RU184518U1 - Gastrointestinal electrostimulator with endogenous vanadium iontophoresis - Google Patents

Abstract

The device relates to medicine, namely to endocrinology, is intended to correct the level of carbohydrates in patients with type 2 diabetes mellitus. The stimulator of the gastrointestinal tract with endogenous vanadium iontophoresis consists of a pulse generator, a power source and electrodes made in the form of two electrically isolated parts of the drug capsule, while the pulse generator and the power source are placed inside the capsule, and the anode electrode is covered with a layer of vanadium weighing 6 ÷ 63 mcg. The mass of vanadium does not exceed the average daily norm of consumption of this microelement by the body. 1 ill.

Description

The utility model relates to medicine, namely to endocrinology, in particular to devices for correcting the level of carbohydrates in patients with type 2 diabetes.

Diabetes mellitus has become an epidemic of the 21st century. According to the forecasts of population studies, by 2025 in Russia about 12 million people will be affected by this disease, and worldwide the number of cases will reach 300 million. Moreover, in approximately 90% of cases of diabetes, patients have type 2 diabetes.

Methods of treating diabetes are reflected in the standards of medical care for patients with insulin-dependent (type 1) and non-insulin-dependent diabetes mellitus (type 2). In general, correction of impaired carbohydrate metabolism in such patients is achieved by the use of sugar-lowering drugs and insulin therapy. Moreover, insulin replacement therapy is the only method for the treatment of type 1 diabetes mellitus according to regulatory documents of the Ministry of Health of the Russian Federation.

Expanding the arsenal of tools for the treatment of diabetes is an urgent task of medicine due to the ever-increasing number of patients with this disease in the world.

From patent RU No. 2136288 (А61К 33/00, published September 10, 1999), a method for treating patients with diabetes mellitus is known, based on the intracellular oxidation of glucose by vanadium ion, which is formed from vanadate of the water-soluble vanadium salt - ortho and sodium metavanadate - in a daily dose in terms of vanadium 0.0125-0.025 mg / kg. The advantage of this method is the use of a simple dosage form of water-soluble vanadium salts. The disadvantages of the method, in our opinion, should be distinguished from case to case due to the dependence on many factors (composition of the intestinal medium, its pH, stability of the process of dissociation of vanadate, etc.), the probability of absorption of the required amount of vanadium ions of the intestinal mucosa. Also, when using drops of vanadate, a human uncontrolled factor is present, which does not insure against a dosage error.

Delivery of vanadium ions to the intestinal mucosa can be carried out in a more controlled way.

From patent Ru No. 2036671 (A61N 1/375, published 09.06.1995), a gastrointestinal tract electrical stimulator is known, a prototype including a pulse generator, a power source and electrodes made in the form of two electrically isolated parts of a drug capsule, and a pulse generator and a power source placed inside the capsule, in which, in order to exclude hypermicroelementosis in the body of a biological object, the electrode-anode is coated in the form of a continuous conductive film of a number of trace elements, such as Zn, Cr, Cj, Ni. By setting the thickness of the trace element layer and the parameters of the electrical impulses, such as the magnitude of the current and the stimulation time, it is possible to strictly dose the number of trace elements introduced into the human or animal organism using this device.

The purpose of creating this utility model is to expand the arsenal of tools that can be used in the treatment of type 2 diabetes mellitus, as well as to increase the effectiveness of its treatment.

This goal is achieved by the fact that in the electrostimulator of the gastrointestinal tract with endogenous vanadium iontophoresis, which includes a pulse generator, a power source and electrodes made in the form of two electrically isolated parts of the drug capsule, while the pulse generator and the power source are located inside the capsule, electrode anode covered with a layer of vanadium weighing 6 ÷ 63 μg.

