RU2157257C1 - Method and device for treating human posterior eye segment diseases by applying endonasal electrophoresis method - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: medicine is delivered to lesion focus by means of one or two active electrodes with turundas introduced into patient nostrils and two indifferent electrodes one of which is placed in the central area of the front and the other one in the temporal area. The treatment is carried out during 15-20 min with intermediate electric current being switched off for 2-3 min after every 5-6 min of working. The device has electric power supply source of direct current, one or two active electrodes with turundas wetted with medicinal solution for being introduced into patient nostrils, two indifferent electrodes fixed on a bandage longitudinally movably embracing frontal part of the head. One of the indifferent electrodes is placed in the central part of the front on the same side with the injured eye. One eye being treated, one active and two indifferent electrodes are used. Both eyes are treated, two active and three indifferent electrodes are used. The active electrodes are manufactured as flattened loop which branches are positioned with a space between them in parallel relation to each other. Each indifferent electrode has box-like rectangular casing having internal through slit for placing a bandage and round plate attached to one of external walls of the casing. The casing is manufactured from dielectric material, the plate is manufactured from a current-conducting material, and the power supply source is connected to the plate. EFFECT: higher permeability of hemophthalmic barrier; created drug pool in eye structures. 6 cl, 3 dwg

Description

 The invention relates to medicine, and more specifically to physiotherapy in ophthalmology, and can be used in the treatment of eyes with nasal electrophoresis.

 It is known that, by electrophoresis, a drug substance can be introduced into the tissues and environments of the eye in a quantity sufficient to produce a pronounced therapeutic effect without any damaging effect on the tissue. This technique compares favorably with subconjunctival injections. The drug substance can be brought to the receptors of the diseased eye or to its receptor zone, thereby contributing to the creation of close contact between the drug and the interoreceptors of the lesion. In addition, in some cases it is more delayed by the tissues of the eye (deposited in them). The assimilation of a medication administered by electrophoresis occurs against the background of the activation of metabolic processes in the tissues of the eye under the action of a galvanic current. A medicinal substance, introduced in a state of electrical activity, has a more pronounced pharmacological effect (see L. Chirikchi. Physiotherapy in ophthalmology. - K .: Health, 1979, p. 3-4).

 Using the method of electrophoresis, it is possible to treat not only the anterior part of the eye, but also diseases of the posterior part (segment) of the eye, access to which is difficult.

 The known method of electrophoresis of the posterior segment of the eye using nasal electrophoresis (endophoresis), based on the existence of a close anatomical and physiological connection between the posterior segment of the eye and the hypothalamic-pituitary region, including the introduction of a drug from the nasal cavity by introducing active electrodes (electrodes connected to the positive pole of a direct current source), coated with turunds moistened with a solution of a medicinal substance, and an indifferent electrode, (an electrode connected to negative pole), mounted on the head in the occipital part of it.

 The apparatus for performing nasal electrophoresis contains a direct current energy source, two active electrodes connected to the positive pole of the source and coated with turunds moistened with a solution of the drug substance for subsequent administration into the nostrils, and an indifferent electrode connected to the negative pole and fixed to the head in the back of the head . Moreover, the installation also contains a rim fixed on the patient’s head around the frontal part and serving to fix active electrodes (see Questions of balneology, physiotherapy and therapeutic physical culture. - M.: Medicine, t.5, p.462, 1964).

 When performing nasal electrophoresis by a known method, a drug passes into the brain, bypassing the blood-brain barrier.

 The objective of the invention is to bring the drug to the posterior segment of the eye at a minimum concentration, as well as create a depot of the drug in the structures of the eye and increase the permeability of the blood-brain barrier when exposed to electric current.

 These results are achieved due to the fact that the lines of force flow through the eye, bypassing the brain, i.e. local therapeutic effect of the drug substance is carried out.

 The claimed invention is illustrated by graphic material, where in FIG. 1 shows a patient’s head with installation elements, FIG. 2 shows the active electrode, and FIG. 3 is a cross section of an indifferent electrode.

 The apparatus for performing nasal electrophoresis of the posterior segment of the eye contains a direct current electric power source 1 (for example, "Potok-1"), one or two active electrodes 2 connected to the positive pole of the source 1 and covered with turund 3, a rim fixed on the frontal part of the head and made in the form of a bandage 4, and at least two indifferent electrodes, each of which is made in the form of a rectangular box-shaped body 5 with an internal through groove to accommodate the bandage 4 and a round plate 6 attached to one of the outer sides of the wall of the housing 5, the latter being made of a dielectric material, for example plastic, and the plate 6 is made of a material that conducts electric current, for example stainless steel, while the DC power source 1 is connected to the plate 6. One of the indifferent electrodes located in the central part of the bandage 4, for subsequent installation in the central part of the forehead, and the other or the other at a distance to the side of the first to ensure subsequent installation in the temple area or both temple s, and the indifferent electrodes are fixed to the bandage 4 by means of the said through groove in the body 5 with the possibility of longitudinal movement, taking into account the individual characteristics of the patient’s head shape, while the electrodes 2 are made in the form of a flattened loop, branches 7 of which are parallel and with a gap of 8 relative to each other . The electrodes 2 can be made of stainless wire, for example stainless steel or titanium. The dimensions of the electrodes 2 should provide the possibility of their entry with Turunda 3 (diameter of the order of 1.5 cm) into the nostrils and protruding from them Turunda 3 and the electrodes themselves 2. Turunda 3 is made of cotton wool or gauze, which is inserted into the gap 8 and covers the branches 7 of the loop electrode 2 and can be easily and firmly fixed with this gap 8, which eliminates the possible exposure of the electrode, which can lead to burns of the nasal mucosa. To avoid contact with the patient’s body, the protruding part of the active electrode 2, it is isolated by means of a tube 9 made of synthetic material.

