of the cylindrical sleeve there is an annular groove. When a cylindrical part is inserted into the sleeve (or the sleeve nozzle on this cylindrical part, for example, by press fit), the annular protrusion of the part enters the annular groove of the sleeve and, thus, the cylindrical part is held in the sleeve. In this case, the compressed spring abuts its base against the cylindrical part. In this case, the action of the compressed spring will be counteracted by the strength of the connection groove of the sleeve - the protrusion of the cylindrical part, and not the strength of the connection of the sleeve with a metal electrode. The strength of the joint groove-protrusion can be made sufficient to keep the spring compressed without resizing or any other important parameters of the stimulator.

 The essence of the invention below is illustrated by a description of an example of the proposed design of the stimulator with reference to the drawing, which shows a stand-alone stimulator of the proposed design in section.

 A stimulating pulse generator 3 is mounted in a dielectric sleeve 1 with a transverse baffle 2 dividing it into 2 parts. On the side of that part of the sleeve where the generator is located, a metal cup-shaped electrode 4 is inserted, correspondingly connected to the generator via terminal 5. In another part bushings placed batteries 6 for the generator of stimulating pulses, which are pressed to the baffle of the sleeve by a spring 7, for example, conical, resting its base in a cylindrical part 8, inserted inside the sleeve from the side of the battery compartment. The cylindrical part is held in the sleeve and keeps the conical spring compressed in it by connecting the annular groove 9 in the side surface of the sleeve - the annular protrusion of the lateral surface of the cylindrical part. In the drawing, the groove is shown in rectangular shape in cross section, and the protrusion in the form of a rectangular triangle in cross section. Other shapes of the groove and protrusion are possible, for example, rounded. From the side of the battery compartment, the sleeve is closed by a second electrode 11, mounted on the sleeve. The contact of the second electrode with the generator, the contact of the generator with the pole of the power source in contact with the spring, is carried out by means of a spring to which the corresponding conductor 12 is soldered.

Literature
1. A tissue stimulant with a capsule containing at least one battery and electronic components. Germany, application N 3507092, class A 61 N 1/375, 08/28/86, N 35.

 2. Agafonnikov V.F. and others, USSR author's certificate N 36931, Electrical stimulator of the gastrointestinal tract, 1982, N 23, cl. A 61 M 1/36.

 3. Pekarsky V.V. and others, USSR author's certificate M1 223 922, Gastrointestinal tract stimulator, 04/15/86, N 14, cl. A 61 N 1/36.

 4. Popov O.S. Autonomous electrical stimulation of the gastrointestinal tract in surgery. The dissertation for the degree of candidate of medical sciences. Tomsk, 1988.

 5. Berkingolit MB, Glagoleva EG Electricity in living organisms. - M .: "Science", 1988.

Claims (1)

 Autonomous gastrointestinal tract electrical stimulator, which has a sealed enclosure, consisting of two metal electrodes connected together by a cylindrical dielectric sleeve with a transverse baffle, dividing the stimulator casing into two compartments, stimulating pulse generator in one compartment, power source for the generator in another compartment and a spring pressing the batteries to the baffle of the dielectric sleeve, characterized in that the dielectric sleeve from the side of the battery compartment to its th inner side surface has an annular groove, the spring rests on its base against a dielectric cylindrical part that fits tightly into the sleeve from the side of the battery compartment and has an annular protrusion on the side surface that enters the annular groove on the inner side surface of the sleeve.