A significant distinguishing feature of the claimed device is the coating of the anode electrode with a vanadium layer weighing 6-63 μg, as a result of which vanadium ions are produced directly in the intestinal mucosa due to the electrochemical dissolution of the vanadium layer covering the electrode - the anode of the gastrointestinal tract used and endogenous ionophoresis of vanadium ions in the amount of this microelement determined by the thickness of the dissolved layer, by weight lower than or equal to the average daily norm of consumption by the body, lies boiling in the range of from 6 to 63 micrograms. At the same time, the presence of electrical stimulation of the gastrointestinal tract enhances parietal digestion and the absorption function of the intestinal mucosa, and also has a reflex effect on nearby organs and tissues (including the pancreas).

The utility model is illustrated in the figure (Fig. 1), which shows the inventive device. Device 1 operates as follows. The patient orally takes a gastrointestinal tract with an anode electrode 2, on which a layer of vanadium 3 is applied (Fig. 1), washed down with a sip of water. Pulse generator 4 when the gastrointestinal tract nuclear power plant enters the electrically conductive medium automatically turns on and starts generating monopolar rectangular current pulses passing through the cap electrodes 2 and 5, which conducts the intestinal contents medium and closes to the power supply, consisting of batteries 6. In this case, electrical stimulation occurs sequentially. all sections of the gastrointestinal tract. Under the influence of an electric current, electrochemical dissolution of the vanadium layer 3, coating of the anode electrode 2 of the electrostimulator 1 is carried out, and due to the process of migration of charged ions under the influence of a small current (endogenous iontophoresis), vanadium ions are in the intestinal mucosa and are absorbed into the body. The amount of vanadium ions that enter the body with great accuracy is determined by the thickness of the applied layer of this element on the anode electrode of the gastrointestinal tract.

As shown by medical tests of analogues of gastrointestinal tract NPPs with endogenous iontophoresis of microelements (ZhKT-Cr NPPs, ZhKT-Zn NPPs, ZhKT-Se NPPs, ZhKT-Cu-Cr-Zn NPPs, ZhKT-Cu-Fe NPPs), the corresponding trace elements in ionized form enter the blood of patients, exerting an appropriate effect on the body (Agafonnikov V.F. Electron-ion correction of carbohydrate metabolism in patients with diabetes mellitus) / V.F. Agafonnikov, G.Ts. Dambaev, K.M. Popov // Third Congress of Surgeons of Siberia and the Far East : materials of the congress - Tomsk: Ivan Fedorov publishing house, 2009. - P. 227; Autonomous electrical stimulus gastrointestinal tract: monograph / V.F. Agafonnikov [et al.] - 3rd ed., add. - Tomsk: Tomsk Publishing House, State University of Control Systems and Radio Electronics, 2011. - 279 s).

All of the above analogues of gastrointestinal tract nuclear power plants with endogenous iontophoresis of microelements went through the procedure established by the Ministry of Health of the Russian Federation, all stages of OCD are allowed for production, use in medical practice (License No. 99-03-001701 dated October 27, 2009. Federal Service for Supervision of Health and Social development. JSC "NIIPP"). Since 1984, NIIPP, Tomsk, has mass-produced several million electric stimulators (as new developments were carried out until 2009, and new licenses were issued, new modifications of the gastrointestinal tract were produced).

Thus, the claimed device extends the existing arsenal of drugs that can be used in the treatment of type 2 diabetes mellitus, and also increases the effectiveness of its treatment by introducing a metered amount of vanadium ions directly into the intestinal mucosa and intracellular oxidation of glucose, accompanied by gastric stimulation intestinal tract, enhancing the processes of absorption and parietal digestion in the intestine and is indirectly affecting the increase in glucose metabolism in taphole.

Claims (1)

An electrical stimulator of the gastrointestinal tract with endogenous vanadium iontophoresis, comprising a pulse generator, a power source and electrodes made in the form of two parts of a drug capsule, while a pulse generator and a power source are placed inside the capsule, characterized in that the electrode anode is coated with a 6-walled vanadium layer -63 mcg.

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