 The proposed method of treatment includes the supply of a solution of a medicinal substance from the patient’s nasal cavity (nostrils) to the affected area of the posterior segment of the eye by applying a constant electric current to one or two active electrodes and an indifferent electrode, the active electrode or electrodes being coated with turundas, which are impregnated with the solution medicinal substance and injected into the nose (nostril or nostrils) of the patient, and the indifferent electrode is fixed on his head, while the supply of drugs The substance is provided by at least two indifferent electrodes, one of which is located in the central region of the forehead and the other in the temporal region. When treating both eyes in the second temporal region, an additional indifferent electrode is installed. The treatment procedure is carried out for 15-20 minutes with an intermediate shutdown of the electric current for 2-3 minutes after every 5-6 minutes of operation. Such an electric “buildup” gives the effect of inertial advancement of a solution of a drug substance and its accumulation in the posterior segment of the eye.

 In the treatment of both eyes, two active electrodes 2 are used, inserted into both nostrils of the patient, and three indifferent electrodes, one of which is located in the central region of the forehead, and the other two in the region of both temples.

 When treating one eye on the frontal part of the patient’s head in a sitting position, apply a bandage 4 and fix the cases 5 of two indifferent electrodes, placing under the round plates facing the patient’s head moistened with water or saline gaskets made, for example, of flannel, folded in several layers, one of these electrodes being placed in the central region of the forehead and the other in the temporal region from the side of the affected eye, after which the dressing 4 is fixed by any known m way, for example, through a textile fastener (Velcro). Turunda 3 active electrodes 2 are impregnated with a solution of a medicinal substance and firmly inserted into the patient’s nostril closest to the affected eye, if necessary, fixed on the patient’s upper lip, for example by means of a gasket and adhesive bandage or using a bandage 4. The electrodes are connected to the corresponding poles of source 1 ( if they have not been connected before) and they are supplied with electric current with parameters of the order of 1 mA and 60-80 V, while the power lines of the current and the drug pass directly through the blood-brain barrier, providing the desired therapeutic effect.

 The proposed method can be used as a resolving therapy in the treatment of hemorrhages in the retina and hemorrhages in the vitreous body.

 Enzymes are used as a drug substance, in particular, collalizine (collagenase), about 50 units are administered. The preparation in the form of a powder is dissolved in water for injection at room temperature. An ampoule of 1000 units is dissolved in 10 milliliters, and 500 units in 5 milliliters of water for injection.

Claims (6)

 1. A method of treating a disease of a posterior segment of a person’s eye by endonasal electrophoresis, comprising supplying a drug solution to the affected area by applying a constant electric current to one or two active electrodes and an indifferent electrode, the active electrode or electrodes being coated with turundas, which are impregnated with a drug solution substances and injected into the patient’s nose, and the indifferent electrode is fixed on the patient’s head, characterized in that the supply of lek rstvennogo substance is provided by fixing the patient's head to the second indifferent electrode, wherein one of the indifferent electrodes are arranged in the central region of the forehead, and the other - in the temporal region.  2. The method according to claim 1, characterized in that in the second temporal region establish an additional indifferent electrode.  3. The method according to claim 1 or 2, characterized in that the procedure is carried out for 15 to 20 minutes with an intermediate disconnection of the electric current for 2 to 3 minutes after every 5 to 6 minutes of operation.  4. Installation for the implementation of nasal electrophoresis of the posterior segment of the human eye, containing a source of direct current electricity, one or two active electrodes connected to its positive pole and coated with turunds moistened with a solution of a medicinal substance, for its subsequent introduction into the patient's nose, an indifferent electrode connected to the negative pole and mounted on the head, and a rim covering the frontal part of the head, characterized in that the installation is equipped with at least one additional in with a differential electrode, and the rim is made in the form of a bandage, indifferent electrodes are mounted on the bandage with the possibility of longitudinal movement for electrophoresis of the posterior segment of the eye, one of them is located in the central part of the bandage for subsequent installation in the central region of the forehead, and the other or the other on the side of the first for ensure subsequent installation in the temple area or temples, while the active electrodes are made in the form of a flattened loop, the branches of which are parallel and with a gap relative to each other, and each the indifferent electrode is made in the form of a rectangular box-shaped case with an internal through groove for placing a bandage and a round plate attached to one of the outer sides of the case wall, the case being made of dielectric material and the plate made of a material that conducts electric current, while the source of direct current electricity connected to the plate.  5. Installation according to claim 4, characterized in that the housing is made of plastic.  6. Installation according to claim 4, characterized in that the plate is made of stainless steel.

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